AP-42, CH 8.12: Sodium Carbonate, Study notes of English

Download AP-42, CH 8.12: Sodium Carbonate and more Study notes English in PDF only on Docsity! 8.12 Sodium Carbonate 8.12.1 General1-3 Sodium carbonate (Na2CO3), commonly referred to as soda ash, is one of the largest-volume mineral products in the U. S., with 1991 production of over 9 million megagrams (Mg) (10.2 million tons). Over 85 percent of this soda ash originates in Wyoming, with the remainder coming from Searles Valley, California. Soda ash is used mostly in the production of glass, chemicals, soaps, and detergents, and by consumers. Demand depends to great extent upon the price of, and environmental issues surrounding, caustic soda, which is interchangeable with soda ash in many uses and is widely coproduced with chlorine (see Section 8.11, "Chlor-Alkali"). 8.12.2 Process Description4-7 Soda ash may be manufactured synthetically or from naturally occurring raw materials such as ore. Only 1 U. S. facility recovers small quantities of Na2CO3 synthetically as a byproduct of cresylic acid production. Other synthetic processes include the Solvay process, which involves saturation of brine with ammonia (NH3) and carbon dioxide (CO2) gas, and the Japanese ammonium chloride (NH4Cl) coproduction process. Both of these synthetic processes generate ammonia emissions. Natural processes include the calcination of sodium bicarbonate (NaHCO3), or nahcolite, a naturally occurring ore found in vast quantities in Colorado. The 2 processes currently used to produce natural soda ash differ only in the recovery stage in primary treatment of the raw material used. The raw material for Wyoming soda ash is mined trona ore, while California soda ash comes from sodium carbonate-rich brine extracted from Searles Lake. There are 4 distinct methods used to mine the Wyoming trona ore: (1) solution mining, (2) room-and-pillar, (3) longwall, and (4) shortwall. In solution mining, dilute sodium hydroxide (NaOH), commonly called caustic soda, is injected into the trona to dissolve it. This solution is treated with CO2 gas in carbonation towers to convert the Na2CO3 in solution to NaHCO3, which precipitates and is filtered out. The crystals are again dissolved in water, precipitated with carbon dioxide, and filtered. The product is calcined to produce dense soda ash. Brine extracted from below Searles Lake in California is treated similarly. Blasting is used in the room-and-pillar, longwall, and shortwall methods. The conventional blasting agent is prilled ammonium nitrate (NH4NO3) and fuel oil, or ANFO (see Section 13.3, "Explosives Detonation"). Beneficiation is accomplished with either of 2 methods, called the sesquicarbonate and the monohydrate processes. In the sesquicarbonate process, shown schematically in Figure 8.12-1, trona ore is first dissolved in water (H2O) and then treated as brine. This liquid is filtered to remove insoluble impurities before the sodium sesquicarbonate (Na2CO3 NaHCO3 2H2O) is precipitated out using vacuum crystallizers. The result is centrifuged to remove remaining water, and can either be sold as a finished product or further calcined to yield soda ash of light to intermediate density. In the monohydrate process, shown schematically in Figure 8.12-2, crushed trona is calcined in a rotary kiln, yielding dense soda ash and carbon dioxide and water as byproducts. The calcined material is combined with water to allow settling out or filtering of impurities such as shale, and is then concentrated by triple-effect evaporators and/or mechanical vapor recompression crystallizers to precipitate sodium carbonate monohydrate (Na2CO3 H2O). Impurities 7/93 (Reformatted 1/95) Inorganic Chemical Industry 8.12-1 such as sodium chloride (NaCl) and sodium sulfate (Na2SO4) remain in solution. The crystals and Figure 8.12-1. Flow diagram for sesquicarbonate sodium carbonate processing. Figure 8.12-2. Flow diagram for monohydrate sodium carbonate processing. liquor are centrifuged, and the recovered crystals are calcined again to remove remaining water. The product must then be cooled, screened, and possibly bagged, before shipping. 