About The Journal
  Aims and Scope
  Editorial Board
  Submit a Manuscript 
  Subscription Information
Articles & Issues
  Issue
  Search
For Authors
  Instructions to Authors
  Ethics in Publishing
  Peer Review Process
  Author's Checklist
  Copyright Transfer Form
Contact us
 
 
 
 
Search / Korean Journal of Chemical Engineering
HWAHAK KONGHAK,
Vol.34, No.5, 548-555, 1996
분무 열분해법에 의한 γ-LiAlO2 분체합성
Synthesis of γ-LiAlO2 Powders by Spray Pyrolysis
이승길, 이전희, 설용건, 현상훈
본 실험에서는 용융탄산염 연료전지의 안정한 matrix의 물질로서 사용되는 구형의 γ- LiAlO2 입자를 분무 열분해법을 이용하여 0.1-2μm 크기로 합성하였다. 분무 열분해법으로 합성한 LiAlO2 분체는 600℃에서 전구체가 형성된 후 800℃에서 완전한 γ-LiAlO2 상이 형성되었다. 분무압이 0.2atm에서 0.5atm으로 증가함에 따라 액적의 크기는 18μm에서 13.4μm로 감소하였다. 초기용액 농도의 감소(0.77-0.01 mol/l)는 선형적으로 입자의 크기를 감소(2.3-0.25μm)시겼으며, 입자 크기분포는 좁아졌다.
In this experiment, spherical γ-LiAlO2 powder which is used molten carbo- nate fuel cells as stable matrix material for the molten carbonate electrolyte was synthesized in the size of 0.1-2μm by spray pyrolysis method. Spray pyrolyzed powder started to form γ-LiAlO2 phase at 600℃ and the phase transformation of γ-LiAlO2 was completed at 800℃. Surface area of this samples was higher than that of commercialized samples. As jet pressure of the air increased from 0.2 atm to 0.5 atm, droplet size of the starting material decreased from 18μm to 13.4μm. Decrease in concentration of starting ma- terials(0.77-0.01 mol/ι) caused linear decrease in the mean particle size and size distribution of particles became narrowed.
Keywords: γ-LiAlO2; MCFC; Spray Pyrolysis; Powder; Morphology
[References]
  1. Kinoshita K, McLarnon RF, Calins EJ, "Fuel Cells a Handbook," DOE/METC-88/6096, U.S. Department of Energy, 1988
  2. Maru HC, Paetsch L, Pigeaud A, "Review of Molten Carbonate Cell Matrix Technology," Proc. of the Symp. on MCFC Tech., 84(13), 2, 1984
  3. Finn PA, J. Electrochem. Soc., 127(1), 236, 1980
  4. Singh P, Benedict M, U.S. Patent, 4,659,379, 1987
  5. Spronson DW, Messing GC, J. Am. Ceram. Soc., 67(5), C92, 1984
  6. Roy DM, Neurgaonkar RR, O'holleran TP, Roy R, Am. Chem. Soc. Bull., 56, 1023, 1977
  7. Maru HC, Farooque M, Pegeaud A, The 2nd Symp. on MCFC Tech., 1990
  8. May KR, J. Sci. Instruments, 27, 128, 1950
  9. May KR, J. Sci. Instruments, 22, 187, 1945
  10. Yano T, Nonaka K, Saito K, Otsuka N, Yogyo-Kyogai-Shi, 95(2), 111, 1987
  11. Gardener TJ, Messing GL, J. Am. Ceram. Soc., 63(12), 1498, 1984
  12. Liu TQ, Sakurai O, Kato M, Muzutani M, Ceram. Jpn., 98(1), 71, 1990
  13. Ishixzawa H, Sakurai O, Mizutami N, Kato M, J. Am. Ceram. Soc., 65(10), 1399, 1986
  14. Sotouchi H, Watanabe Y, Kobatashi T, Murai M, J. Electrochem. Soc., 139(4), 1127, 1992
  15. Ravindranathan P, Komarneni S, Roy R, J. Mater. Sci. Lett., 12, 369, 1993
  16. Messing GL, Shichang Z, Jayanthi GV, J. Am. Ceram. Soc., 76(11), 2707, 1993
  17. Niesel ML, Ultrafine Particles, 181, 1963
  18. Kato A, 분체 및 분말야금, 24(8), 219, 1977
  19. 김동준, "에멀젼·분무 열분해법에 의한 Al2O3-ZrO2 복합분체의 제조," 연세대 석사학위 논문, 1989
  20. 박찬욱, "분무 열분해법에 의한 MgO-Al2O3-SiO2계 화합물의 분체합성 및 그 소결성에 관한 연구," 연세대 박사학위 논문, 1988
  21. Luz MC, Jaime JB, Pedro B, Silvia B, J. Am. Ceram. Soc., 78(4), 933, 1995
참고문헌정보(참고문헌, 인용문헌)는 화학공학소재연구정보센터에 의해 제공되고 있습니다.