Form 5900-122 Combustion Unit Electronic Survey

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Draft Questionnaire Content for Public Comment

Survey Overview

You will use this document to guide you through the question sequence. You will not enter your responses in this document, the responses will be entered in the answer key spreadsheet, which maps the question numbers in this document to columns in the spreadsheets. After you have reviewed your responses, you will e-mail all of your completed responses to [email protected] by the specified response deadline. This survey is divided into four parts:

Part I – Facility Level Data

Please answer these questions for the facility listed in the Section 114 letter you received in the mail. If you received more than one Section 114 letter for multiple facilities, you must create a separate survey response for each facility.

Part II – Data from each relevant Combustion Unit*

II.A Design, Operating, Air Pollution Control Device, and Emission Data for Small Gas-fired* Boilers or Process Heaters

Please fill out Section II.A for all boilers or process heaters that qualify as small gas-fired* fired combustion units.

II.B Unit Design, Operation, and Air Pollution Control Data for all other combustion units

II.C. Fuels/Materials burned in the Combustion Unit

Please fill out Sections II.B-II.C for each combustion unit that does not qualify under section II.A or PART IV. Sections II.B-II.C have been designed to request answers about a particular combustion unit before moving on to other combustion units at the facility.

II.D. Emission Data

Section II.D will collect available emissions test data, CEM data, and Permitted and Regulatory emission limits from all combustion units that were not eligible to complete Section II.A. All facilities who complete sections II.B and II.C must complete this section.

Part III – Fuel/Materials Analysis Data

Please fill out Part III for any fuel/material used in a combustion unit at the facility other than natural gas, propane, liquefied petroleum gas, and refinery gas. All facilities using any fuel/material other than natural gas, propane, liquefied petroleum gas, and refinery gas must complete this section

Part IV – Data from each Incinerator Unit*

Please fill out Part IV if you have any incinerators* at your facility. Otherwise you may skip this part.

_______________________________________________________________________________________________

Part I: Facility Data

1. Name of facility: ______________________________

2. Complete street address of facility (physical location):

a. Address _____________

b. City _____________

c. State _____________

d. Zip _____________

e. County _____________

3. Facility contact

a. Name (First Name, Last Name): _________________________

b. Title: _____________________________

c. Telephone number: (____) ______________________ ext. ___

d. Fax number: (____) ______________________

e. E-mail: _________________________

4. If not the same as question #1, provide legal name of the owner of this facility: _____________________

5. Is the owner of this facility a private enterprise, not-for-profit, or a public sector entity? (select one)

() private enterprise

() not-for-profit

() public sector

6.. Is your facility a major source* of HAP? (Y/N)

7. Size of entity

a. If private company owns facility:

a1. Please enter the approximate number of employees of the business enterprise that owns this facility, including where applicable, the parent company and all subsidiaries, branches, and unrelated establishments owned by the parent company:

(select from list)

a2 Please enter the number of facility employees: (select from list)

b. If public sector owns facility:

b1. What is the population of the local government entity (city, county, town, school district, special district) that owns the facility? ________________

8. Is the legal owner a small entity* as defined by the Regulatory Flexibility Act? (select one)

___ Yes

___No

___Don’t know

9. Select facility’s primary NAICS. The primary NAICS code represents the line of business that generates the most income for the facility: (select from list of 3-digit NAICS codes)

10. Do any combustion units at your facility fire any non-fossil or other* fuels/materials? (Y/N) If no skip questions 11 and 12.

11. If the unit were to stop burning non-fossil or other* material in your combustion unit(s), what would happen to the material? (Please answer questions 11 and 12 separately for each non-fossil fuel burned)

(a) Select non-fossil fuel from list

(b) Check corresponding alternative disposal method(s).

() Send to a landfill off-site

() Dispose on-site

() Dispose through local trash collection

() Vent to atmosphere

() Send to waste water treatment plant

() Contract for special disposal service

() Sell as a product

() Sell it to another facility as a fuel (off-site incineration)

() Stop purchasing material from 3^rd Party

() Don’t know

() No other alternative currently available

() Other: _________________________________________________

12. If the unit were to stop burning this non-fossil or other* fuel/material in your combustion unit(s), how would you compensate for the lost heating value?

(a) Select non-fossil fuel from list

(b) Check corresponding compensation for lost heating value.

