  

                         MATS Reference Method Test Data Reporting Instructions


    INTRODUCTION

 These instructions reflect the reference method test data reporting requirements in Sections 17 through 30 of Appendix E in the [Insert Publication Date of Final Rule] revisions to the Mercury and Air Toxics Standards (MATS) regulation (40 CFR 63, Subpart UUUUU). The new XML reporting requirements apply to:

 Quarterly, annual and three-year performance stack tests; 

 RATAs performed on Hg, HCl, HF, and SO2 CEMS and sorbent trap systems; and
      
 PS-11 correlation tests, RCAs and RRAs of PM CEMS. 
 
 For each performance stack test, both the reference method data and the summarized test results in the quarterly MATS Compliance Reports must be submitted within 60 days after the end of the quarter in which the test is performed.  For each continuous monitoring system (CMS) certification and QA test described above, the reference method data must be submitted together with the test results summarized in ECMPS.  

 The reference method test data XML schema is made up of complex elements that are related to each other in a parent-child relationship. A complex element is a group of data elements which are logically grouped together. The complex "root" element, i.e., the MATS FACILITY AND TESTING COMPANY INFORMATION record, is the parent element of the entire schema. The other complex elements, representing Run-level Laboratory data, and Point-level data, are children of the root element. Figure 1 illustrates the relationship between the root element and the other complex elements.  The Point-level data must be linked to the Run-level data by the Source ID (sampling location), Run Number, and Run Begin Date.  These are key elements that will help order the data. 

This document provides instructions on how the required data are reported using this data structure.  A separate section is provided for each complex element.  The XML schema can be created either by: (1) entering the data into the ERT and creating a submission package; (2) using the XML schema that was posted in the docket; or (3) other equivalent means.   The XML tags provided in this document must be used in the schema.
	

      Figure 1: MATS REFERENCE METHOD TEST DATA
                   		XML SCHEMA



     
     LEGEND

		Root Element



		Parent and Child



	            Child Only





									                                                                   										2.0 MATS Facility and Testing
									     Company Information
								               



								3.0 Source Information 

							             







	             4.0                                         7.0                   9.0                 11.0                   13.0
	    Run and Lab Data                         Run and Lab Data     Run Data        Pre-Test Data            Run Data
              (RM 5, 5B, 5D, 26A, 29)[**]                            (RM 26)              (RM 30B)        (RM 3A, 6C)               (RM 2)



			                                                 
											       

              5.0                   6.0                              8.0                  10.0                  12.0                  14.0             15.0
            Point Data              Lab Data                         Point Data            Point Data               Run Data            Point Data          Run Data   
(RM 5, 5B, 5D, 26A, 29)    (RM 29)                            (RM 26)               (RM 30B)              (RM 3A, 6C)           (RM 2)               (RM 4)



___________________

[*][*] Note: For Method 29, the Lab Data is reported separately in Section 6.0.


2.0   MATS FACILITY AND TESTING COMPANY INFORMATION
                              Figure 2 
                	MATS FACILITY AND TESTING COMPANY 
                                INFORMATION XML Elements

               

                   
 
 
 
 
 
 
 
 
 
 
 
 
 Part
 Subpart
 ORIS Code
 Facility Name
 Facility Address 
 Facility City 
 Facility County 
 Facility State 
 Facility Zip Code
 Facility Point of Contact
 Facility Contact Phone Number 
 Facility Contact Email 
 EPA Facility Registration System (FRS) Number 
 Source Classification Code (SCC)
 State Facility ID 
 Project Number
 Name of Test Company 
 Test Company Address 
 Test Company City 
 Test Company State
 Test Company Zip Code 
 Test Company Point of Contact
 Test Company Contact Phone Number
 Test Company Contact E-mail 
 Test Comment (Optional)


 
 
 
 
 
 
 
 
 
 
 
 
 
 Part
 Subpart
 ORIS Code
 Facility Name
 Facility Address 
 Facility City 
 Facility County 
 Facility State 
 Facility Zip Code
 Facility Point of Contact
 Facility Contact Phone Number 
 Facility Contact Email 
 EPA Facility Registration System (FRS) Number 
 Source Classification Code (SCC)
 State Facility ID 
 Project Number
 Name of Test Company 
 Test Company Address 
 Test Company City 
 Test Company State
 Test Company Zip Code 
 Test Company Point of Contact
 Test Company Contact Phone Number
 Test Company Contact E-mail 
 Test Comment (Optional)





















                                                                                                                                                    

Description of Data

The MATS FACILITY AND TESTING COMPANY INFORMATION record is the complex root element of the MATS reference method test data XML schema. This root element identifies the facility and the company performing the test(s). Contact information for facility and test company personnel and an optional Test Comment field are also included in the record. 

Report the applicable MATS FACILITY AND TESTING COMPANY INFORMATION data elements in Figure 2, for any of the following tests that are performed by a single test company (or group) at a particular facility:



         Performance stack tests conducted using EPA Method 5, 5B, 5D, 26, 26A, 29, or 30B (including 30- (or 90-) boiler operating day Hg LEE tests and particulate tests used to determine the operating limit of a PM CPMS);

        RATAs of HCl, HF, SO2, or Hg CEMS or sorbent trap monitoring systems, using Method 26, 26A, 6C, or 30B;

     RRAs, RCAs, or correlation test of a PM CEMS, using Method 5, 5B or 5D; and

        Separate tests performed using Method 2, 3A, or 4 to convert a pollutant concentration to the units of the applicable MATS emission standard, or to support a CMS performance evaluation. 

If, at any given time, you have obtained the results of more than one of these tests and are ready to report the reference method data associated with them:
 
 Report a MATS FACILITY AND TESTING COMPANY INFORMATION record along with the reference method data for all of the tests in a single XML file; and 
      
 For each test, report the applicable test method-specific Run­level, Point-level, and Lab Results data elements in Figures 3 through 15 of these Instructions.

Use the following instructions to report each data element of the MATS FACILITY AND TESTING COMPANY INFORMATION record.  Insert each data element between the opening XML tag, < > and the closing XML tag, </ >): 

Part
 <Part 63> 1 </Part 63>

Report "1", to indicate that the MATS rule is codified under 40 CFR Part 63.

Subpart
<Subpart> UUUUU </Subpart>

Report "UUUUU", to indicate that the MATS rule is found at Subpart UUUUU of Part 63.

ORIS Code
<ORISCode> Facility ORIS Code </ORISCode>

Report the facility ORIS code.


Facility Name 
<FacName> Facility Name </FacName>

Report the public or commercial name of the facility (i.e., the full name that commonly appears on invoices, signs, or other business documents).

Facility Address 
<FacAddress1> Facility Street Address </FacAddress1>

Report the address that describes the physical (geographical) location of the main entrance of the facility site.

Facility City 
<FacCity> Facility City </FacCity>

Report the city in which the facility resides.

Facility County
 <FacCounty> Facility County </FacCounty>

Report the county or parish in which the facility is located.

Facility State
 <FacState> Facility State </FacState>

Report the two-letter postal code for the State in which the facility resides.

Facility Zip Code 
<FacZip> Facility Zip Code </FacZip>

Report the mailing zip code for the facility.

Facility Point of Contact 
<FacPOC> Facility Contact </FacPOC>

Report the name of a contact person with knowledge of the facility's operations during the test program who can assist reviewers of the test data if they have questions.

Facility Contact Phone 
<FacPhone> Facility Contact Phone Number </FacPhone>

Report the phone number of the contact for the facility.

Facility Contact Email 
<FacEmail> Facility Contact Email </FacEmail>

Report an email address for the facility contact. 


EPA's Facility Registry System (FRS) Number
 <FINS> FRS Number </FINS>

Report the code that indicates the identifying number given to a plant by the Environmental Protection Agency's (EPA's) Facility Registry System (FRS). The FRS number is a twelve-digit number assigned by EPA used in conjunction with its centrally managed database to identify facilities, sites or places subject to environmental regulations or of environmental interest.

Source Classification Code
 <SCC> 1010xxxx </SCC>

Refer to the list in Table A-1 in the Appendix to these Instructions.  Report the most appropriate eight-digit Source Classification Code (SCC) for the EGU (or group of EGUs sharing a common stack).    Select the SCC Code based on the unit type and the type of fuel that triggered MATS applicability.  Use the Test Comment field to provide any additional information about the source. 

State Facility ID 
<StateFacID> State Facility lD </StateFacID>

If required by the state, report the state identification number as provided by a state air pollution control agency.  Otherwise, leave blank.

Project Number 
<TestCoProjectNumber> Project number </TestCoProjectNumber>
 
The Stack Test Company will often assign a Project Number to a test program or project.  For example, a typical project number may look something like this: 17364-11-002.  The project number is not but could be the same as the Test Number, which is a unique identifier assigned by the facility to each test in the XML file.  For further discussion of Test Numbers, see Sections 4.0, 7.0, 9.0, 11.0, 12.0, 13.0 and 15.0 of these Instructions. 

If no Project Number has been assigned to the test program, leave this field blank.

Name of Test Company
 <TestCoName> Test Company Name </TestCoName>

Report the public or commercial name of the test company that commonly appears on invoices, signs or other business documents. 

Test Company Address 
<TestCoAddress1> Test Company Address </TestCoAddress1>

Report standard address used to send mail to the source test company.

Test Company City
 <TestCoCity> Test Company City </TestCoCity>

Report the city in which the source test company resides.

Test Company State
 <TestCoState> Test Company State </TestCoState>

Report the two-letter postal code for the State in which the source test company resides.

Test Company Zip Code
 <TestCoZip> Test Company Zip Code </TestCoZip>

Report the mailing zip code for the source test company.

Test Company Point of Contact
 <TestCoPOC> Test Company Point of Contact </TestCoPOC>

Report the name of a contact person from the test company person who has knowledge of the design and conduct of the source test program.

Test Company Contact Phone
<TestCoPhone> Test Company Phone Number </TestCoPhone>

Report the phone number of the source test company contact.

Test Company Contact Email 
<TestCoEmail> Test Company Email </TestCoEmail>

Report an email address for the test company contact.

Test Comment (Optional) 
<Comments> Test Comments </Comments>

Use this field to report any additional information about the source or the test protocols. 
 

3.0   SOURCE INFORMATION

                                    Figure 3
                                 SOURCE INFORMATION XML Elements 


 
 
 
 
 
 
 
 
 
 
 
 
 
 
         18.1    Source ID (Sampling Location)
         18.2    Stack (Duct) Diameter (Circular Stack)
              18.3    Equivalent Diameter (Rectangular Duct or Stack)
         18.4    Area of Stack
         18.5   Control Device Code
         18.6    Control Device Description


 
 
 
 
 
 
 
 
 
 
 
 
 
 
         18.1    Source ID (Sampling Location)
         18.2    Stack (Duct) Diameter (Circular Stack)
              18.3    Equivalent Diameter (Rectangular Duct or Stack)
         18.4    Area of Stack
         18.5   Control Device Code
         18.6    Control Device Description











Description of Data

This complex element identifies the unit or stack for which the test data are being reported. In addition, it provides information about the source ID, the test location, and control devices.  If you are reporting tests for more than one unit or stack, the data elements in this section must be reported for each Source ID.  The Source ID (18.1) will be used in subsequent sections of these Instructions to link each test to the unit or stack at which it was performed.  This link is essential for the ordering of the data.

Use the following instructions to report each SOURCE INFORMATION record.  
For the first Source ID in the XML file, enter this opening tag: < tblLocation >.   Then,
insert each data element between the opening XML tag < > and the closing XML tag        <  />, as described below:

Source ID (Sampling Location)
 <Location> ID of the unit or stack </Location>

Report the ID of the unit or stack at which the test was done. If that unit or stack ID is found in ECMPS in an electronic monitoring plan, report the ID exactly as it appears in the monitoring plan (e.g., 2, CS001, MS3A).  If the unit or stack at which the test was done is not identified in an electronic monitoring plan in ECMPS, report the ID assigned to the unit or stack by the facility.  This is a key data element that must appear in every level of the XML schema.

For each performance stack test, the unit or stack ID reported in this field must exactly match the "Test Location ID" in the quarterly MATS Compliance Report.

For each RATA, RRA, RCA, or PM CEMS correlation test, the unit or stack ID reported in this field must exactly match the unit or stack ID in the summarized test results reported to ECMPS under Appendix A, B, or C to Subpart UUUUU or 40 CFR Part 75 (as applicable).



For each separate Method 2, 3A, or 4 test (see Footnote 1 on p. 4, above):

 If the test is conducted to support a performance stack test, the unit or stack ID reported in this field must exactly match the "Test Location ID" reported for that performance stack test in the quarterly MATS Compliance Report;
       
 If the test is conducted to support a CMS performance evaluation, the unit or stack ID reported in this field must exactly match the unit or stack ID in the summarized CMS test results submitted to ECMPS. 

Stack (duct) Diameter (circular stack) 
<DuctDiam> Stack Diameter </DuctDiam>

If the test location is a circular stack or duct, report the inside diameter of the stack or duct, in inches, to at least one decimal place.

Equivalent Diameter (rectangular duct or stack) 
<EquivDiam> Equivalent Diameter </EquivDiam>

If the test location is a rectangular duct or stack, calculate the equivalent diameter of the duct or stack using Equation 1-1 in Section 12.2 of Method 1 and report the result in this field.  Report the equivalent diameter in inches, to at least one decimal place.

Area of Stack
 <As> Stack Area </As>
Report the cross-sectional area of the stack or duct at the test location in ft2, to the number of decimal places consistent with the stack diameter or duct dimension measurements.

Control Device Code 
<ControlCode> Emissions control device code or control technology code </ControlCode>

Refer to Table A-3 in the Appendix to these Instructions.  Report each emissions control device code or control technology code associated with the EGU (or group of EGUs sharing a common stack).  If a particular type of emissions control is not shown in the Table, identify it in the Test Comment field in Section 2.0 of these Instructions.

Control Device Description 
<APCDName> Control Device Description </APCDName>

Refer to Table A-3 in the Appendix to these Instructions.  Report the description of each emissions control device or control technology associated with the EGU (or group of EGUs sharing a common stack), as it appears in the right-hand column of Table A-3.  If a particular type of emissions control is not shown in the Table, identify it in the Test Comment field. 

This is the end of the information for the first Source ID.  To complete the XML schema for this test location, add the following closing tag:  </tblLocation>.  To enter additional Source IDs, repeat the sequence above for each one, beginning with the opening tag <tblLocation> and ending with the closing tag </tblLocation>.
  
4.0   RUN-LEVEL AND LAB DATA[**] (RM 5, 5B, 5D, 26A, 29)
                                        
                                    Figure 4
                               RUN-LEVEL AND LAB DATA XML Elements 
Source ID (Sampling Location) --- data element 18.1
19.1      Test Number
          19.2      Pollutant Name
 19.3      Test Method
 19.4      Run Number
 19.5      Corresponding Reference Method(s)
 19.6      Corresponding Reference Method(s) Run Number
 19.7      Number of Traverse Points
 19.8      Run Begin Date 
 19.9      Run Start Time (Clock Time Start)
 19.10    Run End Date 
 19.11    Run End Time (Clock Time End)
 19.12    Barometric Pressure
 19.13    Static Pressure
 19.14   Cumulative Elapsed Sampling Time
      19.15    Percent O2
 19.16    Percent CO2
           19.17    Pitot Tube ID
   19.18    Pitot Tube Calibration Coefficient
           19.19    Nozzle Calibration Diameter
           19.20    F-Factor (Fd, Fw, or Fc)
      19.21    Calibration Coefficient of Dry Gas Meter (Y) 
 19.22    Total Volume of Liquid Collected in Impingers and Silica Gel
 19.23    Percent Moisture - Actual
 19.24     Dry Molecular Weight of Stack Gas
 19.25     Wet Molecular Weight of Stack Gas
 19.26     Initial Reading of Dry Gas Meter Volume (dcf)
 19.27     Final Reading of Dry Gas Meter Volume (dcf)
      19.28     Stack Gas Velocity (fps)
      19.29     Stack Gas Flow Rate (dscfm)
      19.30     Type of Fuel
      19.31     Pollutant Mass Collected (value) 
      19.32     Pollutant Mass Unit of Measure
      19.33     Detection Limit Flag
      19.34     Pollutant Concentration
      19.35     Pollutant Concentration Units of Measure
      19.36     Pollutant Emission Rate 
      19.37     Pollutant Emission Rate Unit of Measure (in the Units of the Standard)
      19.38     Compliance Limit Basis (Heat Input or Electrical Output)
      19.39     Heat Input or Electrical Output Units of Measure 
      19.40     Process Parameter (value)
      19.41     Process Parameter Units of Measure
      19.42     Converted Concentration (for PM CEMS only)
      19.43     Converted Concentration Units (Units of Correlation for PM CEMS)
Source ID (Sampling Location) --- data element 18.1
19.1      Test Number
          19.2      Pollutant Name
 19.3      Test Method
 19.4      Run Number
 19.5      Corresponding Reference Method(s)
 19.6      Corresponding Reference Method(s) Run Number
 19.7      Number of Traverse Points
 19.8      Run Begin Date 
 19.9      Run Start Time (Clock Time Start)
 19.10    Run End Date 
 19.11    Run End Time (Clock Time End)
 19.12    Barometric Pressure
 19.13    Static Pressure
 19.14   Cumulative Elapsed Sampling Time
      19.15    Percent O2
 19.16    Percent CO2
           19.17    Pitot Tube ID
   19.18    Pitot Tube Calibration Coefficient
           19.19    Nozzle Calibration Diameter
           19.20    F-Factor (Fd, Fw, or Fc)
      19.21    Calibration Coefficient of Dry Gas Meter (Y) 
 19.22    Total Volume of Liquid Collected in Impingers and Silica Gel
 19.23    Percent Moisture - Actual
 19.24     Dry Molecular Weight of Stack Gas
 19.25     Wet Molecular Weight of Stack Gas
 19.26     Initial Reading of Dry Gas Meter Volume (dcf)
 19.27     Final Reading of Dry Gas Meter Volume (dcf)
      19.28     Stack Gas Velocity (fps)
      19.29     Stack Gas Flow Rate (dscfm)
      19.30     Type of Fuel
      19.31     Pollutant Mass Collected (value) 
      19.32     Pollutant Mass Unit of Measure
      19.33     Detection Limit Flag
      19.34     Pollutant Concentration
      19.35     Pollutant Concentration Units of Measure
      19.36     Pollutant Emission Rate 
      19.37     Pollutant Emission Rate Unit of Measure (in the Units of the Standard)
      19.38     Compliance Limit Basis (Heat Input or Electrical Output)
      19.39     Heat Input or Electrical Output Units of Measure 
      19.40     Process Parameter (value)
      19.41     Process Parameter Units of Measure
      19.42     Converted Concentration (for PM CEMS only)
      19.43     Converted Concentration Units (Units of Correlation for PM CEMS)





































                      
           [*]
           
           
           [*] For RM 29, report only the Run-level data elements 18.1, 19.1, 19.3-19.30, and 19.38-19.43. Report the other data elements (19.2, 19.31-19.37) in the RM 29 Lab data in Section 6.0.  

