ENCLOSURE 1

INFORMATION REQUEST FOR PELLET STOVE MANUFACTURING

I.	 General Information

A. Company Name: _Lennox Hearth Products_______________________

B. Company Street Address

	1) Street:  __1508 Elm Hill Pike, Suite 108________________________

	2) City:  ___Nashville______________3) State:  TN 4) ZIP Code:  37210  

C. Mailing Address (If different from Street Address):

	1) Street or P.O. Box: 
__________________________________________________

	2) City:   _________                                         3) State: 
        4) ZIP Code:  ________

D. Corporate Owner

	1) Name of Corporate Owner: _Lennox International Inc._________

	2) Street: _2104 Lake Park Blvd______________________________________

	3) City:       Richardson____________ 4) State:   TX__5) ZIP Code: 
75080___	

	6) Corporate Sales in 2009:  $ 2847.5M________

	7) Profit Margin (profit as a percent of sales) for corporate owner: 
_27.9%___

	8) NAICS for Corporate Owner:  __333415____________________________

E. Size of Company

1) Approximate number of employees of the business enterprise that owns
this plant, including where applicable, the parent company and all
subsidiaries, branches, and unrelated establishments owned by the parent
company (answer may be given using the following ranges: 0-100; 101-250;
251-500; 501-750; 751-1,000; 1,001-1,500; and >1,500)

	CBI

2) Number of employees associated with pellet stove production
operations at the facility:

	CBI

F. Company Description

	1) Provide a brief description of the company, e.g., residential wood
heating manufacturer (wood stoves and pellet stoves) and distributor).

	___Manufacturer of factory-built fireplaces, stoves and venting for the
residential______

	___new construction and remodeling
markets__________________________________

	2) Dun & Bradstreet No:  05-479-446 for LHP; 00-528-8840 for LII       
       

	3) NAICS, if different from 333414 ___________________

	

G. Technical Contact (able to answer technical questions about this
survey)

	1) Name and Title:  CBI_____________________________

	2) Telephone: __________

	3) Facsimile: ___________

	4) Email:  __		

II.	Pellet Stove Information

A. Fill out Table 1 for each pellet stove or insert model that is
currently manufactured or is projected to be manufactured in the next 12
months.

Table 1.

Pellet Stove/Insert Model No.	Sales Price 2010	Manufacturing Cost 2010
Number of Units Manufactured 2009	Planned Number of Units Manufactured
2010

H5141 Winslow Insert	CBI	CBI	CBI	CBI

59105 Winslow Stove	CBI	CBI	CBI	CBI

H3480 Bella Black Stove	CBI	CBI	CBI	CBI

H3481 Bella Enamel Stove	CBI	CBI	CBI	CBI

H6839 Montage Stove	CBI	CBI	CBI	CBI

H6895 Cascade Stove	CBI	CBI	CBI	CBI

































B. Fill out the Table 2 for each pellet stove or insert model described
in Table 1.

Table 2.

Pellet Stove/Insert Model No.	EPA Certified Stove? y/n	Air-to-Fuel ratio
Heat Output Rating	UL Listing	Emission Test Data Available?

y/n

H5141 Winslow Insert	Y	NA	7476 - 21343	Omni 	Y

59105 Winslow Stove	Y	NA	7476 - 21343	Omni	Y

H3480 Bella Black Stove	Y	NA	11,202 – 25,925	Omni	Y

H6839 Montage Stove	Y	NA	6,270 – 29,784	Intertek	Y

H6895 Cascade Stove	Y  Exempt	39.32	11,122 – 21,946	Omni	Yes













































C. For each unit described in Table 2 that is not an EPA certified stove
and for which emissions data are available, fill out Table 3.  Provide
copies of test documentation (test summary) for each tested unit.

Table 3.

Pellet Stove/Insert Model No.	Test Lab Identification (in house or
outside vendor, identify)	Full or partial Method 28 (if partial,
describe)	Method 5G or Method 5H used? (specify method)	Other variations
to the NSPS test protocol

























































For each unit described in Table 2 that is an EPA certified stove and
for which emissions data is available, fill out Table 4.  Provide copies
of test documentation (test summary) for each tested unit.

Table 4.

Pellet Stove/Insert Model No.	Test Lab Identification (in house or
outside vendor (identify)	Full or partial Method 28 (if partial,
describe)	Method 5G or Method 5H used? (specify method)	Other variations
to the NSPS test protocol

H5141 Winslow Insert	Lokee Test Labs	Full	Method 5H
-------------------------------------

59105 Winslow Stove	Lokee Test Labs	Full	Method 5H
-------------------------------------

H3480 Bella Black Stove	Lokee Test Labs	Full	Method 5H
-------------------------------------

H6839 Montage Stove	Lokee Test Labs	Full	Method 5H
-------------------------------------

H6895 Cascade Stove	EEMC	Partial  (only two burn rates)	Method 5H
-------------------------------------



























D. For each unit listed in Tables 3 and 4, provide a summary of the
available emissions data in Tables 5 and 6.

Table 5.

