간척지, 해안가 근처의 농업용수 공급을 위한 기수담수 시스템 연구

  • 홍민 ((주)블루비에스 연구소)
  • Published : 2015.11.30

Abstract

Desalination technology is a process to remove salt from water. There are three classified In accordance with the concentration of salt The concentration of sea water 15,000~50,000mg/l, brackish water 1,500~15,000mg/l, desalination less than 500mg/l.. In general, salt to remove for using a pre-treatment UF filter, but this study is new pre-treatment technology RO Membrane process technology Suspended particulate matter is said most were treated at the pre-treatment equipment, wheat affluent particulate material was removed from the MF filter. Influent SS 16.2mg /l The treatment was effective in treatment 0.05mg /l of 99% is removed. COD is reduced to 60% in the pre-treatment device, after treatment was reduced to 30% RO membrane. Influent COD 10.2mg/l treatment was removed 1.9mg/l. The removal rate is 81.9%. Desalination removes the ionic substances in the RO Membrane. Influent EC $978.8{\mu}s/cm$ and treatment showed a result of $18.7{\mu}s/cm$.

Keywords

References

  1. 해수담수화 기술 및 사업 현황과 전망.
  2. 첨단기술정보분석 한국과학기술정보연구원 박병규.
  3. R.F.Service, Science, 313,1088 (2006). https://doi.org/10.1126/science.313.5790.1088
  4. S. Konagaya, H. Kuzumoto, and O. Watanabe, j Appl Polym.Sci, 75, 1357(2000). https://doi.org/10.1002/(SICI)1097-4628(20000314)75:11<1357::AID-APP6>3.0.CO;2-W
  5. 강신경, 문정기, 진상준, 김관엽, 이병준, 저에너지 역삼투 해수담수화 기술" RIST 연구논문 제 26권 1호, 2012.
  6. 이상호, 최준석, 최용준, " 조합화학을 이용한 에너지 회수용 정삼투 멤브레인 소재 개발" 한국건설기술연구원, Dec. 2008.
  7. 손원근, 김태일, 한혜정,강경석" 특허 및 논물 분석을 통한 축전식 탈엽(CDI) 기술연구" 한국화학공학회.
  8. 이진영, 이근우, 한명진, 박소진(2011), 폴리비닐리롤리돈 첨가제를 이용한 폴리설폰막의 제조 및 특성 분석, 공업화학, 22(3), pp. 277-285.
  9. 박주영, 김민정(2010), 셀룰로오스계 수지를 이용한 수처리용 중공사막의 제조방법, 출원번호 10-2010-0121169.
  10. P. F. Souter, G. D. Cruickshank, M. Z. Tankerville, B. H. Keswick, B. D. Ellis, D. E. Langworthy, K. A. Metz, M. R. Appleby, N. Hamilton, A. L. Jones and J. D. Perry(2003), Evaluation of a new water treatment for point-of-use household applications to remove microorganisms and arsenic from drinking water, J. Water Health, 01(2), pp. 73-84. https://doi.org/10.2166/wh.2003.0009
  11. 손혁상, 김남경(2013), 사회적 기업의 국제개발협력 참여 연구: 농업, 공정무역, 적정기술 사례분석, 한국세계지역학회, 31(1), pp. 81-108.
  12. H. M. Murphy, E. A. McBean and K. Farahbakhsh(2009), Appropriate technology - A comprehensive approach for water and sanitation in the developing world, Technology in Society, 31(2), pp. 158-167. https://doi.org/10.1016/j.techsoc.2009.03.010
  13. M. Peter-Varbanets, C. Zurbrugg, C. Swartz, W. Pronk(2009), Decentralized systems for potable water and the potential of membrane technology, Water Research, 43(2), pp. 245-265. https://doi.org/10.1016/j.watres.2008.10.030
  14. M. D. Sobsey, C. E. Stauber, L. M. Casanova, J. M. Brown and M. A. Elliott(2008), Point of use household drinking water filtration: A practical, effective solution for providing sustained access to safe drinking water in the developing world, Environmetal Science and Technology, 42(12), pp 4261-4267. https://doi.org/10.1021/es702746n
  15. A. M. Donald, E. J. Kramer(1982), Plastic deformantion mechanisms in poly(acrylonitrile-butadiene styrene) [ABS], Journal of Materals Science, 17, pp. 1765-1772. https://doi.org/10.1007/BF00540805
  16. 김정학, 성기영, 김진규(2013), 정수패치, 정수카트리지 및 이를 이용한 휴대용 정수장치, 출원번호 10-2013-0063536.
  17. 심홍섭, 이영무, 남상용, 최영옥(2009), 산업용 심층여과 카트리지 필터, 한국막학회. 19(3), pp. 173-182.
  18. 김상민(2012), 셀룰로오스 디아세테이트와 범용플라스틱의 친환경복합체 제조 및 물성 연구, 성균관대학교 석사학위논문.
  19. 환경부(2011), 먹는물 수질관리 지침.
  20. N. P. De Souza, O. D. Basu(2013), Comparative analysis of physicla cleaning operations for fouling control of hollow fiber membranes in drinking water treatment, Journal of Membrane Science, 436(1), pp. 28-35. https://doi.org/10.1016/j.memsci.2013.02.014
  21. M. Peter-Varbanets, R. Johnston, R. Meierhofer, F. Kage and W. Pronk(2011), Gravity-Driven membrane disinfection for household drinking water treatment, 35th WEDC International Conference, Loughborough, UK, pp.1-8.
  22. D. A. Rasko, M. J. Rosovitz, G. S. A. Myers, E. F. Mongodin, W. F. Fricke, P. Gajer, J. Crabtree, M. Sebaihia, N. R. Thomson, R. Chaudhuri, I. R. Henderson, V. Sperandio and J. Ravel(2008), The pangenome structure of Escherichia coli: comparative genomic analysis of E. coli commensal and pathogenic isolates, Journal of bacteriology, 190(20), pp. 6881-6893. https://doi.org/10.1128/JB.00619-08
  23. J. A. Skybergl, T. J. Johnson, J. R. Johnson, C. Clabot s, C. M. Logue and L . K. Nolan(2006), Acquisition of avian pathogenic Escherichia coli plasmids by a commensal E. coli isolate enhances its abilities to kill chicken embryos, grow in human urine, and colonize the murine kidney, Infection and Immunity, 74(11), pp. 6287-6292. https://doi.org/10.1128/IAI.00363-06