Description of Data

Report the applicable Run-level data elements in Figure 4 in a RUN-LEVEL AND LAB DATA record for each test run, if your MATS compliance strategy includes any of the following isokinetic reference method applications:

 Periodic stack testing, using Method 5, 5B, 5D, 26A, or 29 only to measure PM, HCl, HF, or HAP metals concentrations;

           Periodic stack testing, using Method 5, 5B, 5D, 26A, or 29 to measure PM, HCl, HF, or HAP metals concentrations and using data from the pollutant reference method to determine the stack gas moisture content and/or stack gas volumetric flow rate;

           Using Method 5, 5B or 5D for a relative response audit (RRA), response correlation audit (RCA), or correlation test of a PM CEMS;

        Using Method 26A for the RATA of an HCl or HF CEMS; or

        Using Method 5 or 5D to develop an operating limit for a PM CPMS.

(Note: Report the Lab data elements (19.31 through 19.37) only for Methods 5, 5B, 5D, and 26A.  Report the Lab data for Method 29 separately, as described in Section 6.0 of these Instructions).

Use the following instructions to report each data element of the RUN-LEVEL AND LAB DATA record.  Insert each data element between the opening XML tag < > and the closing XML tag </ >):
 
Source ID (Sampling Location) 
<Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION Section (element 18.1 in Section 3.0, above).

Test Number
 <TestNumber> Test Number </TestNumber>
 
The facility must assign a unique Test Number to each performance stack test or CMS performance evaluation.

For performance stack tests, this number must exactly match the Test Number in the PERFORMANCE TEST SUMMARY DATA record of the relevant quarterly MATS Compliance Report.   

For RATAs of HCl and HF monitoring systems, PM CEMS correlations, RRAs and RCAs, this number must exactly match the test number assigned to the summarized electronic test results reported to ECMPS under Appendix B or C of MATS, as applicable.

For any separate Method 2, 3A, or 4 test(s) (see footnote 1 on p.4, above) is performed to correspond with a Method 5, 5B, 5D, 26A, or 29 pollutant reference method test, follow the applicable Test Number reporting instructions in Sections 11.0 through 15.0 of this document. 

Pollutant Name
 <POLLName> Pollutant Name </POLLName>

Report the name of the pollutant measured during the Method 5, 5B, 5D, or 26A 
 test, as it appears in Table 1.

                              Table 1:  List of Pollutants 
                     Pollutant Name  
             Filterable Particulate Matter
                Hydrogen Chloride
               Hydrogen Fluoride
 Method 29 pollutants: see  Section 6 of Table 7: HAP Metals Pollutant Names
                          	    














Test Method
 <Method> Test Method </Method>

Report the isokinetic reference method from Table 2 that was used to measure the pollutant concentration.
                    Table 2: Pollutant Reference Methods 

      Reference Method
     Method 5
       Method 5B 
        Method 5D
          Method 26A
        Method 29



Run Number
 <RunNumber> Run Number </RunNumber>

A unique run number must be assigned to each test run. Run numbers are integers, beginning with "l ", which indicate the sequence order for the runs performed as part of the test.

 For a performance stack test, a minimum of three test runs are required.

     For a RATA, at least 9 valid runs are required.

 The minimum number of required runs required for the RRA, RCA, or correlation test of a PM CEMS are, respectively, 3, 12, and 15.

For performance stack tests, the run numbers reported in this field must match the run numbers in the PERFORMANCE TEST RUN DATA records of the quarterly MATS Compliance Report. For RATAs, RRAs, RCAs, and PM CEMS correlations, the run numbers reported in this field must match the run numbers in the applicable Run Data XML Model in ECMPS.

Corresponding Reference Method(s), if applicable 
 <TestMethod> Corresponding Reference Method </TestMethod>

 "Corresponding" measurements of the stack gas flow rate and/or CO2 or O2 concentration and/or stack gas moisture content must be made concurrently with each pollutant reference method test run when: 

         The stack gas flow rate (Q) and possibly the moisture content is needed to convert the pollutant concentrations measured in a performance stack test to units of an electrical output-based MATS standard (lb/MWh or lb/GWh);

         The CO2 or O2 concentration, and possibly the moisture content of the stack gas is needed to convert the pollutant concentrations measured in a performance stack test to units of a heat input-based MATS standard (lb/mmBtu or lb/TBtu);

         The CO2 and O2 concentrations of the stack gas are needed to calculate the stack gas molecular weight.

         The moisture content of the stack gas is needed for stack gas molecular weight determinations;

         The moisture content of the stack gas is needed for the RATA of a CMS when the reference method and CMS do not measure on the same moisture basis (wet or dry). 


In some cases, data from the pollutant reference method can be used to determine Q and the stack gas moisture content, instead of making separate Method 2 or Method 4 test runs. When isokinetic Method 5, 5B, 5D, 26A, or 29 is used, the stack gas moisture content can be determined using the water collected in the impingers and silica gel together with the metered dry gas volume.  The pitot tube (ΔP) readings, together with other point-level data collected during the test run and the stack cross-sectional area can be used to determine Q.  

(Note: Method 5, 5B, 5D, 26A, and 29 test runs do not include measurement of CO2 and O2 concentration; therefore, in all cases where CO2 or O2 concentration is needed, a separate Method 3A, 3B or ANSI/ASME PTC 19.10-1981 test run must be performed).

For each Method 5, 5D, 26A, or 29 performance stack test, if any separate, corresponding reference method tests using Method 2, 3A, or 4 are done concurrently for a reason (or reasons) stated in the five bulleted items above, report the corresponding reference method(s) used, from the list in Table 3.   


                                   Table 3: Corresponding Reference Methods

        Corresponding Reference Method
    To Determine
              Method 1-4
    Flow rate (Q) 
         Method 3A 
  CO2 or O2 
                             Method 1-4
  Moisture

Corresponding Reference Method Run Numbers, if applicable 
Ordinarily, the pollutant reference method test runs test runs and the test runs for any separate reference methods performed concurrently with the pollutant RM runs will be numbered identically.   For instance, if the three runs of a Method 5 stack test are numbered 1, 2, and 3, and a separate Method 3A determination is made during each Method 5 run, the Method 3A runs will generally be numbered 1, 2, and 3, for consistency.   

However, in rare cases, the run numbers assigned to the pollutant method test runs and auxiliary test runs may not match, e.g., if three Method 5 test runs are numbered 1, 2, and 3 and the corresponding Method 3A runs are numbered 4, 5, and 6. 

Report the Run number of the separate Method 2, 3A, or 4 test that corresponds to the Method 5, 5B, 5D, 26A, or 29 performance stack test run.  Use the assigned XML tag in Table 4 to report the Run number.




                     



                    Table 4: Corresponding Reference Methods and XML Tags	
        Corresponding Reference Method 
    
    XML tag
              Method 1-4 
  <FlowRateRunID>Run number</FlowRateRunID>
          Method 3A 
  <O2RunID>Run number</O2RunID>
          Method 3A 
  <CO2RunID>Run number</CO2RunID>
               Method 1-4
  <MoistureRunID>Run number</MoistureRunID>



Number of Traverse Points 
<NumPoints> Number of Traverse Points </NumPoints>

Report the number of traverse points used for the Method 5, 5B, 5D, 26A, or 29 test run. Determine the number and location of the traverse points according to the applicable procedures in EPA Method 1.

Run Begin Date 
<RunDate> Run Begin Date </RunDate>

Report the date on which the test run started (YYYY-MM-DD).

Run Start Time (Clock Start Time)
 <Clock> Run Start Time </Clock>

Report the clock time (HH:MM) at the start of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Run End Date 
<RunDate> Run End Date </RunDate>

Report the date on which the test run ended (YYYY-MM-DD).

Run End Time (Clock End Time) 
<Clock> Run End Time </Clock>

Report the clock time (HH:MM) at the end of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.




Barometric Pressure 
<PbHDR> Barometric Pressure </PbHDR>

Report the barometric pressure at the sampling location, in inches of mercury. Information obtained from weather services must be adjusted for the differences in pressure due to elevation.

Static Pressure 
<PgHDR> Static Pressure </PgHDR>

Report the static pressure of the stack gas, in inches of water.

Cumulative Elapsed Sampling Time 
<EndTime> Cumulative Elapsed Sampling Time </EndTime>

Report the total cumulative sampling time for the run, in minutes. Take the difference between the run begin and end times, and subtract out any time taken for port changes, leak checks, etc.

Percent O2 
<PercO2HDR> Percent O2 </PercO2HDR>

Report the average percent O2 in the flue gas for the run (dry basis) in this field, if Method 3B or ANSI/ASME PTC 19.10-1981 was used. 

 If O2 was determined by Method 3A, leave this field blank, and report data elements 19.5 and 19.6 of this Section and the applicable Pre-test and Run-Level data elements in Sections 11.0 and 12.0 of these Instructions.  

Percent CO2 <PercCO2HDR>Percent CO2</PercCO2HDR>
Element Name:  Percent CO2

Report the average CO2 concentration in the flue gas for the run (dry basis) in this field, if Method 3B or ANSI/ASME PTC 19.10-1981 was used.

If CO2 was determined by Method 3A, leave this field blank, and report data elements 19.5 and 19.6 of this Section and the applicable Pre-test and Run-level data elements in Sections 11.0 and 12.0 of these Instructions.  

Pitot Tube ID
 <CpIDHDR> Pitot Tube ID </CpIDHDR>

Report the pitot tube identification number.

Pitot Tube Calibration Coefficient
 <CpHDR> Pitot Tube Coefficient </CpHDR>

Report the calibration coefficient (Cp) of the Type-S pitot tube (or, if applicable, pitot assembly).

Nozzle Calibration Diameter 
<DnHDR> Nozzle Diameter </DnHDR>

Report the nozzle diameter in inches, to at least 3 decimal places.

F-Factor (Fd, Fw or Fc) 

Report the appropriate F-factor, i.e., Fd, Fw or Fc, for the fuel combusted during the testing, in units of dscf/million Btu, wscf/million Btu, or scf CO2 /million Btu, as applicable   Use the applicable XML tag from Table 5.

                                               Table 5: F-Factors and XML Tags

        F-Factor
    XML tag
        Fd
    <FdHDR>Fd Value</FdHDR>
        Fw
  <FwHDR>Fw Value</FwHDR>
        Fc 
  <FcHDR>Fc Value</FcHDR>


Calibration Coefficient of Dry Gas Meter (Y) 
<YHDR> Dry Gas Meter Coefficient </YHDR>

Report the dimensionless dry gas meter calibration coefficient ("Y") of the isokinetic sampling train meter box.

Total Volume of Liquid Collected in Impingers and Silica Gel 
<VlcHDR> volume of water </VlcHDR>

Report Vlc, the total volume of water collected in the impingers and silica gel, to the nearest milliliter. Use Equation 4-2 in Method 4 to convert the weight of water collected in the silica gel to an equivalent volume.

Percent Moisture  -  Actual
<MoisturePerc> Percent H2O </MoisturePerc>

Report the moisture content of the stack gas, in units of % H2O. Use Equation 5-3 of Method 5 to calculate Bws, the proportion by volume of H2O in the stack gas, and multiply the result by 100.

Dry Molecular Weight of Stack Gas 
<Md> Dry Molecular Weight </Md>

Report the dry molecular weight of the stack gas for the run, calculated according to Equation 3-1 of Method 3.

Wet Molecular Weight of Stack Gas
<Ms> Wet Molecular Weight </Ms>

Report the wet molecular weight of the stack gas for the run. Substitute Bws (from Equation 5.3 of Method 5) into Equation 2-6 of Method 2.

Initial Reading of Dry Gas Meter Volume 
<InitDGM> Dry Gas Meter Initial Volume <InitDGM>

Report the dry gas meter volume reading (dcf) at the start of the run.

Final Reading of Dry Gas Meter Volume 
<FinalDGM> Dry Gas Meter Final Volume </FinalDGM>

Report the dry gas meter volume reading (dcf) at the end of the run.

Stack Gas Velocity
 <Vs> Stack Gas Velocity </Vs>

Report vs, the average stack gas velocity for the test run, in ft/sec. Use Equation 2-7 in Method 2 to determine the velocity, which is needed for the isokinetic calculation.

Stack Gas Flow Rate 
<Qsd> Stack Gas Flow Rate </Qsd>

Leave this field blank if the test run is part of a CMS performance evaluation (i.e., RATA, RRA, RCA, or PM CEMS correlation), or if you have performed a separate Method 2 test run concurrently with the Method 5, 5D, 26A, or 29 performance stack test run.  If you performed a separate Method 2 test run, report data elements 19.5 and 19.6 of this Section and the applicable Run-Level  and Point-Level data elements in Sections 13.0, 14.0 and 15.0 of these Instructions.  

Otherwise, if you conduct periodic performance stack tests to comply with an electrical output-based emissions limit for PM, HCl, or HAP metals, and if you use the data from the Method 5, 5D, 26A, or 29 reference method test run to determine the stack gas flow rate, report the stack gas flow rate in units of dry standard cubic feet per minute (dscfm).

Type of Fuel 
<FuelType> Type of Fuel </ FuelType >

Refer to Table A-2 in the Appendix to these Instructions. Report each type of fuel that was combusted in the EGU (or group of EGUs sharing a common stack) during the test.  If a particular fuel type is not shown in the Table, report it here.  If you select "Other Oil" or "Other Gas", identify the fuel in the Test Comment field in Section 2.0 of these Instructions.

Pollutant Mass Collected (value) 
<Mass> Pollutant Mass Collected </Mass>

For performance stack tests using Method 5, 5D, or 26A, and for RRAs, RCAs, and correlation tests of PM CEMS using Method 5, 5B, or 5D, report the total pollutant mass collected during the run, in the units of measure specified immediately below.  

For Method 29 performance stack tests,  report all of the lab data as described in Section 6.0 of these Instructions.

Pollutant Mass Units of Measure 
<Units> Pollutant Mass Unit of Measure </Units>

For Methods 5, 5B and 5D, report the pollutant mass in milligrams, using code "mg". For Method 26A, report the mass in micrograms, using code "ug".  

For Method 29 stack tests, see Section 6.0 of these Instructions.

Detection Limit Flag 
<Flag> Detection Limit Flag </Flag>

Consistent with EPA guidance, report "BDL" if the measured pollutant mass for the run is below detection level; otherwise, leave this field blank. 
 
For Method 29 stack tests, see Section 6.0 of these Instructions.

Pollutant Concentration
 <EmissionValue> Pollutant Concentration </EmissionValue>

Report the pollutant concentration in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

For Method 29 stack tests, see Section 6.0 of these Instructions.

Pollutant Concentration Units of Measure 
<EmissionUnit> Pollutant Units of Measure </EmissionUnit>

Report pollutant concentrations for Method 26A performance stack tests in units of milligrams per dry standard cubic meter, using the code "MGDSCM".  

Report PM concentrations measured with Method 5, 5B, or 5D in units of grams per dry standard cubic meter, using the code "GDSCM".

For RATAs of HCl or HF CEMS, report the pollutant concentration in units of parts per million by volume, using the code "PPMV".  Use a conversion factor of 0.662 ppm/(mg/dscm) to convert the Method 26A results from mg/dscm to ppmv.

For Method 29 stack tests, see Section 6.0 of these Instructions.

Pollutant Emission Rate 
<EF> Pollutant Emission Rate </EF>

For performance stack tests conducted using Method 5, 5D, or 26A, report the pollutant emission rate in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the rate in the units of measure specified immediately below.

Leave this field blank for RATAs of HCl or HF CEMS, and for RRAs, RCAs, and correlation tests of PM CEMS. For Method 29 stack tests, see Section 6.0 of these Instructions.

Emission Rate Units of Measure 
<EmissionUnit> Emission Rate Units of Measure </EmissionUnit>

Report the pollutant emission rate in the units measure of the applicable MATS standard, consistent with your compliance strategy.  

Choose from among the following: lb/GWh, lb/MWh, lb/TBTU, or lb/mmBTU.

Leave this field blank for RATAs of HCl or HF CEMS, and for RRAs, RCAs, and correlation tests of PM CEMS. For Method 29 stack tests, see Section 6.0 of these Instructions.

Compliance Limit Basis (Heat Input or Electrical Output)
 <MATERIAL> Heat </MATERIAL>; 
<ACTION> Input </ACTION>; 

      or 

<MATERIAL> Electrical </MATERIAL>
<ACTION> Output </ACTION>

For Method 5, 5D, 26A, or 29 performance stack tests that are conducted to comply with a MATS emission limit, report the compliance strategy that has been selected, i.e., the basis of the standard that you must meet.  Report either "Heat Input" or "Electrical Output", as applicable, as shown above.

Leave this field blank for RATAs, RRAs, RCAs, and PM CEMS correlations. 

Heat Input or Electrical Output Units of Measure 
<MEASURE> Units of measure </MEASURE>

For Method 5, 5D, 26A, or 29 performance stack tests that are conducted to comply with a heat input-based MATS emission limit, report the units of measure of the heat input as either "mmBtu" (for Method 5, 5D, or 26A) or "TBtu" (for Method 29).   

For Method 5, 5D, 26A, or 29 performance stack tests that are conducted to comply with an electrical output-based MATS emission limit, report the units of measure of the electrical output as either "MWh" (for Method 5, 5D, or 26A) or "GWh" (for Method 29).   