() burn a fossil fuel such as coal, oil, or gas in the same units

() buy new equipment capable of burning another fuel

() not applicable, material has no heating value

() purchase steam from another nearby facility

(c) Would your combustion units likely stop combusting these non-fossil or other materials if continuing to burn these materials would result in the unit being subject to 129 instead of 112? (Y/N)

If you fire more than one type of non-fossil or other* fuel/material at your facility, repeat questions 11 and 12 for each non-fossil or other* fuel/material.

13. What additional annualized costs would you incur to comply with Section 129 CISWI rule (40 CFR Part 60 Subpart CCCC) as compared to the vacated Boiler MACT? (Check appropriate cost range, and provide note on cost components evaluated).

a. () $0 to $50,000 (

() $50,001 to $100,000

() $100,001 to $500,000

() $500,001 to $1,000,000

() >$1,000,000

b. Indicate the cost components evaluated in your cost estimate above: __________________________________________________________________

II.A Design, Operation, Air Pollution Control Device, and Emission Data for Small Gas-Fired* Boilers or Process Heaters

1. Please provide a brief inventory of each similar group of small natural gas fired boilers:

   1. Enter the number of natural-gas fired boilers less than or equal to 10 million Btu/hr (mmBtu/hr) design capacity? _____

2. Please classify any tune-up practices performed on this group of boilers along with the corresponding frequency (i.e., daily, monthly, quarterly, semiannually, annually, every two years, every five years or longer). Tune-up practices include activities that involve checking the unit’s combustion processes and adjusting as needed:

() using the scheduled tune-up and procedures provided by the boiler manufacturer

() Inspection and cleaning, as necessary, of fireside and water-side surfaces.

() Inspecting, cleaning and/or reconditioning of fuel systems.

() Checking all electrical and combustion control systems.

() Testing of exhaust gases (CO, CO₂, other) as necessary to calculate combustion efficiency and make necessary adjustments to the combustion system. If this option is checked, indicate what level the CO is adjusted to: _______________

() Inspection and repair of all valves (relief, safety, hydraulic, pneumatic, etc.).

() Inspection and repair of refractories.

() Cleaning and inspecting fan housing, blades, and inlet screens.

() Cleaning/reconditioning and inspecting the feedwater system.

3. Please classify any good combustion practices performed on this group of boilers, along with the corresponding frequency (i.e., daily, monthly, quarterly, semiannually, annually, every two years, every five years or longer) of each practice:

() Using up to date operating procedures, training, recordkeeping

() Maintenance knowledge (including training on applicable equipment and procedures)

() Maintenance practices including maintenance procedures and recordkeeping

() Fuel/air ratio periodic checks

() Automatic O2/CO trim control systems

() Monitoring furnace residence time and temperature

() Fuel quality and proper fuel handling (including monitoring quality, periodic sampling and analysis, fuel supplier certification, if used)

() Proper fuel distribution in the combustion zone

() Combustion air distribution based on observations with periodic or continuous adjustments

() Low NOx burners

4. If any of these boilers are subject to a CO limit, please provide the numerical limit with units.

CO numerical limit _________

Fuel associated with numerical limit (select from list)_ _______

Corresponding Averaging Time (i.e., 30-day rolling average, hourly, other) for CO limit: ______

Corresponding O2 concentration (if applicable) ____

Corresponding CO2 concentration (if applicable)____

CO limit units ______

2. Please provide a brief inventory of each similar group of small natural gas fired process heaters:

   1. Enter the number of natural-gas fired process heaters less than or equal to 10 million Btu/hr (mmBtu/hr) design capacity? _____

2. Please classify any tune-up practices performed on this group of process heaters along with the corresponding frequency (i.e., daily, monthly, quarterly, semiannually, annually, every two years, every five years or longer). Tune-up practices include activities that involve checking the unit’s combustion processes and adjusting as needed:

() using the scheduled tune-up and procedures provided by the boiler manufacturer

() Inspection and cleaning, as necessary, of fireside and water-side surfaces.

() Inspecting, cleaning and/or reconditioning of fuel systems.

() Checking all electrical and combustion control systems.

() Testing of exhaust gases (CO, CO₂, other) as necessary to calculate combustion efficiency and make necessary adjustments to the combustion system. If this option is checked, indicate what level the CO is adjusted to: _______________

() Inspection and repair of all valves (relief, safety, hydraulic, pneumatic, etc.).

() Inspection and repair of refractories.

() Cleaning and inspecting fan housing, blades, and inlet screens.

() Cleaning/reconditioning and inspecting the feedwater system.

