화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Korean Chemical Engineering Research, Vol.48, No.2, 129-139, April, 2010
Export Citation
분류층 습식 석탄가스화 기술
Entrained-Flow Coal Water Slurry Gasification
라호원, 이시훈, 윤상준, 최영찬, 김재호, 이재구
  • 한국에너지기술연구원 청정화석연료연구센터, 305-343 대전 유성구 장동 71-2
HoWon Ra, SeeHoon Lee, SangJun Yoon, YoungChan Choi, JaeHo Kim, and JaeGoo Lee
  • Clean Fossil Fuel Research Center, Korea Institute of Energy Research, 71-2 Jang-dong, Yuseong-gu, Daejeon 305-343, Korea
E-mail:
초록
석탄으로부터 수소, 일산화탄소 등의 가스 연료를 생산하기 위하여 개발된 석탄 가스화 공정은 이산화탄소 저장, 환경 유해 물질 저감 등의 우수성으로 인하여 최근 세계 각국에서 앞다투어 개발에 나서고 있다. 75 μm 이하의 미분탄을 이용하는 분류층 가스화 공정은 용량의 대형화가 쉽고, 에너지 전환 효율이 우수하여 석탄가스화복합발전(IGCC) 등에 널리 이용되고 있다. 특히 석탄슬러리를 원료로 사용하는 습식 분류층 가스화 공정은 기술적으로 성숙되어 가장 많이 보급되고 있다. 본 논문에서는 습식 분류층 가스화 공정을 이루는 석탄전처리, 버너, 가스화기, 슬래그용융, 가스화 운전 특성과 설계 및 해석을 위한 수치모사 등의 요소기술 개발 현황을 고찰하였다. 습식 석탄가스화는 IGCC 플랜트에서 뿐만 아니라 합성석유, SNG, 화학원료 제조용으로 활용될 수 있으며 융합 공정, 연료 다변화 등에 대응하기 위하여 요소기술별 추가적인 기술개발이 이루어져야 할 것으로 판단된다.
Coal gasification process, which had developed originally to convert coal from hydrogen and carbon monoxide, has used and developed in many countries because of environmental advantages such as carbon dioxide storage, decrease of pollutants and so on. Generally entrained-flow gasification process using pulverized coal under 75 μm is used in Integrated Gas Combined Cycle(IGCC) because of easy scale up and high efficiency of energy conversion. Especially entrained-flow gasifers with coal water slurry have been used in many applications due to its fully developed technologies. In this paper, several technologies for coal-water slurry gasification that involves slurry preparation, burner, gasifier, slag melting and numerical simulation for plant design and operation were investigated. Entrained-flow gasification with coal water slurry can be used for synfuel production, SNG, chemicals as well as IGCC. To develop hybrid gasification process and use different types of coal, it is necessary to develop new technologies that will increase efficiency of the process.
Keywords:Entrained-Flow;Gasifier;Coal;Gasification
  1. Takematsu T, Maude C, “Coal Gasification for IGCC Power Generation,” IEACR/37, March (1991)
  2. http://www.gasification.org.
  3. Higman C, van der Burgt M, “Gasification,” Elsevier (2003)
  4. Knoef HAM, “Handbook Biomass Gasification,” Gasnet (2005)
  5. Kim SD, “Coal Utilization and Conversion Technologies,” Minumsa (1986)
  6. Yang SM, Park WH, HWAHAK KONGHAK, 17(4), 305 (1979)
  7. Ji PS, Park TJ, Kim JJ, Chem. Ind. Technol., 11(2), 76 (1993)
  8. Lee J, Lee S, Korean Ind. Chem. News, 11(1), 26 (2008)
  9. Senzou Y, et al., IHI Engineering Review, 25, 1 (1992)
  10. Roh NS, Sin DH, Kim GH, Energy Engg., 3, 130 (1994)
  11. Roh NS, Kim KH, Kim DC, HWAHAK KONGHAK, 33(3), 282 (1995)
  12. DeVault RF, Shiao SY, Warchol JJ, Vecci SJ, "Characterization of Coals for Slurryability,” Technical Paper, RDTPA 85-34, Babcock & Wilcox Co., 15. (1985)
  13. Ji Q, Hao A, Sun C, Wu J, “Coal Properties and Slurryability of Shenmu Coal,” Proc. of the 17th Int. Conf. on Coal Utilization & Slurry Technologies, Clearwater, Fla., April 28-May 1, 873-883 (1992)
  14. Al Taweel AM, Fadaly O, Kwak JCT, Proc. of the 35th Can. Chem. Eng. Conf. C. S. Ch. E., Ottawa, Ontario, 1, 266 (1985)
  15. Nishino J, Kiyama K, Seki M, J. Chem. Eng. Japan, 22, 162 (1989)