Leave this field blank for RATAs, RRAs, RCAs, and PM CEMS correlations.   

Process Parameter 
<Process_Parameter_Value>Rate value</Process_Parameter_Value>

For Method 5, 5D, 26A, or 29 performance stack tests that are conducted to comply with a heat input-based MATS emission limit, report the average heat input rate during the test, in the units of measure specified immediately below.

For Method 5, 5D, 26A, or 29 performance stack tests that are conducted to comply with an electrical output-based MATS emission limit, report the average electrical load during the test, in the units of measure specified immediately below.

For RATAs, RRAs, RCAs, and PM CEMS correlations, report the average electrical load during the test, in the units of measure specified immediately below.

Process Parameter Units of Measure 
<Process_Parameter_Rate> Units of measure </Process_Parameter_Rate>

Report the process parameter units of measure as follows:  

If the process parameter is the average heat input rate, report "mmBtu/h" (for Method 5, 5D, or 26A stack tests) or "TBtu/h" (for Method 29 stack tests).  

If the process parameter is the average electrical load, report "MW" for Method 5, 5D, and 26A stack tests, and for RRAs, RCAs, and PM CEMS correlations, and report "GW" for Method 29 stack tests.    

Converted Concentration (for PM CEMS, only)
<EmissionValue> Converted Emission </EmissionValue>

If Method 5, 5B, or 5D test runs are associated with a RRA, RCA, or correlation test of a PM CEMS, in addition to reporting the PM concentration in units of grams per dry standard cubic meter (g/dscm), you must convert the concentration to measurement conditions consistent with your PM CEMS. Report the converted concentration in this field, in scientific notation with one leading non-zero integer and two decimal places.   

Converted Concentration Units of Measure 
<EmissionUnit> Converted Unit of Measure </EmissionUnit>

Report the appropriate units of measure code from Table 6 for the converted PM concentration.
                 
               
                       Table 6: Converted PM Concentration Units

                                     Code
                               Units of Measure
                                     MGACM
Milligrams per actual cubic meter
                                    MGACM@T
Milligrams per actual cubic meter at 160 °C
                                    MGDSCM
Milligrams per dry standard cubic meter
                                    MGWSCM
Milligrams per wet standard cubic meter


 POINT-LEVEL DATA (RM 5, 5B, 5D, 26A, 29)
                                       
                                       
                             Figure 5
                        POINT-LEVEL DATA XML Elements 
                          (RM 5, 5D, 26A, 29)
 
 
 
 
 
 
 
 
 
 
 
 
 
 
      Source ID (Sampling Location) --- data element 18.1
 
 
 
      Test Method--- data element 19.3
      Run Number--- data element 19.4
Run Begin Date--- data element 19.8 
 
 
 
      20.1      Traverse Point ID
      20.2      Stack Temperature
      20.3      Differential Pressure Reading (ΔP)
      20.4      Orifice Pressure Reading (ΔH)
      20.5      Dry Gas Meter Inlet Temperature
      20.6      Dry Gas Meter Outlet Temperature
      20.7      Filter Temperature
    
 
 
 
 
 
 
 
 
 
 
 
 
 
 
      Source ID (Sampling Location) --- data element 18.1
 
 
 
      Test Method--- data element 19.3
      Run Number--- data element 19.4
Run Begin Date--- data element 19.8 
 
 
 
      20.1      Traverse Point ID
      20.2      Stack Temperature
      20.3      Differential Pressure Reading (ΔP)
      20.4      Orifice Pressure Reading (ΔH)
      20.5      Dry Gas Meter Inlet Temperature
      20.6      Dry Gas Meter Outlet Temperature
      20.7      Filter Temperature
    

Description of Data

For each run of a performance test or QA test conducted using isokinetic Method 5, 5B, 5D, 26A, or 29, the POINT-LEVEL DATA record provides key temperature data and differential pressure measurements at each traverse point.

Report POINT-LEVEL DATA records:

 For each run of each performance stack test conducted using Method 5, 5D, 26A, or 29;

 For each run of each PM CEMS correlation test, RRA, or RCA using Method 5, 5B, or 5D; and

     For each run of each HCl or HF monitoring system RATA using Method 26A.
          
Use the following instructions to report each data element of the POINT-LEVEL DATA record.   Insert each data element between the opening XML tag < > and the closing XML tag </ >):

Source ID (Location)
 <Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA Section (data element 18.1 in Section 3.0, above). 



Test Method 
<Method> Test Method </Method>

The Test Method reported in this field must exactly match the Test Method reported in the corresponding RUN AND LAB DATA record (data element 19.3 in section 4.0, above).
.
Run Number 
<RunNumber> Run Number </RunNumber>

The Run Number reported in this field must exactly match the Run Number reported in the corresponding RUN AND LAB DATA record (data element 19.4 in section 4.0, above).

Run Begin Date 
<RunDate> Run Begin Date </RunDate>

The Run Begin Date (YYYY-MM-DD) reported in this field must exactly match the Run Begin Date reported in the corresponding RUN AND LAB DATA record (data element 19.8 in section 4.0, above).

Traverse Point ID
 <Point> Traverse Point ID </Point>

Report the ID of the Method 1 traverse point (e.g.  "Al").

Stack Temperature
 <StackTemp> Flue Gas Temperature </StackTemp>

Report the measured temperature of the stack gas at the traverse point, in Fahrenheit(°F).

Differential Pressure Reading (ΔP)
 <Velocity> Differential Pressure Reading </Velocity>	

Report the differential pressure (ΔP) measured at the traverse point, in inches of water.

Orifice Pressure Drop (ΔH)
 <OrificePresActual> Orifice Pressure Drop </OrificePresActual>

Report the orifice pressure drop (ΔH) recorded while sampling at the traverse point, in inches of water.

Dry Gas Meter Inlet Temperature 
<DryGasInlet> Dry Gas Meter lnlet Temperature </DryGasInlet>

Report the dry gas meter inlet gas temperature recorded while sampling at the traverse point, in Fahrenheit (°F).

Dry Gas Meter Outlet Temperature
 <DryGasOutlet> Dry Gas Meter Outlet Temperature </DryGasOutlet>
Report the dry gas meter outlet gas temperature recorded while sampling at the traverse point, in Fahrenheit (°F).

Filter Temperature 
<FilTempOut> Filter Temperature </FilTempOut>

Report the filter temperature recorded while sampling at the traverse point, in Fahrenheit (°F).


      LAB DATA FOR METHOD 29  
                                       
                                      Figure 6
                        Lab Data for Method 29 XML Data Elements 
Source ID (Sampling Location) --- data element 18.1
 
 
 
Test Method--- data element 19.3
Run Number--- data element 19.4 
Run Begin Date--- data element 19.8 
 
 
 
      21.1.1   Pollutant Name (each individual HAP metal)
      21.1.2   Pollutant Mass Collected (total mass, each metal) 
      21.1.3   Pollutant Mass Units of Measure
      21.1.4	Detection Limit Flag
      21.2.1 	Pollutant Name (each HAP metal, front half)
      21.2.2	Pollutant Mass Collected (each HAP metal, front half)
      21.2.3	Pollutant Mass Units of Measure
      21.2.4	Detection Limit Flag
      21.3.1 	Pollutant Name (each HAP metal, back half)
      21.3.2	Pollutant Mass Collected (each HAP metal, back half)
      21.3.3	Pollutant Mass Units of Measure
      21.3.4	Detection Limit Flag
      21.4.1	Pollutant Name (each individual HAP metal)
      21.4.2 	Pollutant Concentration (each HAP metal)
      21.4.3	Pollutant Concentration Units of Measure
      21.5.1	Pollutant Name (each individual HAP metal)
      21.5.2   Pollutant Emission Rate (each HAP metal) 
            21.5.3    Pollutant Emission Rate Units of Measure 
            (units of the standard)
      21.6.1	Pollutant Name (each individual HAP metal)
      21.6.2    Pollutant Emission Rate (each HAP metal) 
            21.6.3    Pollutant Emission Rate Units of Measure      
            (per Subpart UUUUU, Table 5)
      21.7.1 	Pollutant Name (total filterable HAP metals)
      21.7.2	Pollutant Mass Collected (total filterable HAP metals)
      21.7.3	Pollutant Mass Units of Measure		
      21.7.4  	Detection Limit Flag
      
Source ID (Sampling Location) --- data element 18.1
 
 
 
Test Method--- data element 19.3
Run Number--- data element 19.4 
Run Begin Date--- data element 19.8 
 
 
 
      21.1.1   Pollutant Name (each individual HAP metal)
      21.1.2   Pollutant Mass Collected (total mass, each metal) 
      21.1.3   Pollutant Mass Units of Measure
      21.1.4	Detection Limit Flag
      21.2.1 	Pollutant Name (each HAP metal, front half)
      21.2.2	Pollutant Mass Collected (each HAP metal, front half)
      21.2.3	Pollutant Mass Units of Measure
      21.2.4	Detection Limit Flag
      21.3.1 	Pollutant Name (each HAP metal, back half)
      21.3.2	Pollutant Mass Collected (each HAP metal, back half)
      21.3.3	Pollutant Mass Units of Measure
      21.3.4	Detection Limit Flag
      21.4.1	Pollutant Name (each individual HAP metal)
      21.4.2 	Pollutant Concentration (each HAP metal)
      21.4.3	Pollutant Concentration Units of Measure
      21.5.1	Pollutant Name (each individual HAP metal)
      21.5.2   Pollutant Emission Rate (each HAP metal) 
            21.5.3    Pollutant Emission Rate Units of Measure 
            (units of the standard)
      21.6.1	Pollutant Name (each individual HAP metal)
      21.6.2    Pollutant Emission Rate (each HAP metal) 
            21.6.3    Pollutant Emission Rate Units of Measure      
            (per Subpart UUUUU, Table 5)
      21.7.1 	Pollutant Name (total filterable HAP metals)
      21.7.2	Pollutant Mass Collected (total filterable HAP metals)
      21.7.3	Pollutant Mass Units of Measure		
      21.7.4  	Detection Limit Flag
      
          
                                       
					                 Figure 6 
                            Lab Data for Method 29 XML Data Elements 
                                       (cont'd)
                 21.8.1	Pollutant Name (total filterable HAP metals)
      21.8.2 	Pollutant Concentration (total filterable HAP metals)
      21.8.3	Pollutant Concentration Units of Measure
      21.9.1	Pollutant Name (total filterable HAP metals)
      21.9.2    Pollutant Emission Rate (total filterable HAP metals) 
            21.9.3    Pollutant Emission Rate Units of Measure      
            (per Subpart UUUUU, Table 5)
      21.10.1    Pollutant Name (total HAP metals)
      21.10.2    Pollutant Mass Collected (total mass, HAP metals) 
      21.10.3   Pollutant Mass Unit of Measure
      21.10.4	Detection Limit Flag
      21.11.1	Pollutant Name (total HAP metals)
      21.11.2 	Pollutant Concentration (total HAP metals)
      21.11.3	Pollutant Concentration Units of Measure
      21.12.1	Pollutant Name (total HAP metals)
      21.12.2    Pollutant Emission Rate (total HAP metals) 
            21.12.3    Pollutant Emission Rate Units of Measure 
            (units of the standard)
      21.13.1	Pollutant Name (total HAP metals)
      21.13.2    Pollutant Emission Rate (total HAP metals) 
            21.13.3   Pollutant Emission Rate Units of Measure      
            (per Subpart UUUUU, Table 5)

      
      
	
      21.8.1	Pollutant Name (total filterable HAP metals)
      21.8.2 	Pollutant Concentration (total filterable HAP metals)
      21.8.3	Pollutant Concentration Units of Measure
      21.9.1	Pollutant Name (total filterable HAP metals)
      21.9.2    Pollutant Emission Rate (total filterable HAP metals) 
            21.9.3    Pollutant Emission Rate Units of Measure      
            (per Subpart UUUUU, Table 5)
      21.10.1    Pollutant Name (total HAP metals)
      21.10.2    Pollutant Mass Collected (total mass, HAP metals) 
      21.10.3   Pollutant Mass Unit of Measure
      21.10.4	Detection Limit Flag
      21.11.1	Pollutant Name (total HAP metals)
      21.11.2 	Pollutant Concentration (total HAP metals)
      21.11.3	Pollutant Concentration Units of Measure
      21.12.1	Pollutant Name (total HAP metals)
      21.12.2    Pollutant Emission Rate (total HAP metals) 
            21.12.3    Pollutant Emission Rate Units of Measure 
            (units of the standard)
      21.13.1	Pollutant Name (total HAP metals)
      21.13.2    Pollutant Emission Rate (total HAP metals) 
            21.13.3   Pollutant Emission Rate Units of Measure      
            (per Subpart UUUUU, Table 5)

      
      
	
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
Description of Data

If you elect to perform quarterly performance stack tests using Method 29, you must report all of the Lab data (i.e., mass, concentrations, and emission rates) for the individual HAP metals and for total HAP metals, as described in this Section.  For each individual HAP metal, you must report the front half catch and the back half catches separately.  In addition, you must report concentrations and emission rates for the HAP metals in accordance with Table 5 of Subpart UUUUU.  
          
Use the following instructions to report each data element of the LAB DATA FOR METHOD 29 record.  Insert each data element between the opening XML tag < > and the closing XML tag </ >):


Source ID (Location) 
<Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA Section (data element 18.1 in Section 3.0, above). 

Test Method
 <Method> Test Method </Method>

Report "Method 29" in this field.

Run Number 
<RunNumber> Run Number </RunNumber>

The Method 29 Run Number reported in this field must exactly match the Run Number reported in the corresponding RUN AND LAB DATA record (data element 19.4 in section 4.0, above).

Run Begin Date 
<RunDate> Run Begin Date </RunDate>

The Method 29 Run Begin Date (YYYY-MM-DD) reported in this field must exactly match the Run Begin Date reported in the corresponding RUN AND LAB DATA record (data element 19.8 in section 4.0, above).

***Report the information in the next 21 data elements for each individual HAP metal.  For coal-fired EGUs, exclude Hg.  For oil-fired EGUs, include Hg.

Pollutant Name (each individual HAP metal)
<POLLName> Pollutant Name (each HAP metal) </POLLName>

Refer to the list of HAP metals in Table 7.  Report the name of the individual HAP metal measured during the test (e.g., "Antimony").  

Pollutant Mass Collected (total mass, each metal) 
<Mass> Pollutant Mass Collected </Mass>

Report the total mass of the HAP metal collected during the run, in the units of measure specified immediately below.  

Pollutant Mass Units of Measure 
<Units> Pollutant Mass Unit of Measure </Units>

Report the units of measure for total mass of the HAP metal as micrograms, using code "ug".

Detection Limit Flag 
<Flag> Detection Limit Flag </Flag>

Consistent with EPA guidance, report "BDL" if the measured pollutant mass for the run was below the detection level.  Otherwise, leave this field blank.

			      Table 7: HAP Metals Pollutant Names

                                Pollutant Name
                                   Antimony
                                    Arsenic
                                   Beryllium
                                    Cadmium
                                   Chromium
                                    Cobalt
                                     Lead
                                   Manganese
                                    Mercury
                                    Nickel
                                   Selenium
Antimony, Front Half
Antimony, Back Half
Arsenic, Front Half
Arsenic, Back Half
Beryllium, Front Half
Beryllium, Back Half
Cadmium, Front Half
Cadmium, Back Half
Chromium, Front Half
Chromium, Back Half
Cobalt, Front Half
Cobalt, Back Half
Lead, Front Half
Lead, Back Half
Manganese, Front Half
Manganese, Back Half
Mercury, Front Half
Mercury, Back Half
Nickel, Front Half
Nickel, Back Half
Selenium, Front Half
Selenium, Back Half
                            Total non-Hg HAP Metals
                        Total HAP Metals, Including Hg
                          Total Filterable HAP Metals











































Pollutant Name (each HAP metal, front half)
<POLLName> Pollutant Name (each metal, front half) </POLLName>

Refer to the list of HAP metals in Table 7.  Report the name of the HAP metal, front half (e.g., "Antimony, front half").  

Pollutant Mass Collected (each HAP metal, front half) 
<Mass> Pollutant Mass, each metal, front half </Mass>

Report the mass of the HAP metal collected in the front half of the Method 29 train during the run, in the units of measure specified immediately below.  

Pollutant Mass Units of Measure 
<Units> Pollutant Mass Unit of Measure </Units>

Report the mass of the front half HAP metal catch, in micrograms, using code "ug".

Detection Limit Flag 
<Flag> Detection Limit Flag </Flag>

Consistent with EPA guidance, report "BDL" if the measured front half pollutant mass for the run was below the detection level.  Otherwise, leave this field blank.

Pollutant Name (each HAP metal, back half)
<POLLName> Pollutant Name (each metal, back half) </POLLName>

Refer to the list of HAP metals in Table 7.  Report the name of the HAP metal, back half (e.g., "Antimony, back half").  

Pollutant Mass Collected (each HAP metal, back half) 
<Mass> Pollutant Mass, each metal, back half </Mass>

Report the mass of the HAP metal collected in the back half of the Method 29 train during the run, in the units of measure specified immediately below.  

Pollutant Mass Units of Measure 
<Units> Pollutant Mass Unit of Measure </Units>

Report the mass of the back half HAP metal catch, in micrograms, using code "ug".

Detection Limit Flag 
<Flag> Detection Limit Flag </Flag>

Consistent with EPA guidance, report "BDL" if the measured back half pollutant mass for the run was below the detection level.  Otherwise, leave this field blank.



Pollutant Name (each individual HAP metal)
<POLLName> Pollutant Name (each HAP metal) </POLLName>

Report the name of the individual HAP metal measured during the test, from Table 7 (e.g., "Antimony").  

Pollutant Concentration (each HAP metal)
<EmissionValue> Pollutant Concentration </EmissionValue>

Report the HAP metal concentration in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Pollutant Concentration Units of Measure 
<EmissionUnit> Pollutant Units of Measure </EmissionUnit>

Report the HAP metal concentration in units of micrograms per dry standard cubic meter, using the code "ug/dscm".

Pollutant Name (each individual HAP metal)
<POLLName> Pollutant Name (each HAP metal) </POLLName>

If you have elected to comply with the individual HAP metals standards, report the name of the individual HAP metal measured during the test from Table 7 (e.g., "Antimony").  