3. Please classify any good combustion practices performed on this group of process heaters, along with the corresponding frequency (i.e., daily, monthly, quarterly, semiannually, annually, every two years, every five years or longer) of each practice:

() Using up to date operating procedures, training, recordkeeping

() Maintenance knowledge (including training on applicable equipment and procedures)

() Maintenance practices including maintenance procedures and recordkeeping

() Fuel/air ratio periodic checks

() Automatic O2/CO trim control systems

() Monitoring furnace residence time and temperature

() Fuel quality and proper fuel handling (including monitoring quality, periodic sampling and analysis, fuel supplier certification, if used)

() Proper fuel distribution in the combustion zone

() Combustion air distribution based on observations with periodic or continuous adjustments

() Low NOx burners

4. If any of these process heaters are subject to a CO limit, please provide the numerical limit with units.

CO numerical limit _________

Fuel associated with numerical limit (select from list_ _______

Corresponding Averaging Time (i.e., 30-day rolling average, hourly, other) for CO limit: ______

Corresponding O2 concentration (if applicable) ____

Corresponding CO2 concentration (if applicable)____

CO limit units ______

2. For each small gas-fired* combustion unit, provide the results of the most recent stack test data for each of the pollutants listed in the emission test spreadsheet by completing the spreadsheet linked below. EPA is not requesting actual test reports at this time; however we reserve the right to request actual copies in the future. EPA will also accept other supporting emission test data to document any earlier emission tests on the unit with similar controls and fuels. You may also submit a spreadsheet of any other information available relative to trials or tests of emission control methods or R&D efforts. The Agency is requesting these data only as they may already be available; no additional sampling or analyses are required to provide these data. [INSERT LINK to NATURAL GAS EMISSIONS TEST SPREADSHEET]

Provide the daily averages of continuous emissions monitor (CEM) data for CO, O2, CO2, if available for the most recent 30 days of operation, and the highest single data point within the most recent calendar year of CEM data. You should exclude data from the averages if they are from periods of start-up, shutdown, or malfunctions. You can submit this data by completing the CEM data spreadsheet linked below. [INSERT LINK to NATURAL GAS CEM TEST SPREADSHEET]

3. Do you have any non-natural gas fired combustion units at your facility? Y/N

If no, you are done with the survey. Please review your answers and submit your response to EPA by the deadline listed in the Section 114 letter.

Part II.B Unit Design, Operation, and Air Pollution Control Device Data for non-natural gas* boilers and process heaters

1. General Information

Facility Name: (pass through data from Part I)

1. Combustion device ID:_____

2. Year built: _______

3. Design capacity (heat input) value: _______

4. Fuel type associated with design capacity (heat input) value (select from list): _____

5. Design capacity units (select one): (insert list)

6. Furnace heat release rate (Btu/ ft³): ________

7. Is unit subject to NSPS? Yes/No

8. If you indicated yes to question g, indicate the year of NSPS:

()1971

()1984/1986

()1989

() 1997

() 2006

9. Primary combustion device use (check all that apply):

() steam generation

() space heat

() process heat

() electricity generation

() waste incineration

() cogeneration

() Other (please explain): _______________________

j. Additional combustion device uses (select all that apply):

() steam generation

() space heat

() process heat

() electricity generation

() waste incineration

() cogeneration

() Other (please explain): _______________________

k. For boilers only, check all that apply (several may apply to your unit):

k.1 Erection Design

() Package (shop erected)

() Field Erected

() Modular (part shop erected and part field erected)

k.2 Unit Design

() Water tube

() Fire tube

() Hybrid (if hybrid is selected, check the appropriate subtype)

() main combustion zone design is watertube

() main combustion zone design is firetube

k.3 Suspension Firing

() tangential

() wall-fired

() combination of suspension firing and grate firing (i.e., oil and bark)

() other (please explain)

l. For solid-fuel* boilers only, check all that apply (several may apply to your unit):

c. Manufacturer: ____________________________________________________________

d. Model Number: ___________________________________________________________

e. Installation Date: _________________________________________________________

f. Dates/descriptions of major renovations: _______________________________________

g. Design Capacity (tons waste per day): __________________________________________

h1. Typical Hours Operated, Per Year: _________________

h2. Per day: ___________________

2. Air Pollution Control Device and Equipment Modifications Information

Repeat this section for each control device or equipment modification made to the incinerator.

