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Search / Korean Journal of Chemical Engineering
HWAHAK KONGHAK,
Vol.36, No.5, 707-712, 1998
차아인산에 의한 모의 페액내 Pd분리
Separation of Pd from the Simulated Liquid Wastes by using Hypophosphorous Acid
권선길, 황두성, 정동용, 이일희, 유재형
차아인산을 이용하여 모의 폐액에 함유된 팔라듐을 선택적으로 환원 침전시키는 연구를 수행하여 얻은 결과는 다음과 같다. 팔라듐을 환원 침전시키기위해서는 차아인산 농도가 약0.03-1.0M, 질산농도가 약 1.0M, 정치시간이48시간 이내가 좋았다. 이 조건에서 팔라듐의 전율은 99% 이상이었으며, 공존원소인 로듐, 루테늄, 세슘, 니켈과 철들은 거의 침전되지 않았으나 스트론튬만이 약 25% 침전되었다. 그리고 팔라듐의 침전율은 차아인산 농도가 증가함에 따라 증가하고, 질산농도가 증가하면 감소하였다.
The separation of palladium from the simulated liquid wastes was experimentally examined in a reduction process with hypophosphorous acid. The obtained main esults were as follows : A favorable hypophosphorous acid concentration region was found to be from 0.03M to 1.0M. The appropriate nitric acid concentration was confirmed to be about 1.0M. The suitable stagnant time was found to be within 48 hours. The precipitation fraction of palladium in the simulated liquid wastes was determined to be over 99%. The precipitation fraction of other elements(Rh, Ru, Cs, Ni and Fe) in the simulated liquid wastes was extremely low, and that of Sr was about 25%. The precipitation fraction of palladium was improved with increasing hypopho- sphorous acid concentration and decreasing nitric acid concentration.
Keywords: Hypophosphorous Acid; Palladium; Reduction Process
[References]
  1. Jensen GA, PNL-SA-8358, 1980
  2. Jensen GA, PNL-SA-12972, 1985
  3. Mellinger GV, Jensen GA, PNL-4116, 1982
  4. Panesko JV, ARH-733, 1968
  5. Panesko JV, ARH-911, 1968
  6. Bush RP, Platinum Metals Rev., 35(4), 202, 1991
  7. Colvin CA, ARH-1346, 1969
  8. McDuffie HF, ORNL/TM-6654, 1979
  9. Harris DC, "Quantitative Chemical Analysis," 3rd ed., Freeman, W.H. and Company, San Francisco, 1982
  10. Schulz WW, Burger LL, Navratil JD, Bender KP, "Science and Technology of Tributyl Phosphate," Vol. III, 82-95, CRC Press, Inc., Florida, 1990
  11. Liljenzin JO, Persson G, Svantesson I, Wingefors S, Radiochim. Acta, 35, 155, 1984
  12. Liljenzin JO, Rydberg J, Skarnemak G, Sep. Sci. Technol., 15(4), 799, 1980
  13. Kondo Y, Kubota M, J. Nucl. Sci. Technol., 29(2), 140, 1992
  14. Naito K, Matsui T, Nakahira H, Kitagawa M, J. Nucl. Mater., 184, 30, 1991
  15. Rizvi GH, Mathur JN, Murali MS, Iyer RH, Sep. Sci. Technol., 31(13), 1805, 1996
  16. Motojima K, J. Nucl. Sci. Technol., 27(3), 262, 1990
  17. Weast RC, "CRC Handbook of Chemistry and Physics," 70th ed., D-151, CRC Press, Inc., Florida, 1989
  18. Rieger PH, "Electrochemistry," Prentice-Hall International, Inc., London, 1987
[Cited By]
  1. Lee EH, Kim KW, Chung DY, Kwon SG, Yoo JH, HWAHAK KONGHAK, 37(3), 439, 1999
  2. Lim JH, Yi GB, Suh KH, Lee JK, Kim YS, Chun HS, Korean Journal of Chemical Engineering, 16(6), 856, 1999
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