C. Rated and/or maximum capacity of each boiler, 106 B.t.u./hr. or kcal/hr. D. Types of fuel burned, quantities, and characteristics: 1. Type of each fuel used and place of origin. 2. Maximum and average quantity per hour. 3. Quantity per year. 6. Heat content (as received), B.t.u. or kcal/unit of measure. 7. Estimate of future usage, if available. E. Percent used for space heating and process heat. F. Air pollution control equipment (existing and proposed): 1. Type. 2. Collection efficiency (design and actual), percent. G. Stack data: 2. Location of stacks by grid coordinates (Universal Transverse Mercator, UTM, or equivalent).1 3. Stack height, feet or meters. 4. Stack diameter (inside, top), feet or meters. 5. Exit gas temperature, °F. or °C. 6. Exit gas velocity, feet/sec. or meters/ sec. H. Emission data: LOJSES) A. Process name or description of each product. B. Quantity of raw materials used and handled for each product, maximum quantity per hour, and average quantity per year. C. Quantity of each product manufactured, maximum quantity per hour, and average quantity per year. D. Description of annua., seasonal, monthly, weekly, and daily operating cycle including downtime for maintenance and repairs. E. Air pollution control equipment in use (existing and proposed): E. Air pollution control equipment in use (existing and proposed): 1. Type. 2. Collection efficiency (design and actual), percent. F. Stack data: 2. Location of stacks by grid location (UTM or equivalent).1 3. Stack height, feet or meters. 4. Stack diameter (inside, top), feet or meters. 5. Exit gas temperature, °F. or °C. 6. Exit gas velocity, feet/sec. or meters/ sec. G. Emission data: IV. SOLID WASTE DISPOSAL A. Amount and description of solid waste generated, quantity per year. B. Percent of total that is combustible. C. Method of disposal (on-site or offsite). D. Description of on-site disposal method, if applicable (incineration, open burning, landfill, etc.) including maximum quantities disposed per hour and average quantities disposed per year and actual operating schedule. 1. Location of the source by a grid system (UTM or equivalent).1 2. If method of disposal is by an incinerator, include the following information: a. Auxiliary fuel used. b. Air pollution control equipment (existing and proposed): (1) Type. (2) Collection efficiency (actual and design), percent. c. Stack data: (3) Stack diameter (inside, top), feet or meters. (4) Exit gas temperature, °F. or °C. (5) Exit gas velocity, feet/sec. or meters/ sec. (6) Exit gas moisture content, percent if available. 3. Emission data: a. Based on emission factors. b. Estimate of emissions by the source. c. Results of any stack tests conducted. APPENDIX F-AREA SOURCE DATA 1 (The following information is not required to be submitted with an implementation plan but must be available for inspection by the Administrator, EPA) Grid Coordinate (lower left-hand corner) --------- UTM or equivalent. Average Stack Height of sources --------.3 I. FUEL COMBUSTION-STATIONARY SOURCES Includes sulfur and ash content of fuels, if applicable). A. Residential Fuel: 1. Anthracite Coal (plus type and size of unit)—tons/year or metric tons/year. 1 Emissions data for all source categories and subcategories should be summarized in the implementation plans as is in Appendix D or G. 2 Data is required on a grid basis only when diffusion modeling is utilized. For proportional model technique, data must be available on a county basis. 3 Required only when diffusion modeling is utilized. 4 Average type and size for each category. This is used as the basis for selection of average emission factor. 1 Required only when diffusion modeling is utilized. 2. Bituminous Coal (plus type and size of unit)-tons/year or metric tons/year. 3. Distillate Oil (plus type and size of unit)—103 gal./year or 10 3 liters/year. 4. Residual Oil (plus type size of unit) 10 gal./year or 10 3 liters/year. 5. Natural Gas (plus type and size of unit)-106 cu. ft./year or 100 cu.