Leave this field blank if you have elected to comply with the total HAP metals standard.

Pollutant Emission Rate (each HAP metal) 
<EF> Emission Rate, each HAP metal </EF>

Report the pollutant emission rate for the HAP metal in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Leave this field blank if you have elected to comply with the total HAP metals standard.

Pollutant Emission Rate Units of Measure (units of the standard)
 <EmissionUnit> Units of Measure </EmissionUnit>

Report the units of measure of the applicable HAP metal standard, consistent with your compliance strategy, i.e., lb/GWh, or lb/TBTU.
Leave this field blank if you have elected to comply with the total HAP metals standard.

Pollutant Name (each individual HAP metal)
<POLLName> Pollutant Name (each HAP metal) </POLLName>

Report the name of the individual HAP metal measured during the test, from Table 7 (e.g., "Antimony").  

Pollutant Emission Rate (each HAP metal) 
<EF> Emission Rate, each HAP metal </EF>

Report the pollutant emission rate for the HAP metal in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Pollutant Emission Rate Units of Measure (per Subpart UUUUU, Table 5)
 <EmissionUnit> Units of Measure </EmissionUnit>

In accordance with Table 5 of Subpart UUUUU, report the units of measure as follows:  

 Report lb/mmBtu if you have chosen to comply with heat input-based MATS limits for the HAP metals.  
   
 Report lb/MWh if you have chosen to comply with electrical output-based MATS limits for the HAP metals.
      

    ***Report the information in the next 10 data elements for total filterable HAP metals.


Pollutant Name (total filterable HAP metals)
<POLLName> Total Filterable HAP Metals </POLLName>

Report "Total Filterable HAP Metals" as the pollutant name.

Pollutant Mass Collected (total filterable HAP metals) 
<Mass> Pollutant Mass Collected </Mass>

Report the total mass of filterable HAP metals collected during the run, in the units of measure specified immediately below.  

Pollutant Mass Units of Measure 
<Units> Pollutant Mass Unit of Measure </Units>

Report the units of measure for total filterable HAP metals as micrograms, using code "ug".

Detection Limit Flag 
<Flag> Detection Limit Flag </Flag>

Consistent with EPA guidance, report "BDL" if the total filterable HAP metals mass for the run was below the detection level.  Otherwise, leave this field blank.


Pollutant Name (total filterable HAP metals)
<POLLName> Total Filterable HAP Metals) </POLLName>

Report "Total Filterable HAP Metals" as the pollutant name.

Pollutant Concentration (total filterable HAP metals)
<EmissionValue> Pollutant Concentration </EmissionValue>

Report the total filterable HAP metals concentration in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Pollutant Concentration Units of Measure 
<EmissionUnit> Pollutant Units of Measure </EmissionUnit>

Report the total filterable HAP metals concentration in units of micrograms per dry standard cubic meter, using the code "ug/dcscm".

Pollutant Name (total filterable HAP metals)
<POLLName> Total Filterable HAP Metals </POLLName>

Report "Total Filterable HAP Metals" as the pollutant name.

Pollutant Emission Rate (total filterable HAP metals) 
<EF> Emission Rate, Total Filterable HAP metals </EF>

Report the pollutant emission rate for total filterable HAP metals in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Pollutant Emission Rate Units of Measure (per Subpart UUUUU, Table 5)
 <EmissionUnit> Units of Measure </EmissionUnit>

In accordance with Table 5 of Subpart UUUUU, report the units of measure as follows:

 Report lb/mmBtu if you have chosen to comply with heat input-based MATS limits for individual or total HAP metals.  

 Report lb/MWh if you have chosen to comply with electrical output-based MATS limits for individual or total HAP metals.


***Report the next 13 data elements for total HAP metals.

Pollutant Name (total HAP metals)
<POLLName> Pollutant Name (total HAP metals) </POLLName>

From Table 7, report either "Total non-Hg HAP Metals" (for coal-fired EGUs) or "Total HAP Metals, Including Hg" (for oil-fired EGUs)..  

Pollutant Mass Collected (total HAP metals) 
<Mass> Pollutant Mass Collected </Mass>

Report the total mass of the HAP metals collected during the run, in the units of measure specified immediately below.  

Pollutant Mass Units of Measure 
<Units> Pollutant Mass Unit of Measure </Units>

Report the units of measure for total HAP metals mass as micrograms, using the code "UG".

Detection Limit Flag 
<Flag> Detection Limit Flag </Flag>

Consistent with EPA guidance, report "BDL" if the total filterable HAP metals mass for the run was below the detection level.  Otherwise, leave this field blank.

Pollutant Name (total HAP metals)
<POLLName> Pollutant Name (total HAP metals) </POLLName> 

Report either "Total non-Hg HAP Metals" (for coal-fired EGUs) or "Total HAP Metals, Including Hg" (for oil-fired EGUs).  

Pollutant Concentration (total HAP metals)
<EmissionValue> Pollutant Concentration </EmissionValue>

Report the total HAP metals concentration in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Pollutant Concentration Units of Measure 
<EmissionUnit> Pollutant Units of Measure </EmissionUnit>

Report the total HAP metals concentration in units of micrograms per dry standard cubic meter, using the code "ug/dscm".

Pollutant Name (total HAP metals)
<POLLName> Pollutant Name (total HAP metals) </POLLName> 

If you have elected to comply with the total HAP metals standard, report either "Total non-Hg HAP Metals" (for coal-fired EGUs) or "Total HAP Metals, Including Hg" (for oil-fired EGUs).  

Leave this field blank if you have elected to comply with the individual HAP metals standards.


Pollutant Emission Rate (total HAP metals) 
<EF> Emission Rate, total HAP metals </EF>

Report the pollutant emission rate for total HAP metals in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Leave this field blank if you have elected to comply with the individual HAP metals standards.

Pollutant Emission Rate Units of Measure (units of the standard)
 <EmissionUnit> Units of Measure </EmissionUnit>

Report the units of measure of the applicable total HAP metals standard, i.e., lb/GWh or lb/TBTU.

Leave this field blank if you have elected to comply with the individual HAP metals standards.

Pollutant Name (total HAP metals)
<POLLName> Pollutant Name (total HAP metals) </POLLName>

Report either "Total non-Hg HAP Metals" (for coal-fired EGUs) or "Total HAP Metals, Including Hg" (for oil-fired EGUs).  

Pollutant Emission Rate (total HAP metals) 
<EF> Emission Rate, each HAP metal </EF>

Report the pollutant emission rate for total HAP metals in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Pollutant Emission Rate Units of Measure (per Subpart UUUUU, Table 5)
 <EmissionUnit> Units of Measure </EmissionUnit>

In accordance with Table 5 of Subpart UUUUU, report the units of measure as follows:  

 Report lb/mmBtu if you have chosen to comply with a heat input-based MATS limit(s) for HAP metals.  

 Report lb/MWh if you have chosen to comply with an electrical output-based MATS limit(s) for HAP metals.




7.0	RUN-LEVEL DATA XML MODEL
              (RM 26)
                    
                                   Figure 7
                          RUN-LEVEL DATA XML Elements
                                    (RM26)
                            Source ID (Sampling Location)--- data element 18.1 
 
 
         22.1     Test Number
             22.2     Pollutant Name
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
         22.3     Test Method
             22.4     Run Number
             22.5     Corresponding Reference Method(s)
             22.6     Corresponding Reference Method(s) Run Number
             22.7     Number of Traverse Points
             22.8     Run Begin Date 
             22.9     Run Start Time (Clock Time Start)
             22.10   Run End Date 
             22.11   Run End Time (Clock Time End)
             22.12   Barometric Pressure
             22.13   Cumulative Elapsed Sampling Time
             22.14   Calibration Coefficient of Dry Gas Meter (Y)
             22.15    Initial Reading of Dry Gas Meter Volume (dcf)
             22.16    Final Reading of Dry Gas Meter Volume (dcf)
       22.17    Percent O2
             22.18    Percent CO2
       22.19    Type of Fuel
       22.20    F-Factor (Fd, Fw, or Fc)
       22.21    Pollutant Mass Collected (value)
       22.22    Pollutant Mass Unit of Measure
       22.23    Detection Limit Flag
       22.24    Pollutant Concentration
       22,25    Pollutant Concentration Unit of Measure
       22.26    Compliance Limit Basis (Heat Input or Electrical Output)
       22.27    Heat Input or Electrical Output Unit of Measure
       22.28    Process Parameter (value) 
       22.29    Process Parameter Unit of Measure
       22.30    Pollutant Emission Rate
       22.31    Pollutant Emission Rate Unit of Measure
                  (units of the standard)
Source ID (Sampling Location)--- data element 18.1 
 
 
         22.1     Test Number
             22.2     Pollutant Name
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
         22.3     Test Method
             22.4     Run Number
             22.5     Corresponding Reference Method(s)
             22.6     Corresponding Reference Method(s) Run Number
             22.7     Number of Traverse Points
             22.8     Run Begin Date 
             22.9     Run Start Time (Clock Time Start)
             22.10   Run End Date 
             22.11   Run End Time (Clock Time End)
             22.12   Barometric Pressure
             22.13   Cumulative Elapsed Sampling Time
             22.14   Calibration Coefficient of Dry Gas Meter (Y)
             22.15    Initial Reading of Dry Gas Meter Volume (dcf)
             22.16    Final Reading of Dry Gas Meter Volume (dcf)
       22.17    Percent O2
             22.18    Percent CO2
       22.19    Type of Fuel
       22.20    F-Factor (Fd, Fw, or Fc)
       22.21    Pollutant Mass Collected (value)
       22.22    Pollutant Mass Unit of Measure
       22.23    Detection Limit Flag
       22.24    Pollutant Concentration
       22,25    Pollutant Concentration Unit of Measure
       22.26    Compliance Limit Basis (Heat Input or Electrical Output)
       22.27    Heat Input or Electrical Output Unit of Measure
       22.28    Process Parameter (value) 
       22.29    Process Parameter Unit of Measure
       22.30    Pollutant Emission Rate
       22.31    Pollutant Emission Rate Unit of Measure
                  (units of the standard)
                            

























Description of Data

If you use non-isokinetic Method 26, either to perform periodic HCl and/or HF performance stack tests, or to perform RATAs of HCl and/or HF CEMS, report a RUN-LEVEL DATA record containing the information in Figure 7 for each test run.


Use the following instructions for completing each element of the RUN-LEVEL DATA record.   Insert each data element between the opening XML tag < > and the closing XML tag </ >):

Source ID (Location)
 <Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA Section (data element in Section 3.0, above). 

Test Number
 <TestNumber> Test Number </TestNumber>

The facility must assign a unique Test Number to each performance stack test or CMS performance evaluation in which Method 26 is used.

For performance stack tests, this number must exactly match the Test Number in the PERFORMANCE TEST SUMMARY DATA record of the relevant quarterly MATS Compliance Report.   

For RATAs of HCl and HF monitoring systems, this number must exactly match the test number assigned to the summarized electronic test results reported to ECMPS under Appendix B of MATS.

If a separate Method 2, 3A, or 4 test (see footnote 1 on p.4, above) is performed to correspond with a Method 26 pollutant reference method test, follow the applicable instructions for reporting Test Numbers in Sections 11.0 through 15.0 of this document.

Pollutant Name
 <POLLName> Pollutant Name </POLLName>

From Table 1, above, report "Hydrogen Chloride" or "Hydrogen Fluoride", as applicable.

Test Method
 <Method> Test Method </Method>

From Table 2, above, report "Method 26".

Run Number
 <RunNumber> Run Numbe r</RunNumber>

A unique run number must be assigned to each test run. Run numbers are integers, beginning with "l ", which indicate the sequence order for the runs performed as part of the test.


 For a performance stack test, a minimum of three test runs are required.

     For a RATA, at least 9 valid runs are required.

For performance stack tests, the run numbers reported in this field must match the run numbers in the PERFORMANCE TEST RUN DATA records of the quarterly MATS Compliance Report.  For RATAs, the run numbers reported in this field must match the run numbers in the applicable Run Data XML Model in ECMPS.

Corresponding Reference Method 
<TestMethod> Corresponding Reference Method </TestMethod>

"Corresponding" measurements of the stack gas flow rate (Method 1-4) and/or CO2 or O2 concentration (Method 3A) and/or stack gas moisture content (Method 1-4) must be made concurrently with each Method 26 test run when:

         The stack gas flow rate (Q) and possibly the moisture content is needed to convert the pollutant concentrations measured by Method 26 in a performance stack test to units of an output-based MATS standard (lb/MWh);

         The CO2 or O2 concentration, and possibly the moisture content of the stack gas is needed to convert the pollutant concentrations measured by Method 26 in a performance stack test to units of a heat input-based MATS standard (lb/mmBtu ); or

         The moisture content of the stack gas is needed for the RATA of a HCl or HF CEMS when the reference method and CEMS do not measure on the same moisture basis (wet or dry). 

For each performance stack test or RATA conducted using Method 26, if any separate, corresponding reference method tests using Method 2, 3A, or 4 are done concurrently for any of the three reasons cited above, report the corresponding reference method(s) used, from the list in Table 3, above.    

Corresponding Reference Method Run Number 
Ordinarily, the pollutant reference method test runs test runs and the test runs for any corresponding reference methods performed concurrently with the pollutant RM runs will be numbered identically.   For instance, if the three runs of a Method 26 stack test are numbered 1, 2, and 3, and a separate Method 3A determination is made during each Method 26 run, the Method 3A runs will generally be numbered 1, 2, and 3, for consistency.   

However, in rare cases, the run numbers assigned to the pollutant method test runs and auxiliary test runs may not match, e.g., if three Method 5 test runs are numbered 1, 2, and 3 and the corresponding Method 3A runs are numbered 4, 5, and 6. 

Report the Run Number of the separate Method 2, 3A, or 4 test that corresponds to the Method 26 performance stack test run or RATA run (as applicable).  Use the assigned XML tag in Table 4, above, to report the Run Number.

Number of Traverse Points
 <NumPoints> Number of Traverse Points </NumPoints>

Report the number of traverse points used for the test run.

Run Begin Date
 <RunDate> Run Begin Date </RunDate>

Report the date on which the test run started (YYYY-MM-DD).

Run Start Time (Clock Start Time)
 <Clock> Run Start Time </Clock>
Report the clock time (HH:MM) at the start of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Run End Date
 <RunDate> Run End Date </RunDate>

Report the date on which the test run ended (YYYY-MM-DD).

Run End Time (Clock End Time)
 <Clock> Run End Time </Clock>

Report the clock time (HH:MM) at the end of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Barometric Pressure
 <PbHDR> Barometric Pressure </PbHDR>

Report the barometric pressure at the sampling location, in inches of mercury. Information obtained from weather services must be adjusted for the differences in pressure due to elevation.

Cumulative Elapsed Sampling Time
 <EndTime> Cumulative Elapsed Sampling Time </EndTime>

Report the total cumulative sampling time for the run, in minutes. Take the difference between the run begin and end times, and subtract out any time taken for port changes, leak checks, etc.

Calibration Coefficient of Dry Gas Meter (Y) 
<YHDR> Dry Gas Meter Coefficient </YHDR>

Report the dimensionless dry gas meter calibration coefficient ("Y").

Initial Reading of Dry Gas Meter Volume
 <InitDGM> Dry Gas Meter Initial Volume <InitDGM>

Report the dry gas meter volume reading (dcf) at the start of the run.

Final Reading of Dry Gas Meter Volume
 <FinalDGM> Dry Gas Meter Final Volume </FinalDGM>

Report the dry gas meter volume reading (dcf) at the end of the run.

Percent O2
 <PercO2HDR> Percent O2 </PercO2HDR>

Report the average percent O2 in the flue gas for the run (dry basis) in this field, if Method 3B or ANSI/ASME PTC 19.10-1981 was used. 

If O2 was determined by Method 3A, leave this field blank, and report data elements 22.5 and 22.6 of this Section and the applicable Pre-test and Run-level data elements in Sections 11.0 and 12.0 of these Instructions.  

Percent CO2 
<PercCO2HDR> Percent CO2 </PercCO2HDR>

Report the average CO2 concentration in the flue gas for the run (dry basis) in this field, if Method 3B or ANSI/ASME PTC 19.10-1981 was used.

If CO2 was determined by Method 3A, leave this field blank, and report data elements 22.5 and 22.6 of this Section and the applicable Pre-test and Run-level data elements in Sections 11.0 and 12.0 of these Instructions. 

Type of Fuel
 <FuelType> Type of Fuel </ FuelType >

Refer to Table A-2 in the Appendix to these Instructions. Report each type of fuel that was combusted in the EGU (or group of EGUs sharing a common stack) during the test. If a particular fuel type is not shown in the Table, report it here.  If you select "Other Oil" or "Other Gas", identify the fuel in the Test Comment field (see Section 2.0, above).

F-Factor (Fd, Fw or Fc) 

Report the appropriate F-factor, i.e., Fd, Fw or Fc, for the fuel combusted during the testing, in
units of dscf/mmBtu, wscf/mmBtu, or scf CO2/mmBtu, as applicable.  

For the appropriate XML tags, refer to Table 5, above.

Pollutant Mass Collected (value)
 <Mass> Pollutant Mass Collected </Mass>

Report the pollutant mass collected during the Method 26 stack test run, in the units of measure specified immediately below.   

Leave this field blank for RATAs of HCl or HF CEMS.

Pollutant Mass Units of Measure 
<Units> Pollutant Mass Unit of Measure </Units>

For Method 26 stack tests, report the pollutant mass in micrograms, using code "ug".

Leave this field blank for RATAs of HCl or HF CEMS.

Detection Limit Flag 
<Flag> Detection Limit Flag </Flag>

Consistent with EPA guidance, report "BDL" if the pollutant mass for the run was below the detection level.  Otherwise, leave this field blank.

Leave this field blank for RATAs of HCl or HF CEMS.

Pollutant Concentration 
<EmissionValue> Pollutant Concentration </EmissionValue>

Report the HCl or HF concentration in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the concentration in the units of measure specified immediately below.