8.12.3 Emissions And Controls The principal air emissions from the sodium carbonate production methods now used in the U. S. are particulate emissions from ore calciners; soda ash coolers and dryers; ore crushing, screening, and transporting operations; and product handling and shipping operations. Emissions of products of combustion, such as carbon monoxide, nitrogen oxides, sulfur dioxide, and carbon dioxide, occur from direct-fired process heating units such as ore calcining kilns and soda ash dryers. With the exception of carbon dioxide, which is suspected of contributing to global climate change, insufficient data are available to quantify these emissions with a reasonable level of confidence, but similar processes are addressed in various sections of Chapter 11 of AP-42, "Mineral Products Industry". Controlled emissions of filterable and total particulate matter from individual processes and process components are given in Tables 8.12-1 and 8.12-2. Uncontrolled emissions from these same processes are given in Table 8.12-3. No data quantifying emissions of organic condensable particulate matter from sodium carbonate manufacturing processes are available, but this portion of 8.12-2 EMISSION FACTORS (Reformatted 1/95) 7/93 Table 8.12-3 (Metric And English Units). UNCONTROLLED EMISSION FACTORS FOR PARTICULATE MATTER FROM SODIUM CARBONATE Nominal Control Efficiency (%) Totala Process kg/Mg Of Product lb/ton Of Product EMISSION FACTOR RATING Ore mining (SCC 3-01-023-99) 99.9 99.9 99.9 99.9 1.6 3.3 D Ore crushing and screening (SCC 3-01-023-99) 1.7 3.5 E Ore transfer (SCC 3-01-023-99) 0.1 0.2 E Monohydrate process: rotary ore calciner (SCC 3-01-023-04/05) 90 180 B Sesquicarbonate process: rotary calciner (SCC 3-01-023-99) 99 99 99 99 36 72 D Sesquicarbonate process: fluid-bed calciner (SCC 3-01-023-99) 2.1 4.3 D Rotary soda ash dryers (SCC 3-01-023-06) 25 50 E Fluid-bed soda ash dryers/coolers (SCC 3-01-023-07) 1.5 3.0 E Soda ash screening (SCC 3-01-023-99) 99.9 99.9 10 19 E Soda ash storage/loading and unloading (SCC 3-01-023-99) 2.6 5.2 E a Values for uncontrolled total particulate matter can be assumed to include filterable particulate and both organic and inorganic condensable particulate. For processes operating at significantly greater than ambient temperatures, these factors have been calculated by applying the nominal control efficiency to the controlled (as-measured) filterable particulate emission factors above. SCC = Source Classification Code. Table 8.12-4 (Metric And English Units). UNCONTROLLED EMISSION FACTORS FOR CARBON DIOXIDE FROM SODIUM CARBONATE PRODUCTIONa EMISSION FACTOR RATING: E Emissions Process kg/Mg Of Product lb/ton Of Product Monohydrate process: rotary ore calciner (SCC 3-01-023-04/05) Sesquicarbonate process: rotary calciner (SCC 3-01-023-99) Sesquicarbonate process: fluid-bed calciner (SCC 3-01-023-99) Rotary soda ash dryers (SCC 3-01-023-06) 200 150 90 63 400 310 180 130 a Factors are derived from analyses during emission tests for criteria pollutants, rather than from fuel analyses and material balances. SCC = Source Classification Code. References 8-26. 