-meters/ year. 6. Wood—tons/years or metric tons/year. 7. Other— please specify. B. Commercial and Institutional Fuel: 1. Anthracite Coal (plus type and size of unit)—tons/year or metric tons/year. 2. Bituminous Coal (plus type and size of unit)_tons/year or metric tons/year. 3. Distillate Oil (plus type and size of unit)—103 gal./year or 103 liters/year. 4. Residual Oil (plus type and size of unit)—103 gal./year or 103 liters/year. 5. Natural Gas (plus type and size of unit)—108 cu.-ft./year or 108 cu.-meters/year. 6. Wood_tons/year or metric tons/year. 7. Other—please specify. C. Industrial Fuel: 1. Anthracite Coal (plus type and size of unit)—tons/year or metric tons/year. 2. Bituminous coal (plus type and size of unit)—tons/year or metric tons/year. 3. Coke (plus type and size of unit)tons/year or metric tons/year. 4. Distillate Oil (plus type and size of unit)—103 gal./year or 103 liters/year. 5. Residual Oil (plus type and size of unit)--103 gal./year or 103 liters/year. 6. Natural Gas (plus type and size of unit)—108 cu.-ft./year or 108 cu.-meters/year. 7. Wood—tons/year or metric tons/year. 8. Other-please specify. II. PROCESS LOSSES (HYDROCARBONS ONLY) A. Surface coating operations, dry clean. ing, degreasing operations, etc., unless con sidered as point sources—appropriate basis for emission estimate. III. SOLID WASTE DISPOSAL A. On-site incineration (plus type of unit)—tons/year or metric tons/year. B. Open burning—tons/year or metric tons/year. C. Other-please specify. IV. TRANSPORTATION A. Gasoline-powered motor vehicles-appropriate basis for emission estimate, including hydrocarbon evaporative losses. B. Diesel-powered motor vehicles-appropriate basis for emission estimate. C. Off-highway fuel usage-103 gal./year or 103 liters/year. D. Aircraft-number of flights per year per type of aircraft. E. Railroads—103 gal. diesel oil/year or 108 liters/year. F. Vessels-103 gal, or 103 liters of oil/year, tons or metric tons of coal/year, or tons or metric tons of wood/year. G. Gasoline handling evaporative losses appropriate basis for hydrocarbon emission estimate from filling tank trucks, service station tanks, and automobile tanks. H. Other-please specify V. MISCELLANEOUS A. Forest fires appropriate basis for emission estimate. B. Structural fires-appropriate basis for emission estimate. C. Coal refuse burning-appropriate basis for emission estimate. D. Agricultural burning-appropriate basis for emission estimate. E. Other—please specify. APPENDIX G-(POLLUTANT) EMISSIONS INVENTORY SUMMARY. TONS/YR. (OR METRIC TONS/YR.) (REGIONS WHERE EMISSION LIMITATIONS ARE NOT DEVELOPED) i Included only if interstate region. iv For hydrocarbons only, would include emissions for surface coating operations, dry cleaning, degreasing operations, etc., unless considered point sources. For hydrocarbons would include vehicle evaporative losses and losses from filling trucks, service station tanks, and automobile tanks. APPENDIX H-AIR QUALITY DATA SUMMARY Sampling Sampling site interval location 1 (months) Pollutant Particulate matter.. X=Date or information required. 1 UTM Grid coordinate or equivalent. APPENDIX I-PROJECTED MOTOR VEHICLE ing equation calculates the expected air quality concentration for any given year: where: in region. 1-3. F-Ratio of motor vehicle emissions to total emissions of each polin Reference 2. lutant in region. c. Urban vehicle-mile projections adapted GF=Ratio of emissions from nonmotor from Reference 3. vehicle sources in the future year of interest to the emissions from nonvehicle sources in the base year. This equation can be applied directly for carones) from Reference 5. bon monoxide. nitrogen dioxide (if all Figures 1-3 can be used to approximate air nitrogen oxides emissions are assumed to quality levels resulting from the Federal be measured as nitrogen dioxide), and nonMotor Vehicle Control Program. The follow methane hydrocarbons (assumes reduction in total hydrocarbon emissions will result in a REFERENCES 2. “Exhaust Emissions from Privately |