Pollutant Concentration Units of Measure
 <EmissionUnit> Pollutant Unit of Measure </EmissionUnit>

For performance stack tests, report the units of measure of the HCl or HF concentration as milligrams per dry standard cubic meter, using the code "mg/dscm". 

For RATAs of HCl or HF CEMS, report the pollutant concentration in units of parts per million by volume, using the code "PPMV".  Use a conversion factor of 0.662 ppm/(mg/dscm) to convert the Method 26 results from mg/dscm to ppmv.

Pollutant Emission Rate
 <EF> Emission Rate </EF>

Report the pollutant emission rate in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the rate in the units of measure specified immediately below.

Leave this field blank for RATAs of HCl or HF CEMS.

Pollutant Emission Rate Units of Measure (units of the standard)
 <EmissionUnit> Units of Measure </EmissionUnit>

Report the HCl or HF emission rate in units of the applicable standard.  Report either "lb/mmBtu" or "lb/MWh", consistent with your compliance strategy:

Leave this field blank for RATAs of HCl or HF CEMS.

Compliance Limit Basis (Heat Input or Electrical Output)
 <MATERIAL> Heat </MATERIAL>; 
 <ACTION> Input </ACTION>; 
      or 
<MATERIAL> Electrical </MATERIAL>
<ACTION> Output </ACTION>

For Method 26 performance stack tests that are conducted to comply with a MATS emission limit, report the compliance strategy that has been selected, i.e., the basis of the standard that you must meet.  Report either "Heat Input" or "Electrical Output", as shown above.

Leave this field blank for RATAs of HCl or HF CEMS. 

Heat Input or Electrical Output Unit of Measure 
<MEASURE> Process Unit of measure </MEASURE>

For Method 26 performance stack tests that are conducted to comply with a heat input-based MATS emission limit, report the units of measure of the heat input as "mmBtu".   

For Method 26 performance stack tests that are conducted to comply with an electrical output-based MATS emission limit, report the units of measure of the electrical output as "MWh".   

Leave this field blank for RATAs of HCl or HF CEMS.   

Process Parameter 
<Process_Parameter_Value> Rate value </Process_Parameter_Value>

For Method 26 performance stack tests that are conducted to comply with a heat input-based MATS emission limit, report the average heat input rate during the test, in the units of measure specified below.

For Method 26 performance stack tests that are conducted to comply with an electrical output-based MATS emission limit, report the average electrical load during the test, in the units of measure specified below.

For RATAs of HCl or HF CEMS, report the average electrical load during the test, in the units of measure specified below.

Process Parameter Units of Measure 
<Process_Parameter_Rate> Units of measure </Process_Parameter_Rate>

If the process parameter is the average heat input rate, report "mmBtu/h".  

If the process parameter is the average electrical load, report "MW".    


8.0	POINT-LEVEL DATA XML MODEL 
		       (RM 26)
                                   Figure 8
                         POINT-LEVEL DATA XML Elements
                 Source ID (Sampling Location)--- data element 18.1
      Test Method--- data element 22.3
      Run Number--- data element 22.4 
      Run Begin Date--- data element 22.8 
      23.1  	Traverse Point ID
      23.2 	Filter Temperature
      23.3 	Dry Gas Meter Temperature
    
      Source ID (Sampling Location)--- data element 18.1
      Test Method--- data element 22.3
      Run Number--- data element 22.4 
      Run Begin Date--- data element 22.8 
      23.1  	Traverse Point ID
      23.2 	Filter Temperature
      23.3 	Dry Gas Meter Temperature
    
(RM26)
Description of Data
   
This POINT-LEVEL DATA record provides key temperature data for each traverse point of each Method 26 test run.

Use the following instructions to report each data element of the POINT-LEVEL DATA record.  Insert each data element between the opening XML tag < > and the closing XML tag </ >):

Source ID (Location)
 <Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA section (data element in Section 3.0, above). 
Test Method
 <Method>  Method 26 </Method>

From Table 2, above, report "Method 26".

Run Number
<RunNumber> Run Number </RunNumber>

The Run Number reported in this field must exactly match the corresponding Run Number in the Method 26 RUN-LEVEL DATA record (data element 22.4 in Section 7.0, above).

Run Begin Date 
<RunDate> Run Begin Date </RunDate>

The Run Begin Date reported in this field (YYYY-MM-DD) must exactly match the corresponding Run Begin Date in the Method 26 RUN-LEVEL DATA record (data element 22.8 in Section 7.0, above).


Traverse Point ID
 <Point> Traverse Point ID </Point>

Report the ID of the traverse point (e.g.  "Al").

Filter Temperature
 <FilTempOut> Filter Temperature </FilTempOut>

Report the filter temperature recorded while sampling at the traverse point, in Fahrenheit (°F).


Dry Gas Meter Temperature
 <DryGasInlet> Dry Gas Meter Temperature </DryGasInlet>

Report the dry gas meter inlet gas temperature while sampling at the traverse point, in Fahrenheit (°F).




9.0   RUN-LEVEL DATA XML MODEL 
		  (RM 30B)     
                                       
                                               Figure 9
                   RUN-LEVEL DATA XML Elements (RM30B)
                   
      Source ID (Sampling Location)--- data element 18.1
      24.1       Test Number
 
 
 
 
 
 
 
 
                  
       Pollutant Name;
       Test Method;
       Run Number
       Corresponding Reference Method(s), if applicable;
       Corresponding Reference Method(s) Run Number, if applicable;
       Number of Traverse Points;
 Run Begin Date
 Run Start Time (Clock Time Start);
 Run End Date
 Run End Time (Clock Time End);
 Barometric Pressure;
 Percent O2
 Percent CO2
 Cumulative Elapsed Sampling Time
 Calibration Coefficient of Dry Gas Meter Box A 
 Initial Reading of Dry Gas Meter Volume (A);
 Final Reading of Dry Gas Meter Volume (A); 
 Calibration Coefficient of Dry Gas Meter Box B 
 Initial Reading of Dry Gas Meter Volume (B);
 Final Reading of Dry Gas Meter Volume (B); 
 Gas Sample Volume Units of Measure
 Post-Run Leak Rate (A);
 Post-Run Leak Check Vacuum (A);
 Post-Run Leak Rate (B)
 Post-Run Leak Check Vacuum (B);
 Sorbent Trap ID (A);
 Pollutant Mass Collected, Section 1 (A)
 Pollutant Mass Collected, Section 2 (A)
 Mass of Spike on Sorbent Trap A
 Total Pollutant Mass Trap A
 Sorbent Trap ID (B);
 Pollutant Mass Collected, Section 1 (B)
 Pollutant Mass Collected, Section 2 (B)
 Mass of Spike on Sorbent Trap B
 Total Pollutant Mass Trap B
 Pollutant Mass Units of Measure;
 Pollutant Average Concentration (Average of A and B);	
 Pollutant Concentration Units of Measure;
 Method Detection Limit (MDL); 
 Percent Spike Recovery
       Type of Fuel
       F-Factor (Fd, Fw or Fc)
       Compliance Limit Basis (Heat Input or Electrical Output)
       Heat Input or Electrical Output Unit of Measure;
       Process Parameter (value)
       Process Parameter Unit of Measure;
 Pollutant Emission Rate
 Pollutant Emission Rate Unit of Measure
    
      Source ID (Sampling Location)--- data element 18.1
      24.1       Test Number
 
 
 
 
 
 
 
 
                  
       Pollutant Name;
       Test Method;
       Run Number
       Corresponding Reference Method(s), if applicable;
       Corresponding Reference Method(s) Run Number, if applicable;
       Number of Traverse Points;
 Run Begin Date
 Run Start Time (Clock Time Start);
 Run End Date
 Run End Time (Clock Time End);
 Barometric Pressure;
 Percent O2
 Percent CO2
 Cumulative Elapsed Sampling Time
 Calibration Coefficient of Dry Gas Meter Box A 
 Initial Reading of Dry Gas Meter Volume (A);
 Final Reading of Dry Gas Meter Volume (A); 
 Calibration Coefficient of Dry Gas Meter Box B 
 Initial Reading of Dry Gas Meter Volume (B);
 Final Reading of Dry Gas Meter Volume (B); 
 Gas Sample Volume Units of Measure
 Post-Run Leak Rate (A);
 Post-Run Leak Check Vacuum (A);
 Post-Run Leak Rate (B)
 Post-Run Leak Check Vacuum (B);
 Sorbent Trap ID (A);
 Pollutant Mass Collected, Section 1 (A)
 Pollutant Mass Collected, Section 2 (A)
 Mass of Spike on Sorbent Trap A
 Total Pollutant Mass Trap A
 Sorbent Trap ID (B);
 Pollutant Mass Collected, Section 1 (B)
 Pollutant Mass Collected, Section 2 (B)
 Mass of Spike on Sorbent Trap B
 Total Pollutant Mass Trap B
 Pollutant Mass Units of Measure;
 Pollutant Average Concentration (Average of A and B);	
 Pollutant Concentration Units of Measure;
 Method Detection Limit (MDL); 
 Percent Spike Recovery
       Type of Fuel
       F-Factor (Fd, Fw or Fc)
       Compliance Limit Basis (Heat Input or Electrical Output)
       Heat Input or Electrical Output Unit of Measure;
       Process Parameter (value)
       Process Parameter Unit of Measure;
 Pollutant Emission Rate
 Pollutant Emission Rate Unit of Measure
    
                            

		



                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
Description of Data

Report a RUN-LEVEL DATA record that includes the data elements in Figure 9 for each Method 30B test run, if:

 You perform quarterly Hg performance stack tests of an oil-fired EGU; 
      
 You perform 30- (or 90-) boiler operating day LEE tests to measure Hg concentrations; or
             
 You perform annual RATAs of Hg CEMS or sorbent trap monitoring systems.
 
Use the following instructions for completing each element of the RUN-LEVEL DATA record.   Insert each data element between the opening XML tag < > and the closing XML tag </ >):


Source ID (Location) 
<Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA Section (data element 18.1 in Section 3.0, above). 

Test Number
 <TestNumber> Test Number </TestNumber>

The facility must assign a unique Test Number to each performance stack test or CMS performance evaluation in which Method 30B is used.

For quarterly stack tests and 30- (or 90-) boiler operating day LEE tests, this number must exactly match the Test Number in the PERFORMANCE TEST SUMMARY DATA record of the relevant quarterly MATS Compliance Report.   

For RATAs of Hg monitoring systems, this number must exactly match the test number assigned to the summarized electronic test results reported to ECMPS under Appendix A of MATS.

If a separate Method 2, 3A, or 4 test (see footnote 1 on p.4, above) is performed to correspond with a Method 30B pollutant reference method test, follow the applicable instructions for reporting Test Numbers in Sections 11.0 through 15.0 of these Instructions.

Pollutant Name
 <POLLName> Mercury </POLLName>

From Table 1, above, report "Mercury".


Test Method
 <Method> Method 30B </Method>

From Table 2, above, report "Method 30B".

Run Number
 <RunNumber> Run Number </RunNumber>

A unique run number must be assigned to each test run. Run numbers are integers, beginning with "1", which indicate the sequence order for the runs performed as part of the test.

 For a Hg performance stack test (oil-fired EGUs, only), a minimum of three test runs are required.

 For a RATA, at least 9 valid runs are required.

 For a 30- (or 90-) boiler operating day Hg LEE test, count each separate data collection period with a pair of sorbent traps as a test run.

For performance stack tests and Hg LEE tests, the run numbers reported in this field must match the run numbers in the PERFORMANCE TEST RUN DATA records of the quarterly MATS Compliance Report.

For RATAs, the run numbers reported in this field must match the run numbers in the RATA Run Data XML Model in ECMPS.

Corresponding Reference Method 
 <TestMethod> Corresponding Reference Method </TestMethod>

"Corresponding" measurements of the stack gas flow rate (Method 1-4) and/or CO2 or O2 concentration (Method 3A), and/or stack gas moisture content (Method 1-4) must be made concurrently with each Method 30B test run when:

         The stack gas flow rate (Q) and possibly the moisture content is needed to convert the Hg concentrations measured by Method 30B to units of an output-based MATS standard (lb/GWh), in a quarterly stack test of an oil-fired EGU or in a Hg LEE test;

         The CO2 or O2 concentration, and possibly the moisture content of the stack gas is needed to convert the Hg concentrations measured by Method 30B to units of a heat input-based MATS standard (lb/TBtu ), in a quarterly stack test of an oil-fired EGU or in a Hg LEE test; or

         The moisture content of the stack gas is needed for the RATA of a Hg monitoring system when the reference method and CEMS do not measure on the same moisture basis (wet or dry). 


For each performance stack test, Hg LEE test, or RATA conducted using Method 30B, if any separate, corresponding reference method tests using Method 2, 3A, or 4 are done concurrently for any of the three reasons cited above, report the corresponding reference method(s) used, from the list in Table 3, above.    

Corresponding Reference Method Run Number 
Ordinarily, the pollutant reference method test runs test runs and the test runs for any corresponding reference methods performed concurrently with the pollutant RM runs will be numbered identically.   For instance, if the three runs of a Method 30B stack test or Hg LEE test are numbered 1, 2, and 3, and a separate Method 3A determination is made during each Method 30B run, the Method 3A runs will generally be numbered 1, 2, and 3, for consistency.   

However, in rare cases, the run numbers assigned to the pollutant method test runs and auxiliary test runs may not match, e.g., if three Method 30B test runs are numbered 1, 2, and 3 and the corresponding Method 3A runs are numbered 4, 5, and 6. 

Report the Run Number of the separate Method 2, 3A, or 4 test that corresponds to the Method 30B performance stack test run, Hg LEE test run, or RATA run (as applicable).  Use the assigned XML tag in Table 4, above, to report the Run Number.

Number of Traverse Points
 <NumPoints> Number of Traverse Points </NumPoints>

Report the number of traverse points used for the test run, in accordance with section 8.1 of Method 30A. 

Run Begin Date
 <RunDate> Run Begin Date </RunDate>

Report the date on which the test run started (YYYY-MM-DD).

Run Start Time (Clock Start Time)
 <Clock> Run Start Time </Clock>

Report the clock time (HH:MM) at the start of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Run End Date 
<RunDate> Run End Date </RunDate>

Report the date on which the test run ended (YYYY-MM-DD).

Run End Time (Clock End Time)
 <Clock> Run End Time </Clock>

Report the clock time (HH:MM) at the end of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Barometric Pressure 
<PbHDR> Barometric Pressure </PbHDR>

Report the barometric pressure at the sampling location, in inches of mercury. Information obtained from weather services must be adjusted for the differences in pressure due to elevation.

Percent O2
 <PercO2HDR> Percent O2 </PercO2HDR>

Report the average percent O2 in the flue gas for the run (dry basis) in this field if Method 3B or ANSI/ASME PTC 19.10-1981 was used. 

If O2 was determined by Method 3A, leave this field blank, and report data elements 24.5 and 24.6 of this Section and the applicable Pre-test and Run-level data elements in Sections 11.0 and 12.0 of these Instructions.  

Percent CO2
 <PercCO2HDR> Percent CO2 </PercCO2HDR>

Report the average CO2 concentration in the flue gas for the run (dry basis) in this field if Method 3B or ANSI/ASME PTC 19.10-1981 was used.

If CO2 was determined by Method 3A, leave this field blank, and report data elements 24.5 and 24.6 of this Section and the applicable Pre-test and Run-level data elements in Sections 11.0 and 12.0 of these Instructions.  

Cumulative Elapsed Sampling Time 
<EndTime> Cumulative Elapsed Sampling Time </EndTime>

Report the total cumulative sampling time for the run, in minutes. Take the difference between the run begin and end times, and subtract out any time taken for port changes, QA checks, etc.

Calibration Coefficient of Dry Gas Meter Box A
 <YHDRA> Dry Gas Meter A Coefficient </YHDRA>

Report the dimensionless calibration coefficient ("Y") of the dry gas meter in the Sampling Train A meter box.

Initial Reading of Dry Gas Meter Volume (A) 
<GasMeterA> Initial meter box reading A </GasMeterA>

Report the dry gas meter volume reading for Sampling Train A at the start of the run, in the appropriate units of measure (see below).


Final Reading of Dry Gas Meter Volume (A)
 <GasMeterA> Final meter box reading A </GasMeterA>

Report the dry gas meter volume reading for Sampling Train A at the end of the run, in the appropriate units of measure (see below).

Calibration Coefficient of Dry Gas Meter Box B 
<YHDRB> Dry Gas Meter B Coefficient </YHDRB>

Report the dimensionless calibration coefficient ("Y") of the dry gas meter in the Sampling Train B meter box.

Initial Reading of Dry Gas Meter Volume (B) 
<GasMeterB> Initial meter box reading B </GasMeterB>

Report the dry gas meter volume reading for Sampling Train B at the start of the run, in the appropriate units of measure (see below).

Final Reading of Dry Gas Meter Volume (B) 
<GasMeterB> Final meter box reading B </GasMeterB>

Report the dry gas meter volume reading for Sampling Train B at the end of the run, in the units of measure specified immediately below.

Gas Sample Volume Units of Measure 
<GasMeterUnits> Gas Meter Units </GasMeterUnits>

Report the dry gas sample volume units of measure.  Report either "liters", "cubic meters" or "cubic feet").

Post-Run Leak Check Vacuum (A) 
<VacCkPostA> Leak check vacuum A </VacCkPostA>  

 Report the post-run leak check vacuum for Sampling Train A, in inches of Hg. 

Post-Run Leak Rate (A) 
<LeakRtPostA> Leak check rate A </LeakRtPostA>
Report the post-run leak rate for Sampling Train A, as a percentage of the average sampling rate.

Post-Run Leak Check Vacuum (B) 
<VacCkPostB> Leak check vacuum B </VacCkPostB>  

 Report the post-run leak check vacuum for Sampling Train B, in inches of Hg. 

Post-Run Leak Rate (B) 
<LeakRtPostB> Leak check rate B </LeakRtPostB>
  
Report the post-run leak rate for Sampling Train B, as a percentage of the average sampling rate.

Sorbent Trap ID (A) 
<ATrapID> Sorbent Trap A </ATrapID>

Report the alphanumeric ID code for Sorbent Trap A, as required by section 6.1.1 of Method 30B.