(a) Is your incinerator equipped with an air pollution control device (e.g. wet scrubber, fabric filter, electrostatic precipitator)? If yes, please specify the type and provide any details as specified below for each control device:

a1. Type: ___________________________________________________________________

a2. Year Installed: ____________________________________________________________

a3. Manufacturer: _____________________________________________________________

a4. Model No.: _______________________________________________________________

a5. Percent of incinerator operating time that control device is operated: _________________ %

a6. Control device air flow capacity (typically in acfm): ______________________________

a7. Date control device(s) were last modified, repaired, or rebuilt: ______________________

a8. Annual hours of control device downtime for repairs and maintenance: _______________

a9. Is control device shared with other equipment? (Y/N) If yes, please identify the other equipment that is routed to the same control device: ___________________________________________________________________________

b1. What were the installed capital costs of the control device? ($, year)____________________

b2. What are the annual operating costs?($, year)___________________________________

(c) If your unit is equipped with a control device, please list the applicable operating parameters: c1. Wet scrubber pressure drop (in. H₂O): ___________

c2. Fabric filter air-to-cloth ratio: __________________

c3. Other: _____________________________________

c. If you have made modifications to the incinerator(s) to reduce emissions:

c1. When were the modifications made?_______________________________________

c2. Briefly describe the type of modifications?_________________________________

c3. Do you have information on the costs of the modifications? Y/N _________

(If you answered “Yes”, please attach copy of cost information)

3. Waste Segregation or Recycling Practices

a. Does the facility currently employ waste segregation or recycling practices that reduce the volume of waste being incinerated? Y/N (if no, skip to question 4)

b. When were waste segregation practices begun? (month, year) ____________________________

c. What types of materials are segregated from the waste stream? (please check all that apply)

d. What is done with the materials that are segregated from the waste stream? __________________________________________________________________________

e. Estimate the current cost of your waste segregation/recycling program (please indicate whether cost estimate is on an annual basis, monthly basis, or other).

__________________________________________________________________________

f. Do you have any emissions test data that would show the effects of segregating materials from the waste stream (e.g., test data before and after waste segregation practices began)? Y/N

If yes, please attach complete copies of the test reports and any analyses of the impact of waste segregation on emissions.

4. Emission Test Data

a. Has emissions testing ever been conducted on this unit(s): Y/N _______

b. If so, please provide complete copies of the test reports that document all emission testing that has been conducted in the last 10 years. You may provide electronic versions of the test reports in lieu of attaching paper copies.

5. Do you have another incinerator unit you need to add to this survey? Y/N (If Yes, repeat part IV for another unit. Otherwise you are done with the survey. Please review your answers and submit your response to EPA by the deadline listed in the Section 114 letter).

Draft Definitions for Questionnaire

Definitions:

1. For purposes of this survey, combustion units are the following devices:

Boiler means an enclosed device using controlled flame combustion and having the primary purpose of recovering thermal energy in the form of steam or hot water. Waste heat boilers are excluded from this definition.

Process heater means an enclosed device using controlled flame, that is not a boiler, and the unit’s primary purpose is to transfer heat indirectly to a process material (liquid, gas, or solid) or to a heat transfer material for use in a process unit, instead of generating steam. Process heaters are devices in which the combustion gases do not directly come into contact with process materials. Process heaters do not include units used for comfort heat or space heat, food preparation for on-site consumption, or autoclaves.

Any other combustion unit combusting non-fossil fuel/material whether covered under another MACT standard or not.

Incinerator refers to a combustion unit with the primary purpose of destroying matter and/or reducing the volume of the materials and is neither a boiler or process heater.

2. Small gas-fired boilers or process heaters mean boilers or process heaters that have a heat input capacity less than 10 mmBtu/hr that: (1) burn natural gas, propane, liquefied petroleum gas (LPG), or refinery gas not combined with any other fuels; (2) if a unit burns distillate liquid fuel only during periods of gas curtailment, gas supply emergencies, or for periodic testing of liquid fuel and the periodic testing of liquid fuel does not to exceed a combined total of 48 hours during any calendar year, this unit is still a gas-fired boiler for the purpose of this survey.

3. On-site means the fuel/material generated from a process located at the facility. Off-site means either a raw material or other material generated from a process not located at the same facility as the combustion unit.

4. Major sources are those plant sites with the potential to emit 10 tons per year (tpy) of any one hazardous air pollutant (HAP) or 25 tpy of a combination of HAPs. Section 112(b) of the Clean Air Act Amendments contains the list of HAPs.