  16. Shuquan Z, Zuna W, “The Influence of Oxygen Functional Groups in Coal on CWS Characteristics,” Proc. of the 16th Int. Conf. on Coal & Slurry Technologies, Clearwater, Fla., April 22-25, 447-458 (1991)
  17. Roh NS, Sin DH, Kim GH, Kim DC, Energy Engg., 4, 163 (1995)
  18. Yoon SJ, Choi YC, Lee JG, Korean J. Chem. Eng., 26(5), 1259 (2009)
  19. Wilson WG, et al., Fuel Process. Technol., 15, 157 (1987)
  20. Aiuchi K, Moriyama R, Takeda S, Kitada S, Onozaki M, Katayama Y, Fuel Process. Technol., 88(4), 325 (2007)
  21. Kalmanovitch DP, Sanyal A, Williamson J, “A New Approach to Predicting the Slagging Propensity of a Coal Based on High Temperature Equilibria,” 3rd. International conference on slagging and fouling due to impurities in combustion gases, Cupper Mountain, Colorado, USA, 537-553 (1984)
  22. Ashizawa M, CRIEPI report EW90003 (1990)
  23. Hirato M, Ninomiya Y, Asami M, J. Fuel Society of Japan, 65, 670 (1986)
  24. Hurst HJ, Novak F, Patterson JH, “Prediction of Calcium Carbonate Needed for Successful Slag Tapping of Some Astralian Coals in a Slagging Gasifier,” 6th Australian Coal Science Conference, Newcastle, 222 (1994)
  25. Lee JG, Kim JH, Lee HJ, Park TJ, Kim SD, Kim JJ, Energy Engg., 4, 372 (1995)
  26. Watt JD, Fereday F, J. Inst. Fuel, 42, 99 (1969)
  27. Hoy HR, Robert AG, Wilkins DM, I.G.E.J., Comm., 672, 444 (1965)
  28. Riboud PV, Roux Y, Lucas D, Gaye H, Fachberichte Huttenpraxis Metallweiter Verarbeitung, 19, 859 (1981)
  29. Urbain G, Cambier F, Deletter M, Anseau MR, Trans. Brit. Ceramic Soc., 80, 35 (1981)
  30. Jung BJ, Schobert HH, Energy Fuel, 6, 387 (1992)
  31. Mills KC, “Slags - a Computer Program for Calculating Physio - Chemical Properties of Slags,” National Physical Laboratory, Teddington, UK (1991)
  32. Groen JC, Brooker DD, Welch PJ, Oh MS, Fuel Process. Technol., 56(1-2), 103 (1998)
  33. Kim HB, Oh M, Ceramics International, 34, 2107 (2008)
  34. Sowa W, “The Effect of Injector Design on the Performance of the Bringham Young University,” Ph.D. Thesis, Bringham Young University (1987)
  35. Sowa W, Fuel, 71, 593 (1992)
  36. Erdmann C, Liebner W, Schlichting H, IchemE Gasification, Noordwijk, The Netherlands, 8-10 April (2002)
  37. Toporov HP, Stadler H, Tschunko S, Forster M, Kneer R, Fuel, 88, 1269 (2009)
  38. Lee HJ, Park TJ, Kim JH, Lee JG, Ahn DH, Transactions of the KSME, 20, 1735 (1996)
  39. Yoon SJ, Choi YC, Hong JC, Ra HW, Lee JG, Korean Chem. Eng. Res., 46(3), 561 (2008)
  40. Choi YC, Liu XY, Park TJ, Kim JH, Lee JG, Fuel, 15, 2193 (2001)
  41. Choi YC, Li XY, Park TJ, Kim JH, Lee JG, Korean J. Chem. Eng., 18(3), 376 (2001)
  42. Liu XY, “Numerical Simulation of Coal Gasification,” Postdoc report, KIER (1999)
  43. Wen CY, Chaung T, “Entrained Coal Gasification Modeling," Indeng Chem process Des Dev 18. (1979)
  44. Brwon BW, Smoot LD, Smith PJ, Hedman PO, AIChe J, 34, 435 (1988)
  45. Watanabe H, Otaka M, Fuel, 85, 1935 (2006)
  46. Chui EH, et al., Energy Procedia, 1, 503 (2009)
  47. Jiradilok V, Gidaspow D, Breault RW, Shadle LJ, Guenther C, Shi SP, Chem. Eng. Sci., 63(8), 2135 (2008)
  48. Phillips J., “Gasification Combined Cycles 101”, 2005 GTC (2005)
  49. Bissett LA, “An Engineering Assessment of Entrainment Gasification", US DOE, MERC/R1-7812 (1978)
  50. Ryu SO, Kim JH, Lee HJ, Lee JG, Park TJ, Ahn DH, Park HY, Energy Engg., 6, 96 (1997)
  51. Park TJ, Kim JH, Lee JG, Hong JC, Kim YG, Choi YC, Energy Engg., 8, 553 (1999)
  52. Choi YC, Park TJ, Kim JH, Lee JG, Hong JC, Kim YG, Korean J. Chem. Eng., 18(4), 493 (2001)