Pellet Stove/Insert Model No.	Number of Runs	Weighted Dry Burn Rate Avg.
(kg/hr)	Weighted Particulate Matter Emission Rate Avg. (g/hr)	Weighted
Heat Output Avg. (Btu/hr)

H5141 Winslow Insert	4	1.23 kg/hr	1.16 g/hr	14801 Btu/hr

59105 Winslow Stove	4	1.23 kg/hr	1.16 g/hr	14801 Btu/hr

H3480 Bella Black Stove	4	1.41 kg/hr	1.01 g/hr	17209 Btu/hr

H6839 Montage Stove	4	1.37 kg/hr	5.24 g/hr	16519 Btu/hr

H6895 Cascade Stove	2	1.11 kg/hr	1.33 g/hr	16534 Btu/hr



























Table 6.

Pellet Stove/Insert Model No./Run Number	Dry Burn Rate (kg/hr)
Particulate Matter Emission Rate (g/hr)	Heat Output (Btu/hr)

H5141 Winslow Insert	1 = 0.62

2 = 1.02

3 = 1.50

4 = 1.77	1 = 0.85

2 = 1.43

3 = 0.71

4 = 1.66	1 = 7476

2 = 12299

3 = 18087

4 = 21343

59105 Winslow Stove	1 = 0.62

2 = 1.02

3 = 1.50

4 = 1.77	1 = 0.85

2 = 1.43

3 = 0.71

4 = 1.66	1 = 7476

2 = 12299

3 = 18087

4 = 21343

H3480 Bella Black Stove	1 = 0.93

2 = 1.14

3 = 1.43

4 = 2.15	1 = 0.63

2 = 0.66

3 = 0.56

4 = 2.86	1 = 11202

2 = 13746

3 = 17243

4 = 25925

H6839 Montage Stove	1 = 0.52

2 = 0.96

3 = 1.53

4 = 2.47	1 = 3.42

2 = 2.15

3 = 3.52

4 = 11.90	1 = 6270

2 = 11576

3 = 18449

4 = 29784

H6895 Cascade Stove	Low = 0.75

High = 1.47	Low = 1.28 

High = 1.38	Low = 11,122

High = 21,954













Is emissions data for other pollutants available? (Ex. CO, CO2, methane,
N2O, black carbon, dioxin, etc.)  If so, please specify. 

Yes, CO & CO2  

E.  Have you developed model-specific efficiency data for any pellet
stove models listed in Tables 1 and 2?  If so, please provide copies of
the test reports, relevant calculations, etc.  Please indicate whether
measurements are reported as the low heating value (LHV) or the high
heating value (HHV).

Yes. See attached. Completed using B415 calculation spreadsheet supplied
by Omni. The attached includes calculations for both LHV and HHV

F.  Fill out Table 7 describing the characteristics of the pellet fuel
used for each test.  

Table 7.

Pellet Stove/Insert Model No.	Brief Description of Pellet Used for Each
Test	Type (Wood, Corn, etc.)	Density	Dimensions: Max. Length (cm.) and
Diameter (cm.)	Moisture Content (%)	Ash Content (%)*	Fines (%)*	Sodium
Content (ppm)	Quality*	Ash Melting Temperature

(specify °F or °C)	Pellet Durability Index

H5141 Winslow Ins.	Bear Mountain	Wood

1” x 5/16”	8.26%	<.5%	<.5%	N/Avail.	Prem. Plus	N/Avail.	N/A

59105 Winslow Stove	Bear Mountain	Wood

1” x 5/16”	8.26%	<.5%	<.5%	N/Avail.	Prem. Plus	N/Avail.	N/A

H3480 Bella Black 	Bear Mountain	Wood

1” x 5/16”	8.951%	<.5%	<.5%	N/Avail.	Prem. Plus	N/Avail.	N/A

H6839 Montage	Bear Mountain	Wood

1” x 5/16”	7.863%	<.5%	<.5%	N/Avail.	Prem. Plus	N/Avail.	N/A

H6895 Cascade Stove	Golden Fire	Wood

1” x 5/16”	6.093%	<.5%	<.5%	N/Avail.	Prem.	N/Avail.	N/A













	

G. Please provide a list of characteristics that are critical for pellet
fuels used in the units you manufacture (e.g., moisture content, ash
content, dimensions, etc.) and why you think so.

Ash Content, Moisture Content, Fines, Species of Wood, and Overall
dimensions are all important to the operation of our pellet units.
Variability of these characteristics has no doubt been the biggest
challenge to our end users (and therefore the manufacturers) over the
last several years. When the customer becomes accustomed to the
performance, heat output and maintenance intervals required by a
specific fuel…and then those qualities change, the customer is forced
to modify or alter how they use and maintain their appliance. This
isn’t necessarily the issue between “West Coast” and “East
Coast” fuel which we’ve dealt with for years, but variability of
quality and consistency within regions and sometimes within brands which
makes it difficult to keep up with. We’ve done all we can do to
educate our customers on visual cues which might suggest they need to
alter the operation of the units or increase the maintenance intervals
but more consistency and control of the composition and performance of
the fuel would:

greatly increase the satisfaction of our customers

greatly reduce warranty/customer service cost for manufacturers

result in finer tuned, cleaner burning more efficient appliances

Reduce the R&D costs of developing new units 

 

 LHV- the heat value of a combustion process assuming all the water
component is in vapor state at the end of combustion, so that its latent
heat is not available.

 HHV- the heat value of a combustion process assuming all the water
component is in liquid form of the combustion gas, the HHV takes into
account the latent heat of vaporization of water in the combustion
products.

** Information in red provided by Manufacturer

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