5. Small Entity is defined as follows:

(1) for Private Businesses it is determined for each NAICS of the owning entity based on number of employees and/or company revenue. Please see http://www.sba.gov/idc/groups/public/documents/sba_homepage/serv_sstd_tablepdf.pdf to evaluate the small entity status of your facility;

(2) for local government entities, such as a city, county, town, school district or special district with a population of less than 50,000; and

(3) for not-for-profits an organization that is independently owned and operated and is not dominant in its field.

6. Solid fuel fired units are any boilers or process heaters that fire solid fuel alone or in conjunction with other fuel types

7. Seasonal operation indicates an operating pattern that varies heat input demand depending on time of year, but follows the same pattern annually.

8. Seasonal average is the mean value of number (emission rate or operating parameter) over an entire operating season. For example, if bagasse is fired 120 days per year, 24 hours per day, the seasonal average heat input rate would be the average of all the heat input rates during the 120 day period.

9. Start-up means the setting in operation of an affected combustion unit for any purpose. Start-up fuel does not apply to stabilization fuels. You should include stabilization fuels as part of your response to questions II.C.2 and II.C.3.

10. Non-fossil or other fuel/material is defined as any material that is not coal, fuel oil, or natural gas, or derived from coal (i.e., waste coal, coal refuse (culm, gob, coal tar), oil, or natural gas. For illustrative purposes only, EPA has provided a detailed (though not extensive) list of non-fossil fuels. This definition or list does not represent or imply any regulatory definition of non-fossil fuel.