7/93 (Reformatted 1/95) Inorganic Chemical Industry 8.12-5 References For Section 8.12 1. D. S. Kostick, "Soda Ash", Mineral Commodity Summaries 1992, U. S. Department Of The Interior, 1992. 2. D. S. Kostick, "Soda Ash", Minerals Yearbook 1989, Volume I: Metals And Minerals, U. S. Department Of The Interior, 1990. 3. Directory Of Chemical Producers: United States of America, 1990, SRI International, Menlo Park, CA, 1990. 4. L. Gribovicz, "FY 91 Annual Inspection Report: FMC-Wyoming Corporation, Westvaco Soda Ash Refinery", Wyoming Department Of Environmental Quality, Cheyenne, WY, 11 June 1991. 5. L. Gribovicz, "FY 92 Annual Inspection Report: General Chemical Partners, Green River Works", Wyoming Department Of Environmental Quality, Cheyenne, WY, 16 September 1991. 6. L. Gribovicz, "FY 92 Annual Inspection Report: Rhône-Poulenc Chemical Company, Big Island Mine and Refinery", Wyoming Department Of Environmental Quality, Cheyenne, WY, 17 December 1991. 7. L. Gribovicz, 91 Annual Inspection Report: Texasgulf Chemical Company, Granger Trona Mine & Soda Ash Refinery", Wyoming Department Of Environmental Quality, Cheyenne, WY, 15 July 1991. 8. "Stack Emissions Survey: General Chemical, Soda Ash Plant, Green River, Wyoming", Western Environmental Services And Testing, Inc., Casper, WY, February 1988. 9. "Stack Emissions Survey: General Chemical, Soda Ash Plant, Green River, Wyoming", Western Environmental Services And Testing, Inc., Casper, WY, November 1989. 10. "Rhône-Poulenc Wyoming Co. Particulate Emission Compliance Program", TRC Environmental Measurements Division, Englewood, CO, 21 May 1990. 11. "Rhône-Poulenc Wyoming Co. Particulate Emission Compliance Program", TRC Environmental Measurements Division, Englewood, CO, 6 July 1990. 12. "Stack Emissions Survey: FMC-Wyoming Corporation, Green River, Wyoming", FMC-Wyoming Corporation, Green River, WY, October 1990. 13. "Stack Emissions Survey: FMC-Wyoming Corporation, Green River, Wyoming", FMC-Wyoming Corporation, Green River, WY, February 1991. 14. "Stack Emissions Survey: FMC-Wyoming Corporation, Green River, Wyoming", FMC-Wyoming Corporation, Green River, WY, January 1991. 15. "Stack Emissions Survey: FMC-Wyoming Corporation, Green River, Wyoming", FMC-Wyoming Corporation, Green River, WY, October 1990. 8.12-6 EMISSION FACTORS (Reformatted 1/95) 7/93 16. "Compliance Test Report: FMC-Wyoming Corporation, Green River, Wyoming", FMC-Wyoming Corporation, Green River, WY, 6 June 1988. 17. "Compliance Test Report: FMC-Wyoming Corporation, Green River, Wyoming", FMC- Wyoming Corporation, Green River, WY, 24 May 1988. 18. "Compliance Test Report: FMC-Wyoming Corporation, Green River, Wyoming", FMC- Wyoming Corporation, Green River, WY, 28 August 1985. 19. "Stack Emissions Survey: FMC-Wyoming Corporation, Green River, Wyoming", FMC- Wyoming Corporation, Green River, WY, December 1990. 20. "Emission Measurement Test Report Of GR3A Crusher", The Emission Measurement People, Inc., Cañon City, CO, 16 October 1990. 21. "Stack Emissions Survey: TG Soda Ash, Inc., Granger, Wyoming", Western Environmental Services And Testing, Inc., Casper, WY, August 1989. 22. "Compliance Test Reports", Tenneco Minerals, Green River, WY, 30 November 1983. 23. "Compliance Test Reports", Tenneco Minerals, Green River, WY, 8 November 1983. 24. "Particulate Stack Sampling Reports", Texasgulf, Inc., Granger, WY, October 1977 — September 1978. 25. "Fluid Bed Dryer Emissions Certification Report", Texasgulf Chemicals Co., Granger, WY, 18 February 1985. 26. "Stack Emissions Survey: General Chemical, Soda Ash Plant, Green River, Wyoming", Western Environmental Services And Testing, Inc., Casper, WY, May 1987. 7/93 (Reformatted 1/95) Inorganic Chemical Industry 8.12-7