Pollutant Mass Collected, Section 1 (A) 
<AM1> Collected mass </AM1>

Report the Hg mass collected in section 1 of Sampling Train A during the run, in the units of measure specified in this section (see below).  The mass must be greater than or equal to the Method Detection Limit (MDL).  Report the MDL if the mass is at or below that level.

Pollutant Mass Collected, Section 2 (A) 
<AM2> Collected mass </AM2>

Report the Hg mass collected in section 2 of Sampling Train A during the run, in the units of measure specified in this section (see below).  The mass must be greater than or equal to the Method Detection Limit (MDL).  Report the MDL if the mass is at or below that level.

Mass of Spike on Sorbent Trap A
 <AMS> Spiked mass </AMS>

If this test run was also part of the Field Recovery Test, and if Sorbent Trap A was the "spiked" trap, report the mass of Hg spiked on Sorbent Trap A before the run, in the units of measure specified in this section (see below).

Otherwise, leave this field blank.

Sorbent Trap ID (B)
 <BTrapID> Sorbent Trap B </BTrapID>

Report the alphanumeric ID code for Sorbent Trap B, as required by section 6.1.1 of Method 30B.

Pollutant Mass Collected, Section 1 (B)
 <BM1> Collected mass </BM1>

Report the Hg mass collected in section 1 of Sampling Train B during the run, in the units of measure specified in this section (see below).  The mass must be greater than or equal to the Method Detection Limit (MDL).  Report the MDL if the mass is at or below that level.

Pollutant Mass Collected, Section 2 (B) 
<BM2> Collected mass </BM2>

Report the Hg mass collected in section 2 of Sampling Train B during the run, in the units of measure specified in this section (see below).  The mass must be greater than or equal to the Method Detection Limit (MDL).  Report the MDL if the mass is at or below that level.
.
Mass of Spike on Sorbent Trap B 
<BMS> Spiked mass </BMS>

If this test run was also part of the Field Recovery Test, and if Sorbent Trap B was the "spiked" trap, report the mass of Hg spiked on Sorbent Trap B before the run, in the units of measure specified in this section (see below).

Otherwise, leave this field blank.

Total Pollutant Mass Sample A 
<MassA> Total mass </MassA>

Report the total mass of Hg collected with Sorbent Trap A, in the units of measure specified in this section (see below).

Total Pollutant Mass Sample B 
<MassB> Total mass </MassB>

Report the total mass of Hg collected with Sorbent Trap B, in the units of measure specified immediately below.

Pollutant Mass Units of Measure 
<MercuryMassUnits> ug </MercuryMassUnits>

Report "ug", to indicate that the pollutant mass is measured in micrograms.

Pollutant Average Concentration 
<EmissionValue> Concentration value </EmissionValue>

Report the arithmetic average of the Hg concentrations measured by Sampling Trains A and B, in the units of measure specified immediately below. Express the concentration in scientific notation, with one leading non-zero integer and one decimal place.

Pollutant Concentration Units of Measure
 <EmissionUnit> Pollutant Unit of Measure </EmissionUnit>

Report the average Hg concentration in units of micrograms per dry standard cubic meter, using the code "UGDSCM".

Method Detection Limit
 <LabReportMDL> Method Detection Limit </LabReportMDL>

Report the Method Detection Limit, i.e., the minimum amount of analyte that can be detected and reported.  For Method 30B, this level must be determined at least once for the analytical system.


Percent Spike Recovery 
<SPIKER> Percent Spike Recovery </SPIKER>

If this test run was also part of the Field Recovery Test, report the Spike Recovery (R) in percent, as required by 8.2.6.2 in Method 30B using Eq. 30B-1.  Otherwise, leave this field blank.

Type of Fuel 
<FuelType> Type of Fuel </FuelType >

Refer to Table A-2 in the Appendix to these Instructions. Report each type of fuel combusted in the EGU (or group of EGUs sharing a common stack) during the test.  If a particular fuel type is not shown in the Table, report it here.  If you select "Other Oil" or "Other Gas", identify the fuel in the Test Comment field (see Section 2.0, above).

F-Factor (Fd, Fw or Fc) 

Report the appropriate F-factor, i.e., Fd, Fw or Fc, for the fuel combusted during the testing, in
units of dscf/mmBtu, wscf/mmBtu, or scf CO2/mmBtu, as applicable.  

For the appropriate XML tags, refer to Table 5, above.

Compliance Limit Basis (Heat Input or Electrical Output)
 <MATERIAL> Heat </MATERIAL> 
<ACTION> Input </ACTION> 
      or 
<MATERIAL> Electrical </MATERIAL>
<ACTION> Output </ACTION>

For Method 30B performance stack tests that are conducted to comply with a MATS emission limit, or for Hg LEE tests conducted to demonstrate that the Hg emissions are < 10% of  an applicable MATS emission limit, report the compliance strategy that has been selected, i.e., the basis of the standard that you must meet.  Report either "Heat Input" or "Electrical Output", as applicable.

Leave this field blank for RATAs of Hg CEMS or sorbent trap monitoring systems.  Also leave it blank for Hg LEE tests if you elect to demonstrate compliance with the annual Hg mass emissions limit of 29.0 lb/year.

Heat Input or Electrical Output Units of Measure 
<MEASURE> Units of measure </MEASURE>

For Method 30B performance stack tests conducted to comply with a heat input-based MATS emission limit, or for Hg LEE tests conducted to demonstrate that the Hg emissions are < 10% of a heat input-based limit, report the units of measure of the heat input as "TBtu".    

For Method 30B performance stack tests conducted to comply with an electrical output-based MATS emission limit, or for Hg LEE tests conducted to demonstrate that the Hg emissions are       < 10% of an electrical output-based limit, report the units of measure of the electrical output as "GWh".   

Leave this field blank for RATAs of Hg CEMS or sorbent trap monitoring systems.   Also leave it blank for Hg LEE tests if you elect to demonstrate compliance with the annual Hg mass emissions limit of 29.0 lb/year.

Process Parameter 
<Process_Parameter_Value> Rate value </Process_Parameter_Value>

For Method 30B performance stack tests conducted to comply with a heat input-based MATS emission limit, or for Hg LEE tests conducted to demonstrate that the Hg emissions are < 10% of a heat input-based limit, report the average heat input rate during the test, in the units of measure specified below. 

For Method 30B performance stack tests conducted to comply with an electrical output-based MATS emission limit, or for Hg LEE tests conducted to demonstrate that the Hg emissions are       < 10% of an electrical output-based limit, report the average electrical load during the test, in the units of measure specified below. 

For RATAs of Hg CEMS or sorbent trap monitoring systems, or for Hg LEE tests conducted to meet the 29.0 lb/year mass emissions limit, report the average electrical load during the test, in the units of measure specified below.

Process Parameter Units of Measure 
<Process_Parameter_Rate> Units of measure </Process_Parameter_Rate>

If the process parameter is the average heat input rate, report "TBtu/h".  

If the process parameter is the average electrical load, report "GW" (for performance stack tests conducted to meet an electrical output-based standard, or for Hg LEE tests conducted to demonstrate that the Hg emissions are < 10% of an electrical output-based limit.

Report "MW" for RATAs and Hg LEE tests conducted to meet the annual 29.0 lb/year mass emissions limit.     

Pollutant Emission Rate
 <EF> Emission Rate </EF>

Report the Hg emission rate in scientific notation with one leading non-zero integer and one decimal place (e.g., 2.3E-1). Express the rate in the units of measure specified immediately below.

Leave this field blank for RATAs.

Emission Rate Units of Measure
 <EmissionUnit> Unit of Measure </EmissionUnit>

Report the pollutant emission rate in the units of the applicable MATS standard, consistent with your compliance strategy.  Report either lb/GWh, lb/TBTU, or lb/year, as applicable.

Leave this field blank for RATAs.


10.0	POINT-LEVEL DATA XML MODEL 
		              (RM 30B)

                                   Figure 10
                         POINT-LEVEL DATA XML Elements
              Source ID (Sampling Location)---- data element 18.1
 
 
 
 
 
 
 
 
 
	Test Method--- data element 24.3
	Run Number--- data element 24.4
	Run Begin Date--- data element 24.8
      25.1  	Traverse Point ID
      25.2  	Dry Gas Meter Temperature (A)
      25.3      Sample Flow Rate (A) 
      25.4  	Dry Gas Meter Temperature (B)
      25.5      Sample Flow Rate (B) 
      
Source ID (Sampling Location)---- data element 18.1
 
 
 
 
 
 
 
 
 
	Test Method--- data element 24.3
	Run Number--- data element 24.4
	Run Begin Date--- data element 24.8
      25.1  	Traverse Point ID
      25.2  	Dry Gas Meter Temperature (A)
      25.3      Sample Flow Rate (A) 
      25.4  	Dry Gas Meter Temperature (B)
      25.5      Sample Flow Rate (B) 
      
(RM30B)

Description of Data
   
This POINT-LEVEL DATA record provides key temperature data for each traverse point of each Method 30B test run.

Use the following instructions to report each data element of the POINT-LEVEL DATA record.  Insert each data element between the opening XML tag < > and the closing XML tag </ >):

Source ID (Sampling Location)
 <Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION Section (element 18.1 in Section 3.0, above).


Test Method
 <Method> Method 30B </Method>

From Table 2, above, report "Method 30B".

Run Number
 <RunNumber> Run Number </RunNumber>

The Run Number reported in this field must exactly match the corresponding Run Number in the Method 30B RUN-LEVEL DATA record (data element 24.4 in Section 9.0, above).

Run Begin Date
 <RunDate> Run Begin Date </RunDate>

The Run Begin Date reported in this field (YYYY-MM-DD) must exactly match the corresponding Run Begin Date in the Method 30B RUN-LEVEL DATA record (data element 24.8 in Section 9.0, above).

Traverse Point ID
 <Point> Traverse Point ID </Point>

Report the ID of the traverse point (e.g.  "Al").

Dry Gas Meter A Temperature 
 <DryGasA> Dry Gas Meter A Temperature </DryGasA>

Report the temperature measured at Dry Gas Meter A, recorded while sampling at the traverse point, in Fahrenheit (°F).
 (°F).

Sample Flow Rate A 
<SampleRateA> value </SampleRateA>

Report the sample flow rate for Sampling Train A, in units of liters/min.

Dry Gas Meter B Temperature
 <DryGasB> Dry Gas Meter B Temperature </DryGasB>

Report the temperature measured at Dry Gas Meter B, recorded while sampling at the traverse point, in Fahrenheit (°F).

Sample Flow Rate B 
<SampleRateB> value </SampleRateB>

Report the sample flow rate for Sampling Train B, in units of liters/min.




 
 
 
11.0   PRE-TEST CALIBRATION DATA XML MODEL
                                       (RM 3A and 6C)

                                          Figure 11
            PRE-TEST CALIBRATION DATA XML Elements
                                   (RM 3A and 6C) 

             Source ID (Sampling Location)--- data element 18.1
      26.1 	Test Number
 
 
       Test Method
 
 
 
 
 
                 Calibration Gas Cylinder Analyte;
       Cylinder Gas Unit of Measure;
       Date of Calibration;
       Calibration Low-Level Gas Cylinder ID;
       Calibration Low-Level Gas Concentration;
       Calibration Low-Level Cylinder Expiration Date;
       Calibration Mid-Level Gas Cylinder ID;
       Calibration Mid-Level Gas Concentration;
       Calibration Mid-Level Cylinder Expiration Date;
       Calibration High-Level Gas Cylinder ID;
       Calibration High-Level Gas Concentration;
       Calibration High-Level Cylinder Expiration Date;
       Calibration Span;
       Low-Level Gas Response;
       Low-Level Calibration Error;
       Low-Level APS Flag;
       Mid-Level Gas Response;
       Mid-Level Calibration Error;
       Mid-Level APS Flag;
       High-Level Gas Response;
       High-Level Calibration Error; and
       High-Level APS Flag.
    
             Source ID (Sampling Location)--- data element 18.1
      26.1 	Test Number
 
 
       Test Method
 
 
 
 
 
                 Calibration Gas Cylinder Analyte;
       Cylinder Gas Unit of Measure;
       Date of Calibration;
       Calibration Low-Level Gas Cylinder ID;
       Calibration Low-Level Gas Concentration;
       Calibration Low-Level Cylinder Expiration Date;
       Calibration Mid-Level Gas Cylinder ID;
       Calibration Mid-Level Gas Concentration;
       Calibration Mid-Level Cylinder Expiration Date;
       Calibration High-Level Gas Cylinder ID;
       Calibration High-Level Gas Concentration;
       Calibration High-Level Cylinder Expiration Date;
       Calibration Span;
       Low-Level Gas Response;
       Low-Level Calibration Error;
       Low-Level APS Flag;
       Mid-Level Gas Response;
       Mid-Level Calibration Error;
       Mid-Level APS Flag;
       High-Level Gas Response;
       High-Level Calibration Error; and
       High-Level APS Flag.
    


                          

























Description of Data
   
This PRE-TEST CALIBRATION DATA record provides key information on the calibration of the reference method analyzers (or measurement system), before the Method 3A or 6C test is conducted.  This includes the ID numbers, concentrations, and expiration dates of the calibration gas cylinders, and the analyzer (or system) response to each calibration gas.

Use the following instructions to report each data element of the PRE-TEST CALIBRATION DATA record.  Insert each data element between the opening XML tag < > and the closing XML tag </ >):




Source ID (Location) 
<Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA Section (data element 18.1 in Section 3.0, above). 

Test Number
 <TestNumber> Test Number </TestNumber>

The facility must assign a unique Test Number to each Method 3A or 6C test.

For RATAs of SO2 CEMS, this number must exactly match the test number assigned to the summarized electronic test results reported to ECMPS under 40 CFR Part 75.

The test number of a separate Method 3A test performed to supplement a pollutant reference method test must match the test number of the pollutant reference method, with an added suffix, i.e.,   -AUX3AO for oxygen and -AUX3AC for carbon dioxide.

Example: If the test number of the pollutant reference method test is Q2-2021-002 and a separate Method 3A determination of the O2 concentration in the stack gas is made to supplement that test, assign a test number of Q2-2021-002-AUX3AO to the Method 3A test.

Test Method
 <Method> Test Method </Method>

From Table 2, above, report "Method 3A" or "Method 6C", as applicable.

Calibration Gas Cylinder Analyte 
<Compound_x0028_Analyte_x0029> Analyte or Pollutant </Compound_x0028_Analyte_0029>                                                                                                              

Report "Sulfur Dioxide", "Oxygen", or "Carbon Dioxide", as applicable.

Cylinder Gas Units of Measure
 <EmisConc> Units of measure </EmisConc>

Report the units of measure of the cylinder concentration of the pollutant or analyte.   Report "PPM" for sulfur dioxide, "% O2" for oxygen, and "%CO2" for carbon dioxide.

Date of Calibration
 <RunDate> Date of Calibration </RunDate>

Report the date on which the pre-test calibration was conducted (YYYY-MM-DD).

Calibration Low-Level Gas Cylinder ID
 <DLCylID> Low-Level Gas Cylinder ID </DLCylID>

Report the ID number documented on the certification sheet for the low-level calibration gas cylinder.

Calibration Low-Level Gas Concentration 
<CertValue> Low-Level Gas Concentration </CertValue>

Report the certified concentration of the low-level calibration gas used for the 3-level analyzer calibration error test (or 3-level system calibration error test, for dilution-extractive systems).

(Note: The low-level gas may be a zero gas.)

Calibration Low-Level Gas Cylinder Expiration Date
 <ExpDate> Expiration Date </ExpDate>

Report the expiration date (YYYY-MM-DD) of the low-level calibration gas.

Calibration Mid-Level Gas Cylinder ID
 <DMCylID> Mid-Level Gas Cylinder ID </DMCylID>

Report the ID number documented on the certification sheet for the mid-level calibration gas cylinder.

Calibration Mid-Level Gas Concentration
 <CertValue> Mid-Level Gas Concentration </CertValue>

Report the certified concentration of the mid-level calibration gas used for the 3-level analyzer calibration error test (or 3-level system calibration error test, for dilution-extractive systems).

Calibration Mid-Level Gas Cylinder Expiration Date
 <ExpDate> Expiration Date </ExpDate>

Report the expiration date (YYYY-MM-DD) of the mid-level calibration gas.

Calibration High-Level Gas Cylinder ID 
<DHCylID> High-Level Gas Cylinder ID </DHCylID>

Report the ID number documented on the certification sheet for the high-level calibration gas cylinder.

Calibration High-Level Gas Concentration 
<CertValue> High-Level Gas Concentration </CertValue>

Report the certified concentration of the high-level calibration gas used for the 3-level analyzer calibration error test (or 3-level system calibration error test, for dilution-extractive systems).  

Calibration High-Level Gas Cylinder Expiration Date 
<ExpDate> Expiration Date </ExpDate>

Report the expiration date (YYYY-MM-DD) of the high-level calibration gas.

Calibration Span 
<Span> span value </Span>

Report the calibration span. The span value is equal to the high-level calibration gas concentration.

Low-Level Gas Response 
<DLRV> Low-Level Gas Response </DLRV>

Report the analyzer (or system) response when challenged with the low level calibration gas as part of the 3-level calibration error test.

Low-Level Gas Calibration Error
 <DLError> Low-Level Gas Calibration Error </DLError>

Report the calibration error for the low-level injection of the initial 3-level calibration error test, rounded to one decimal place.

Low-Level Gas APS Flag
 <LAPS Flag> Low-Level Gas APS Flag </LAPS Flag>

Report "0" in this field if the reported low-level calibration error value is a percentage of the calibration span. Report "l" if you are relying on the alternative performance specification (APS), and the reported low-level calibration error value is an absolute difference, expressed in concentration units.

Mid-Level Gas Response
 <DMRV> Mid-Level Gas Response </DMRV>

Report the analyzer (or system) response when challenged with the mid-level calibration gas as part of the 3-level calibration error test.

Mid-Level Gas Calibration Error
 <DMError> Mid-Level Gas Calibration Error </DMError>

Report the calibration error for the mid-level injection of the initial 3-level calibration error test, rounded to one decimal place.