Non-Fossil Fuel/Material
Acetone: New and Used Solvent	Glycerol Distillation Byproduct	Red oil (steam stripper steam condensate, incl terpenes, terpenoids, methanol, TRS)
Agricultural Residue	Hardboard Dust	Refuse
Agricultural Residue: Corn Fiber	Hardboard Residues	Refuse derived fuel (RDF)
Agricultural Residue: Corn Gluten Feed	Heavy Recycle	Reinjection char
Agricultural Residue: Corn Mill Dryer Off-gas	High Caustic Fuel	Reprocessed oil
Agricultural Residue: Corn Starch Residue	Hog fuel: Hardwood	Resin Solid
Agricultural Residue: Corn Stover	Hog fuel: Softwood	Restaurant oils & greases
Agricultural Residue: Cotton And Corn	Hog fuel: Urban	Sander Dust
Agricultural Residue: Cotton Gin Residue	Hydro Pulper Refuse	Sawdust
Agricultural Residue: Cotton Stalks	Industrial Plastics	Sawmill scrap
Agricultural Residue: Cottonseed Hulls	Ink Solvents	Scrap X-Ray Film
Agriculture Residue: Almond Shells	Knots and Knotter Rejects	Screen rejects
Agriculture Residue: Almond Tree Prunings	Laminate Production Scrap Dust	Sewage gas
Agriculture Residue: Barley dust and chaff	Lamination Finishing Plant Residue	Sewage Sludge
Agriculture Residue: Barley Needles	Lamination Plant Residue	Shredded cloth
Agriculture Residue: Fruit Pits	Landfill Gas	Silvicultural wood
Agriculture Residue: Nut Shells	Latex Paint Water	Sludge
Agriculture Residue: Oat Hulls	Light weight Asphalt	Solid paraffin
Agriculture Residue: Olive cake	Lignin	Solvents
Agriculture Residue: Olive kernel	Liquefied Chicken Fat	Spent Coffee Grounds
Agriculture Residue: Orchard Prunings	Log yard Cleanup	Spent Oxide
Agriculture Residue: Pecan hulls	Low carbonate corn fiber (LCCF)	Stripper condensate
Agriculture Residue: Post harvest biomass residues	Lumber Refuse (hogged pallet boards/other non-treated scrap)	Sulfur Free Organic Byproduct
Agriculture Residue: Rice Hulls	Malt Sprouts	Sunwax- Diatomaceous earth with sunflower oil wax
Agriculture Residue: Soybean Hulls	Manure	Tall oil, tall oil derivatives
Agriculture Residue: Straw	Manure, bedding and yard residues	Tallow
Agriculture Residue: Straw	Mechanical Pulp Mill Rejects	Tar
Agriculture Residue: Sunflower Hulls	Medium Density Fiber Board Sander Dust	Tire Chips
Agriculture Residue: Sunflower husks	Medium Density Fiber Board Trim (some with water based primer)	Tire Derived Fuel (TDF)
Agriculture Residue: Sunflower Pellets	Mill feed	Tires (whole)
Agriculture Residue: Switchgrass	Mill trash	Toluene
Agriculture Residue: Wheat fiber (WF)	Mixed liquid residues	Toluene
Alcohol: Ethanol	Mixed wood residues	Turkey brood woodwaste
Alcohol: Solvent	Neutralene	Turpentine
Animal Fats	Noncondensable Gas (includes stripper offgas)	Used Alcohol
Bagasse	Nonhalogenated Solvent	Used #6 Oil
Bio liquids	Nonhazardous byproduct solvent	Used Gear Oil
Biogas (Excluding Sewage Sludge)	Oil Booms	Used hydraulic oil
Biomass	Oil Residues/excesses/byproducts -- #6, asphalts	Used Lube Oil
Bitumen	Oil Seed (Rape, Canola, Corn, Beans)	Used Motor Oil
Black Liquor	Oil Spill cleanup Residues	Used Oil
Blast Furnace Gas	Oily rags	Used thermal oil
Blond Fiber	Old Corrugate Cardboard (OCC) scraps	Vegetable oil
Boiler ash	Old corrugated container rejects	Virgin Hydraulic Scrap
Cardboard	Oriented strand board trim/dry residuals	Waste Derived Liquid Fuel
Carpet Scrap	Other biomass	Wastewater Treatment Residuals
Char	Other: Please Explain	Wax and cellophane wrapper and packaging trimmings
Coal Tar Oil	Paint Rags	Wood
Coal Tar plus soil	Paint residues	Wood: Bark
Coating Residues	Palm oil plantation byproducts (palm kernel exfoliate, fiber, shell, EFB)	Wood: Briquettes
Coating Sludge	Paper	Wood: char
Coke Oven Gas	Paper broke	Wood: Chips
Composite Water	Paper Byproducts: knots and paper fines	Wood: chips- old
Compressed Paper	Paper cores	Wood: Hardwood chipping and residues
Construction/Demolition Derived Material	Paper- office waste	Wood: Hardwood pellets (hammer-milled, dried, pelletized - sold as fuel)
Cotton Stalks	Paper wrapper and packaging trimmings	Wood: Hogged Bark
Crankcase Oil	Particle Board sander dust	Wood: Laminated
Deinking residuals	Particle Board trim	Wood: Mixed
Dewatered combustible residues	Paunch Manure	Wood: Pallets
Diaper scraps	Peat	Wood: Pellets
Digester Gas	Petroleum Distillation Solvent	Wood: Pitch
Distiller Grains (DG)	Petroleum Refining Scrap Oil	Wood: Pitch/wood waste
Distiller Grains Stillage (DGS)	Pine tar	Wood: Plywood trim
Distiller Wet Grains (DWG)	Poultry litter	Wood: Shavings
Dried Distiller Grains with Solubles (DDGs)	Process derived liquid fuel	Wood: Silvicultural
Dry Distiller Grains (DDG)	Process Gas	Wood: unadulterated hardwood
Engineered Wood Plant Scrap	Pulp liquor	Wood: unadulterated softwood
Envirofuel Pellets	Pulp Mill Gas	Wood: waste-clean
Filters	Railroad Ties	Wood: Whole Tree Chips
Foam Residues	Railroad Ties Chipped	Wood: Whole tree chips/harvest residue
Fuel cubes (paper diaper clippings/refuse)	Reclaimed Ink Solvent	Wood: chips- fines
Fuel Oil Solids (tank clean out residue)	Recovered Gaseous Butane	Woodex Pellets
Fume Filter Oil	Rectified methanol	Woodworking residuals (cabinet mfg)
Gluten fee pellets		Yellow grease (used cooking oils- sold as commercial fuel)

The public reporting and recordkeeping burden for this collection of information is estimated to average 24.2 hours per response. Send comments on the Agency's need for this information, the accuracy of the provided burden estimates, and any suggested methods for minimizing respondent burden, including through the use of automated collection techniques to the Director, Collection Strategies Division, U.S. Environmental Protection Agency (2822T), 1200 Pennsylvania Ave., NW, Washington, D.C. 20460. Include the OMB control number in any correspondence. Do not send the completed survey to this address.

File Type	application/msword
File Title	Draft Questionnaire Content for Public Comment
Author	Eastern Research Group
Last Modified By	OAQPS
File Modified	2008-04-23
File Created	2008-04-23