Mid-Level Gas APS Flag
 <MAPS Flag> Mid-Level Gas APS Flag </MAPS Flag>

Report "0" in this field if the reported mid-level calibration error value is a percentage of the calibration span. Report "1" if you are relying on the alternative performance specification (APS), and the reported mid-level calibration error value is an absolute difference, expressed in concentration units.

High-Level Gas Response 
<DHRV> High-Level Gas Response </DHRV>

Report the analyzer (or system) response when challenged with the high level calibration gas as part of the 3-level calibration error test.

High-Level Gas Calibration Error
 <DHError> High-Level Gas Calibration Error </DHError>

Report the calibration error for the high-level injection of the initial 3-level calibration error test, rounded to one decimal place.

High-Level Gas APS Flag 
<HAPS Flag> High-Level Gas APS Flag</HAPS Flag>

Report "0" in this field if the reported high-level calibration error value is a percentage of the calibration span. Report "1" if you are relying on the alternative performance specification (APS), and the reported high-level calibration error value is an absolute difference, expressed in concentration units.
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   
   12.0    RUN-LEVEL DATA XML MODEL
                                    (RM 3A and 6C)

                                               Figure 12
                                RUN-LEVEL DATA XML Elements (RM 3A and 6C)

      Source ID (Sampling Location)--- data element 18.1
      27.1 	Test Number
      27.2  	Pollutant or Analyte Name
      27.3 	Test Method
      27.4      Run Number; 
      27.5	Corresponding Reference Method, if applicable;
      27.6	Corresponding Reference Method Run Number, if applicable;
 
 
 
 
 
      27.7 	Number of Traverse Points;
      27.8	Run Begin Date;
      27.9	Run Start Time (Clock Time Start);
      27.10	Run End Date;
      27.11	Run End Time (Clock Time End);
      27.12	Cumulative Elapsed Sampling Time;
      27.13	Upscale (mid or high) Gas Level;
      27.14	Pre-Run Low-Level Response;
      27.15	Pre-Run Low-Level System Bias;
      27.16	Pre-Run Low-Level Bias APS Flag
      27.17	Pre-Run Upscale (mid or high) Response
      27.18	Pre-Run Upscale (mid or high) System Bias
      27.19	Pre-Run Upscale (mid or high) Bias APS Flag;
      27.20	Post-Run Low-Level Response;
      27.21	Post-Run Low-Level System Bias;
      27.22	Post-Run Low-Level Bias APS Flag;
      27.23	Post-Run Low-Level Drift;
      27.24	Post-Run Low-Level Drift APS Flag;
      27.25	Post-Run Upscale (mid or high) Response;
      27.26	Post-Run Upscale (mid or high) System Bias;
      27.27	Post-Run Upscale (mid or high) System Bias APS Flag;
      27.28	Post-Run Upscale (mid or high) Drift;
      27.29	Post-Run Upscale (mid or high) Drift APS Flag;
      27.30	Unadjusted Raw Emissions Average Concentration; 
      27.31	Calculated Average Concentration, Adjusted for Bias (Cgas);
      27.32	Concentration Units of Measure (Dry or wet);
      27.33	Type of Fuel;
      27.34	Process Parameter (value)
      27.35	Process Parameter Unit of Measure;
      
      Source ID (Sampling Location)--- data element 18.1
      27.1 	Test Number
      27.2  	Pollutant or Analyte Name
      27.3 	Test Method
      27.4      Run Number; 
      27.5	Corresponding Reference Method, if applicable;
      27.6	Corresponding Reference Method Run Number, if applicable;
 
 
 
 
 
      27.7 	Number of Traverse Points;
      27.8	Run Begin Date;
      27.9	Run Start Time (Clock Time Start);
      27.10	Run End Date;
      27.11	Run End Time (Clock Time End);
      27.12	Cumulative Elapsed Sampling Time;
      27.13	Upscale (mid or high) Gas Level;
      27.14	Pre-Run Low-Level Response;
      27.15	Pre-Run Low-Level System Bias;
      27.16	Pre-Run Low-Level Bias APS Flag
      27.17	Pre-Run Upscale (mid or high) Response
      27.18	Pre-Run Upscale (mid or high) System Bias
      27.19	Pre-Run Upscale (mid or high) Bias APS Flag;
      27.20	Post-Run Low-Level Response;
      27.21	Post-Run Low-Level System Bias;
      27.22	Post-Run Low-Level Bias APS Flag;
      27.23	Post-Run Low-Level Drift;
      27.24	Post-Run Low-Level Drift APS Flag;
      27.25	Post-Run Upscale (mid or high) Response;
      27.26	Post-Run Upscale (mid or high) System Bias;
      27.27	Post-Run Upscale (mid or high) System Bias APS Flag;
      27.28	Post-Run Upscale (mid or high) Drift;
      27.29	Post-Run Upscale (mid or high) Drift APS Flag;
      27.30	Unadjusted Raw Emissions Average Concentration; 
      27.31	Calculated Average Concentration, Adjusted for Bias (Cgas);
      27.32	Concentration Units of Measure (Dry or wet);
      27.33	Type of Fuel;
      27.34	Process Parameter (value)
      27.35	Process Parameter Unit of Measure;
      
						                                



Description of Data
You must report the applicable run-level information in Figure 12 for each Method 3A or 6C test run, if:

 You use instrumental Method 3A to determine the CO2 or O2 concentration of the stack gas concurrently with each run of a performance stack test, in order to convert the measured pollutant concentrations to the units of a heat input-based emission limit; or

 You use instrumental Method 3A to determine the CO2 and O2 concentration of the stack gas, in order to determine the molecular weight of the stack gas. For this application, report separate pre-test calibration data (Section 11.0, above) and Run-level data for CO2 and O2.; or

 You use instrumental Method 6C to perform a RATA of your SO2 CEMS.

Use the following instructions to report each data element of the RUN-LEVEL DATA record.  Insert each data element between the opening XML tag < > and the closing XML tag </ >):

Source ID (Location)
 <Location> Source ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA Section (data element 18.1 in Section 3.0, above). 

Test Number
 <TestNumber> Test Number </TestNumber>

The test number reported in this field must exactly match the test number in the corresponding PRE-TEST CALIBRATION DATA record (data element 26.1 in Section 11.0, above).

Pollutant or Analyte Name
 <POLLName> Pollutant or analyte name </POLLName>

Report "Oxygen" or "Carbon Dioxide" for Method 3A tests and "Sulfur Dioxide" for Method 6C applications.

Test Method 
<Method> Test Method </Method>

Report "Method 3A" or "Method 6C", as applicable.



Run Number
 <RunNumber> Run Number </RunNumber>

A unique run number must be assigned to each test run. Run numbers are integers, generally beginning with "l ", which indicate the sequence order for the runs performed as part of the test.

For a Method 3A test conducted to support a pollutant reference method test, the Run Number reported in this field must exactly match the Run Number reported in the "Corresponding Reference Method Run Number" data field of the pollutant reference method Run-level Data record. 

Example:  For a particular quarterly HCl stack test using Method 26A, a separate Method 3A test is done concurrently to determine the O2 concentration.  For Run No. 1 of the HCl test, the Run Number assigned to the concurrent Method 3A test run is also "1".  Therefore, "1" must be reported in the "Corresponding Reference Method Run Number" data field of the Method 26A Run-Level Data record (data element 19.6 in Section 4.0, above). 

For an SO2 RATA using Method 6C, the Run Number reported in this field must match the corresponding Run Number in the applicable Run Data XML Model in ECMPS.

Corresponding Reference Method, if applicable;
<Test Method> Corresponding Reference Method </Test Method>

Leave this field blank for Method 3A applications.

For an SO2 monitor RATA using Method 6C, if a corresponding Method 4 test is done concurrently with Method 6C to ensure that the reference method and CEMS data are on the same moisture basis, report "Method 1-4" in this field.

Corresponding Reference Method Run Number, if applicable;

Leave this field blank for Method 3A applications.

For an SO2 monitor RATA using Method 6C, if a corresponding Method 4 test is done concurrently with Method 6C to ensure that the reference method and CEMS data are on the same moisture basis, report the Run Number of the Method 4 test that corresponds to the Method 6C Run Number in this field.  These two Run Numbers will almost always be the same.  The XML tag for the Method 4 Run Number is found in Table 4, above. 

Number of Traverse Points 
<NumPoints>Number of Traverse Points</NumPoints>

Report the number of traverse points used for each test run. 

 For Method 6C, follow the procedures in section 6.5.6 of Part 75, Appendix A.

 For Method 3A, follow the procedures in section 8.1 of Method 7E unless the data are only used to determine the stack has molecular weight; in that case use a single point as described in section 8.2.1 of Method 3.

Run Begin Date
 <RunDate> Run Begin Date </RunDate>

Report the date on which the test run started (YYYY-MM-DD).

Run Start Time (Clock Start Time)
 <Clock> Run Start Time </Clock>

Report the clock time (HH:MM) at the start of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Run End Date
 <RunDate> Run End Date </RunDate>

Report the date on which the test run ended (YYYY-MM-DD).

Run End Time (Clock End Time) 
<Clock> Run End Time </Clock>

Report the clock time (HH:MM) at the end of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Cumulative Elapsed Sampling Time
 <EndTime> Cumulative Elapsed Sampling Time </EndTime>

Report the total cumulative sampling time for the run, in minutes. Take the difference between the run begin and end times, and subtract out any time taken for port changes, leak checks, etc.

Upscale Gas Level 
<CalPreHCylID> cylinder ID </CalPreHCylID>

Report the cylinder ID of the high or mid level gas", used for the system bias (or calibration error) checks.

Pre-Run Low-Level Response 
<CalPreZRV> pre-test response </CalPreZRV>

Report the measurement system response when challenged with the low-level calibration gas in the pre­run system bias check (or 2-point system calibration error check, for dilution systems).

Pre-Run Low-Level System Bias 
<CalPreZSysBias> bias </CalPreZSysBias>

Report the pre-run low-level system bias (or system calibration error, for dilution systems).

Pre-Run Low-Level Bias APS Flag

Report "0" in this field if the reported pre-run low-level system bias (or system calibration error) is a percentage of the calibration span.  Report "1" if you are relying on the alternative performance specification (APS), and the reported pre-run low-level system bias (or system calibration error) is an absolute difference, expressed in concentration units.

Pre-Run Upscale Response
 <CalPreHRV> response </CalPreHRV>

Report the measurement system response when challenged with the upscale (mid- or high-level) calibration gas for the pre-run system bias check (or 2-point system calibration error check, for dilution systems).

Pre-Run Upscale System Bias 
<CalPreHSysBias> bias </CalPreHSysBias>

Report the pre-run upscale (mid-or high-level) system bias (or system calibration error, for dilution systems).

Pre-Run Upscale Bias APS Flag

Report "0" in this field if the reported pre-run upscale system bias (or system calibration error) is a percentage of the calibration span. Report "1" if you are relying on the alternative performance specification (APS), and the reported pre-run upscale system bias (or system calibration error) is an absolute difference, expressed in concentration units.

Post-Run Low-Level Response
 <CalPostZRV> response </CalPostZRV>

Report the measurement system response when challenged with the low-level calibration gas for the post­run system bias check (or 2-point system calibration error check, for dilution systems).

Post-Run Low-Level System Bias 
<CalPostZSysBias> bias </CalPostZSysBias>

Report the post-run low-level system bias (or system calibration error, for dilution systems).
Post-Run Low-Level Bias APS Flag

Report "0" in this field if the reported post-run low-level system bias (or system calibration error) is a percentage of the calibration span. Report "1" if you are relying on the alternative performance specification (APS), and the reported post-run low-level system bias (or system calibration error) is an absolute difference, expressed in concentration units.


Post-Run Low-Level Drift 
<CalPostZDrift> drift </CalPostZDrift>

Report the post-run low-level drift.  

Post-Run Low-Level Drift APS Flag

Report "0" in this field if the reported post-run low-level drift is a percentage of the calibration span. Report "1" if you are relying on the alternative performance specification (APS), and the reported post-run low-level drift is an absolute difference, expressed in concentration units.

Post-Run Upscale Response 
<CalPostHRV> response </CalPostHRV>

Report the measurement system response when challenged with the upscale (mid- or high-level) calibration gas for the post-run system bias check (or 2-point system calibration error check, for dilution systems).

Post-Run Upscale System Bias 
<CalPostHSysBias> bias </CalPostHSysBias>

Report the calculated post-run upscale (mid-or high-level) system bias (or system calibration error, for dilution systems).

Post-Run Upscale Bias APS Flag

Report "0" in this field if the reported post-run upscale system bias (or system calibration error) is a percentage of the calibration span. Report "1" if you are relying on the alternative performance specification (APS), and the reported post-run upscale system bias (or system calibration error) is an absolute difference, expressed in concentration units.

Post-Run Upscale Drift 
<CalPostZDrift> drift </CalPostZDrift>

Report the calculated post-run upscale drift.  

Post-Run Upscale Drift APS Flag

Report "0" in this field if the reported post-run upscale drift is a percentage of the calibration span. Report "1" if you are relying on the alternative performance specification (APS), and the reported post-run upscale drift is an absolute difference, expressed in concentration units.

Unadjusted Raw Emissions Average Concentration 
<Cavg> average concentration value </Cavg>

Report CAVG, the unadjusted average concentration value for the test run.

Calculated Average Concentration, Adjusted for Bias (Cgas)
<Cgas> bias corrected average concentration   </Cgas>

Report CGAS, the average concentration for the run, adjusted for bias.

Concentration Units of Measure (Dry or Wet)
 <CgasUnits> Units of measure </CgasUnits>

Report the units of measure for the test run, including the moisture basis.  Report "ppmvd" or "ppmvw" for sulfur dioxide, "%vd" or "%vw" for oxygen and carbon dioxide.  

Type of Fuel 
<FuelType> Type of Fuel </FuelType >

Refer to Table A-2 in the Appendix to these Instructions. Report each type of fuel that was combusted in the EGU (or group of EGUs sharing a common stack) during the test.  If a particular fuel type is not shown in the Table, report it here.  If you select "Other Oil" or "Other Gas", identify the fuel in the Test Comment field (see Section 2.0, above).

Process Parameter 
<Process_Parameter_Value> Rate value </Process_Parameter_Value>

Leave this field blank for Method 3A tests.

For SO2 monitor RATAs using Method 6C, report the average electrical load during the RATA, in the units of measure specified immediately below.

Process Parameter Units of Measure 
<Process_Parameter_Rate> MW </Process_Parameter_Rate>

Leave this field blank for Method 3A tests.

For SO2 monitor RATAs using Method 6C, report the units of measure for the average electrical load as megawatts, using the code "MW". 
















13.0   RUN-LEVEL DATA XML MODEL
                 (RM2)
                 
                                            Figure 13
                                RUN-LEVEL DATA XML Elements (RM2)
 
                      Source ID (Sampling Location)--- data element 18.1
            28.1   Test Number
      28.2   Test Method
      28.3    Run Number
      28.4    Number of Traverse Points
      28.5   	Run Begin Date 
      28.6    Run Start Time (Clock Time Start)
      28.7    Run End Date 
      28.8    Run End Time (Clock Time End)
      28.9    Pitot Tube ID
      28.10   Pitot Tube Coefficient
      28.11   Barometric Pressure
      28.12   Static Pressure
      28.13   Percent O2
      28.14   Percent CO2
      28.15   Percent Moisture- Actual
      28.16    Dry Molecular Weight of Stack Gas
      28.17    Wet Molecular Weight of Stack Gas
      28.18    Stack Gas Velocity (fps)
      28.19    Stack Gas Flow Rate (dscfm)
    
              Source ID (Sampling Location)--- data element 18.1
            28.1   Test Number
      28.2   Test Method
      28.3    Run Number
      28.4    Number of Traverse Points
      28.5   	Run Begin Date 
      28.6    Run Start Time (Clock Time Start)
      28.7    Run End Date 
      28.8    Run End Time (Clock Time End)
      28.9    Pitot Tube ID
      28.10   Pitot Tube Coefficient
      28.11   Barometric Pressure
      28.12   Static Pressure
      28.13   Percent O2
      28.14   Percent CO2
      28.15   Percent Moisture- Actual
      28.16    Dry Molecular Weight of Stack Gas
      28.17    Wet Molecular Weight of Stack Gas
      28.18    Stack Gas Velocity (fps)
      28.19    Stack Gas Flow Rate (dscfm)
    
 
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
Description of Data

Report the applicable Run-level data elements in Figure 13 in a RUN-LEVEL DATA record for each test run, when the stack gas flow rate is needed to convert measured pollutant concentrations measured in a performance stack test to units of an electrical output-based, and Method 2 is performed separately, i.e., data from the pollutant reference method are not used to determine the stack gas velocity.
 
      (Note: For each Method 2 run, you must collect concurrent O2 and CO2 concentration data and moisture data, in order to calculate the stack gas flow rate. If you use Method 3A for the O2 and CO2 determinations, you must report the applicable Run-level and Point-level information in Sections 11 and 12 of these Instructions.  If a separate Method 4 test is conducted to determine the moisture content of the stack gas, you must report the applicable Run-level information in Section 15 of these Instructions.

Use the following instructions to report each data element of the RUN-LEVEL DATA record.  Insert each data element between the opening XML tag < > and the closing XML tag </ >):

Source ID (Location) 
<Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA Section (data element 18.1 in Section Section 3.0, above). 

Test Number 
<TestNumber> Test Number </TestNumber>

The facility must assign a unique Test Number to each Method 2 test.

The test number of a separate Method 2 test performed to supplement a pollutant reference method test must match the test number of the pollutant reference method, with an added suffix, i.e.,   -AUX2.

Example: If the test number of the pollutant reference method test is Q2-2021-002 and a separate Method 2 determination of the stack gas flow rate is made to supplement that test, assign a test number of Q2-2021-002-AUX2 to the Method 2 test.

Test Method 
<Method> Test Method </Method>

Report "Method 1-4" in this field.

Run Number 
<FlowRateRunID> Run number </FlowRateRunID>

For a Method 2 test conducted to support a pollutant reference method test, the Run Number reported in this field must exactly match the Run Number reported in the "Corresponding Reference Method Run Number" data field of the pollutant reference method Run-level Data record. 

Example:  For a particular quarterly HCl stack test using Method 26A, a separate Method 2 test is done concurrently.  For Run No. 1 of the HCl test, the Run Number assigned to the concurrent Method 2 test run is also "1".  Therefore, "1" is reported in the "Corresponding Reference Method Run Number" data field of the HCl RUN-LEVEL AND LAB DATA record (data element 19.6 in Section 4.0, above).   

Number of Traverse Points 
<NumPoints> Number of Traverse Points </NumPoints>

Report the number of traverse points used for the test run.  Determine the number and location of the traverse points according to the applicable procedures in Method 1.

Run Begin Date 
<RunDate> Run Begin Date </RunDate>

Report the date on which the test run started (YYYY-MM-DD).

Run Start Time (Clock Start Time)
 <Clock> Run Start Time </Clock>

Report the clock time (HH:MM) at the start of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Run End Date 
<RunDate> Run End Date </RunDate>

Report the date on which the test run ended (YYYY-MM-DD).

Run End Time (Clock End Time)
 <Clock> Run End Time </Clock>

Report the clock time (HH:MM) at the end of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Pitot Tube ID
 <CpIDHDR> Pitot Tube ID </CpIDHDR>

Report the pitot tube identification number.

Pitot Tube Coefficient 
<CpHDR> Pitot Tube Coefficient </CpHDR>

Report the calibration coefficient (Cp) of the Type-S pitot tube (or, if applicable, pitot assembly).

Barometric Pressure 
<PbHDR> Barometric Pressure </PbHDR>

Report the barometric pressure at the sampling location, in inches of mercury. Information obtained from weather services must be adjusted for the differences in pressure due to elevation.

Static Pressure
 <PgHDR> Static Pressure </PgHDR>

Report the static pressure of the stack gas, in inches of water.

Percent O2
 <PercO2HDR> Percent O2 </PercO2HDR>

Report the average percent O2 in the flue gas for the run (dry basis) in this field if Method 3B or ANSI/ASME PTC 19.10-1981 was used. 


If O2 was determined by Method 3A, leave this field blank, and report the "Corresponding Reference Method" and "Corresponding Reference Method Run Number" data elements associated with the pollutant reference method test.  Also report the applicable data elements in Sections 11.0 and 12.0 of these Instructions.  

Example: A separate Method 2 test is done to support a Method 29 stack test. A separate Method 3A test is also conducted to provide the necessary O2 data for determining the stack gas molecular weight.  In the "Corresponding Reference Method" and "Corresponding Reference Method Run Number" data fields of the Method 29 RUN-LEVEL AND LAB DATA record (data elements 19.5 and 19.6 in Section 4.0, above), separate entries must be made for Method 2 and for Method 3A.  In addition, the data elements in Sections 11.0 and 12.0 of these Instructions must be reported for the Method 3A O2 test.

Percent CO2 
<PercCO2HDR> Percent CO2 </PercCO2HDR>

Report the average CO2 concentration in the flue gas for the run (dry basis) if Method 3B or ANSI/ASME PTC 19.10-1981 was used.

If CO2 was determined by Method 3A, leave this field blank, and report the "Corresponding Reference Method" and "Corresponding Reference Method Run Number" data elements associated with the pollutant reference method test.  Also report the applicable data elements in Sections 11.0 and 12.0 of these Instructions.  

Example: In the previous example, a separate Method 3A test must also be conducted to provide the necessary CO2 data for determining the stack gas molecular weight.  Therefore, in the "Corresponding Reference Method" and "Corresponding Reference Method Run Number" data fields of the Method 29 RUN-LEVEL AND LAB DATA record, additional entries must be made for the Method 3A CO2 test.  In addition, the data elements in Sections 11.0 and 12.0 of these Instructions must be reported for the Method 3A CO2 test. 

Percent Moisture  -  Actual
<MoisturePerc> Percent H2O </MoisturePerc>

Report the moisture content of the stack gas, in units of % H2O. Use Equation 4-4 of Method 4.

Dry Molecular Weight of Stack Gas 
<Md> Dry Molecular Weight </Md>

Report the dry molecular weight of the stack gas for the run, calculated according to Equation 3-1 of Method 3.

Wet Molecular Weight of Stack Gas
<Ms> Wet Molecular Weight </Ms>

Report the wet molecular weight of the stack gas for the run. Substitute Bws (from Equation 5.3 of Method 5) into Equation 2-6 of Method 2.

Stack Gas Velocity 
<Vs> Stack Gas Velocity </Vs>

Report vs, the average stack gas velocity for the test run, in ft/sec. Use Equation 2-7 in Method 2 to determine the velocity, which is needed for the isokinetic calculation.

Stack Gas Flow Rate 
<Qsd> Stack Gas Flow Rate </Qsd>

Report the stack gas flow rate in units of standard cubic feet per minute (dscfm).


14.0   POINT-LEVEL DATA XML MODEL
                        (RM2)
                    
                    
                                   Figure 14
                         POINT-LEVEL DATA XML Elements
                                     (RM2)
                          Source ID (Sampling Location)--- data element 18.1
      Test Method--- data element 28.2
      Run Number--- data element 28.3
      Run Begin Date--- data element 28.5
      29.1   Traverse Point ID
      29.2   Stack Temperature
      29.3   Differential Pressure Reading (ΔP)
    
      Source ID (Sampling Location)--- data element 18.1
      Test Method--- data element 28.2
      Run Number--- data element 28.3
      Run Begin Date--- data element 28.5
      29.1   Traverse Point ID
      29.2   Stack Temperature
      29.3   Differential Pressure Reading (ΔP)
    

Description of Data

This POINT-LEVEL DATA record provides stack temperature and differential pressure data for each Method 2 test run. Report the data elements in Figure 14 in a POINT-LEVEL DATA record, for each traverse point of each Method 2 test run.

Use the following instructions to report each data element of the POINT-LEVEL DATA record. Insert each data element between the opening XML tag < > and the closing XML tag </ >):

Source ID (Location) 
<Location> ID of the unit or stack </Location>

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION Section (element 18.1 in Section 3.0, above).

Test Method 
<Method> Method 1-4 </Method>

Report "Method 1-4" in this field.

Run Number
 <RunNumber> Run Number </RunNumber>

The Run Number reported in this field must exactly match the corresponding Run Number in the Method 2 RUN-LEVEL DATA record.

Run Begin Date 
<RunDate>  Run Begin Date </RunDate>

The Run Begin Date reported in this field (YYYY-MM-DD) must exactly match the corresponding Run Begin Date in the Method 2 RUN-LEVEL DATA record.

Traverse Point ID
 <Point> Traverse Point ID </Point>

Report the ID of the Method 1 traverse point (e.g.  "Al").

Stack Temperature 
<StackTemp> Flue Gas Temperature </StackTemp>

Report the measured temperature of the stack gas at the traverse point (°F).

Differential Pressure Reading (ΔP) 
<Velocity> Differential Pressure Reading </Velocity>	

Report the differential pressure (ΔP) measured at the traverse point, in inches of water.



















15.0   RUN-LEVEL DATA XML MODEL
                 (RM 4)
                 
                             Figure 15
      RUN-LEVEL DATA XML Elements (RM4)
                                                 
      Source ID (Sampling Location)--- data element 18.1
      30.1     Test Number
      30.2     Test Method
      30.3     Run Number
      30.4     Number of Traverse Points
      30.5     Run Begin Date 
      30.6     Run Start Time (Clock Time Start)
      30.7     Run End Date 
      30.8     Run End Time (Clock Time End)
      30.9     Barometric Pressure
      30.10   Calibration Coefficient of Dry Gas Meter (Y) 
      30.11  Volume of Water Collected in Impinger and Silica Gel
      30.12   Percent Moisture- Actual
      30.13    Initial Reading of Dry Gas Meter Volume (dcf)
      30.14    Final Reading of Dry Gas Meter Volume (dcf)
      30.15    Dry Gas Meter Temperature (Average)
    
      Source ID (Sampling Location)--- data element 18.1
      30.1     Test Number
      30.2     Test Method
      30.3     Run Number
      30.4     Number of Traverse Points
      30.5     Run Begin Date 
      30.6     Run Start Time (Clock Time Start)
      30.7     Run End Date 
      30.8     Run End Time (Clock Time End)
      30.9     Barometric Pressure
      30.10   Calibration Coefficient of Dry Gas Meter (Y) 
      30.11  Volume of Water Collected in Impinger and Silica Gel
      30.12   Percent Moisture- Actual
      30.13    Initial Reading of Dry Gas Meter Volume (dcf)
      30.14    Final Reading of Dry Gas Meter Volume (dcf)
      30.15    Dry Gas Meter Temperature (Average)
    

Description of Data

Report the applicable run-level data elements in Figure 15 in a RUN-LEVEL DATA record for each test run when Method 4 is performed separately, to support:

 A performance stack test, when the Method 19 equation used to demonstrate compliance with a heat input-based emission standard includes a moisture correction term;

 A CMS quality-assurance test, when the reference method and CMS do not measure on the same moisture basis (wet or dry);

  A Method 2 determination, to calculate the wet molecular weight of the stack gas and to convert the stack gas flow rate from wet basis to dry.
 
Use the following instructions to report each data element of the RUN-LEVEL DATA record. Insert the each element between the opening XML tag  < > and the closing XML tag </ >):

Source ID (Location)

The Source ID reported in this field must exactly match the Source ID reported in the SOURCE INFORMATION DATA Section (data element 18.1 in Section 3.0, above). 


Test Number
 <TestNumber> Test Number </TestNumber>

The facility must assign a unique Test Number to each Method 4 test.

The Test Number of a separate Method 4 test performed to supplement a pollutant reference method test must match the test number of the pollutant reference method, with an added suffix, i.e.,   -AUX4.

Example: If the Test Number of the pollutant reference method test is Q2-2021-002 and a separate Method 4 determination of the stack gas moisture content is made to supplement that test, assign a Test Number of Q2-2021-002-AUX4 to the Method 4 test.

Test Method
 <Method> Method 1-4 </Method>

Report "Method 1-4" in this field.

Run Number 
<MoistureRunID> Run number </MoistureRunID>

For a separate Method 4 test conducted to support a pollutant reference method test, the Run Number reported in this field must exactly match the Run Number reported in the "Corresponding Reference Method Run Number" data field of the pollutant reference method Run-level Data record. 

Example:  For a particular RATA of an SO2 monitoring system using Method 6C, a separate Method 4 test is done concurrently.  For Run No. 1 of the RATA, the Run Number assigned to the concurrent Method 4 test run is also "1".  Therefore, "1" must be reported in the "Corresponding Reference Method Run Number" data field of the Method 3A and 6C RUN-LEVEL DATA record (data element 27.6 in Section 12.0, above).   
Number of Traverse Points 
<NumPoints> Number of Traverse Points </NumPoints>

Report the number of traverse points used for each test run. Follow the applicable procedures in section 8.1.1.1 of Method 4.

Run Begin Date 
<RunDate> Run Begin Date </RunDate>

Report the date on which the test run started (YYYY-MM-DD).

Run Start Time (Clock Start Time)
 <Clock> Run Start Time </Clock>

Report the clock time (HH:MM) at the start of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Run End Date 
<RunDate> Run End Date </RunDate>

Report the date on which the test run ended (YYYY-MM-DD).

Run End Time (Clock End Time)
 <Clock> Run End Time </Clock>

Report the clock time (HH:MM) at the end of run, where HH ranges from 00 to 23. Do not adjust for daylight savings time.

Barometric Pressure 
<PbHDR> Barometric Pressure </PbHDR>

Report the barometric pressure at the sampling location, in inches of mercury. Information obtained from weather services must be adjusted for the differences in pressure due to elevation.

Calibration Coefficient of Dry Gas Meter (Y) 
<YHDR> Dry Gas Meter Coefficient </YHDR>

Report the dimensionless dry gas meter calibration coefficient ("Y").

Total Volume of Liquid Collected in Impingers and Silica Gel 
<VlcHDR> volume of water </VlcHDR>

Report Vlc, the total volume of water collected in the impingers and silica gel, to the nearest milliliter. Use Equation 4-2 in Method 4 to convert the weight of water collected in the silica gel to an equivalent volume.

Percent Moisture  -  Actual
<MoisturePerc> Percent H2O </MoisturePerc>

Report Bws, the moisture fraction of the stack gas for the run, calculated according to Equation 4-4 of Method 4. 

Initial Reading of Dry Gas Meter Volume
 <InitDGM> Dry Gas Meter Initial Volume </InitDGM>

Report the dry gas meter volume reading (dcf) at the start of the run.

Final Reading of Dry Gas Meter Volume
 <FinalDGM> Dry Gas Meter Final Volume </FinalDGM>

Report the dry gas meter volume reading (dcf) at the end of the run.

Dry Gas Meter Average Temperature 
<DryGasInlet> Dry Gas Meter lnlet Temperature </DryGasInlet>

Report the dry gas meter average gas temperature (°F).
 
 
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       

                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                   Appendix
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
                                        
Table A-1: Source Classification Codes
                                       
                                  Boiler Type
                                 Primary Fuel
                                   SCC Code
                                  Wet Bottom
                          Pulverized Bituminous Coal
                                   10100201
                                  Wet Bottom
                         Pulverized Subbituminous Coal
                                   10100221
                                  Wet Bottom
                              Pulverized Lignite
                                   10100300
                         Wet Bottom, Tangential-fired
                                Bituminous Coal
                                   10100211
                                  Dry Bottom
                          Pulverized Bituminous Coal
                                   10100202
                                  Dry Bottom
                         Pulverized Subbituminous Coal
                                   10100222
                             Dry Bottom Wall-fired
                              Pulverized Lignite
                                   10100301
                         Dry Bottom, Tangential-fired
                                Bituminous Coal
                                   10100212
                         Dry Bottom, Tangential-fired
                         Pulverized Subbituminous Coal
                                   10100226
                         Dry Bottom, Tangential-fired
                              Pulverized Lignite
                                   10100302
                                Cyclone Furnace
                                Bituminous Coal
                                   10100203
                                Cyclone Furnace
                              Subbituminous Coal
                                   10100223
                                Cyclone Furnace
                                    Lignite
                                   10100303
                                Spreader Stoker
                                Bituminous Coal
                                   10100204
                                Spreader Stoker
                              Subbituminous Coal
                                   10100224
                                Spreader Stoker
                                    Lignite
                                   10100306
                       Traveling Grate (Overfeed) Stoker
                                Anthracite Coal
                                   10100102
                       Traveling Grate (Overfeed) Stoker
                                Bituminous Coal
                                   10100205
                       Traveling Grate (Overfeed) Stoker
                              Subbituminous Coal
                                   10100225
                       Traveling Grate (Overfeed) Stoker
                                    Lignite
                                   10100304
                                  Cell Burner
                                Bituminous Coal
                                   10100215
                                  Cell Burner
                              Subbituminous Coal
                                   10100235
                            Bubbling Fluidized Bed
                                Bituminous Coal
                                   10100217
                            Bubbling Fluidized Bed
                              Subbituminous Coal
                                   10100237
                            Bubbling Fluidized Bed
                                    Lignite
                                   10100317
                           Circulating Fluidized Bed
                                Bituminous Coal
                                   10100218
                           Circulating Fluidized Bed
                              Subbituminous Coal
                                   10100238
                           Circulating Fluidized Bed
                                    Lignite
                                   10100318
                           Circulating Fluidized Bed
                                  Waste Coal
                                   10102018
                             Any Other Boiler Type
                                  Waste Coal
                                   10102001
                           Circulating Fluidized Bed
                                Petroleum Coke
                                   10100818
                             Any Other Boiler Type
                                Petroleum Coke
                                   10100801
                                 Normal Firing
                             Residual Oil Grade 5
                                   10100405 
                               Tangential-fired
                             Residual Oil Grade 5
                                   10100406
                                 Normal Firing
                             Residual Oil Grade 6
                                   10100401
                               Tangential-fired
                             Residual Oil Grade 6
                                   10100404
                                Any Boiler Type
                         Distillate Oil Grades 1 and 2
                                   10100501
                                 Normal Firing
                                Distillate Oil
                                   10100504
                               Tangential-fired
                                Distillate Oil
                                   10100505
                                Any Boiler Type
                                   Waste Oil
                                   10101302
                                Any Boiler Type
                                   Other Oil
                                   10102101
                           Any Boiler Type (or IGCC)
                             Coal-derived Synfuel
                                   10101901

                                       
                                       
                                       
                  
                                Table A-2: Types of Fuel
                                       
                                Coal-Anthracite
                                Coal-Bituminous
                              Coal-Subbituminous
                                    Lignite
                                Petroleum Coke
                                  Waste Coal
                                 Blended Coals
                                     Wood
                                   Wood Bark
                                 Residual Oil
                                Distillate Oil
                                   Waste Oil
                                   Other Oil
                                  Gas-Natural
                                  Gas-Propane
                                  Gas-Butane
                              Coal-Derived SynGas
                                   Other Gas
 
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       
                                       

                                       
                                       

                                       
                  Table A-3: Emissions Controls 
                                       
                                     Code
                      Description
                                     128 
Electrostatic Precipitator -- Dry
                                      146
Electrostatic Precipitator -- Wet 
                                      010
Electrostatic Precipitator - High Efficiency
                                      017
Fabric Filter, Medium Temperature (180[°]  -  250 [°]F)
                                      018
Fabric Filter, Low Temperature (< 180 [°]F)
                                      006
Gravity Collector -- Low Efficiency
                                      210
Cyclone -- High Efficiency
                                      032
Ammonia Injection (SCR)
                                      001
Wet Scrubber---High Efficiency
                                      003
Wet Scrubber---Low Efficiency
                                      035
Magnesium Oxide Scrubbing
                                      036
Dual Alkali Scrubbing
                                      040
Alkalized Alumina
                                      042
Wet Limestone Injection
                                      041
Dry Limestone Injection
                                      014
Mist Eliminator---High velocity (v > 250 ft/min)
                                      042
Circulating Fluidized Bed Limestone Injection
                                      042
Bubbling Fluidized Bed Limestone Injection
                                      048
Powdered Activated Carbon (PAC) Injection
                                       
Injection of Non-PAC Sorbents
                                      312
Hg Oxidation Catalyst
                                      206
Dry Sorbent Injection
                                      070
Sodium Based
                                       
                                       
                                       
                                       
                                       

