섬유여재를 충진한 고속여과장치에 의한 입자상 오염물질 처리에 관한 연구 = Reduction of Particulate Matter by High Speed Filter Using Synthetic Fiber

박기수 2016년

활용도
공유도
영향력

논문상세정보

- 저자 박기수
- 형태사항 174: 26 cm
- 일반주기 지도교수: 김영철
- 학위논문사항 학위논문(박사)-, 한서대학교 일반대학원, 환경공학과 용수처리 및 수질관리, 2016. 8
- 발행지 서산
- 언어 kor
- 출판년 2016
- 발행사항 한서대학교 일반대학원
- 주제어 고속여과장치 마이크로 여과 여과보조제 탁수 합성섬유
- 참고문헌( 40)
유사주제 논문( 19)
- 합성섬유 15건
- 탁수 4건

인용/피인용

섬유여재를 충진한 고속여과장치에 의한 입자상 오염 ...

' 섬유여재를 충진한 고속여과장치에 의한 입자상 오염물질 처리에 관한 연구 = Reduction of Particulate Matter by High Speed Filter Using Synthetic Fiber' 의 주제별 논문영향력

논문영향력 요약
동일주제 총논문수	논문피인용 총횟수	주제별 논문영향력의 평균
주제	고속여과장치 마이크로 여과 여과보조제 탁수 합성섬유
24	0	0.0%

논문영향력
주제		주제별 논문수	주제별 논문영향력
주제어	고속여과장치	1	0.0%
	마이크로 여과	1	0.0%
	여과보조제	1	0.0%
	탁수	5	0.0%
	합성섬유	16	0.0%
계		24	0.0%
* 다른 주제어 보유 논문에서 피인용된 횟수

' 섬유여재를 충진한 고속여과장치에 의한 입자상 오염물질 처리에 관한 연구 = Reduction of Particulate Matter by High Speed Filter Using Synthetic Fiber' 의 참고문헌

Yun S., Ryu J., Oh J. (2012). T-P removal efficiency according to coagulant dosage and operating cost analysis, Journal of Korean Society of environmental engineers, 34(8), pp. 549-556. [Korean Literature]
Yu, J. and Kim, Y. (2015). Developed Mathematical Equation for Predicting Turbidity Removal Using Synthetic Fiber Filter. Separation Science and Technology, 50, pp. 174-180.
Yu M. and Cho Y. M. (2004) Water treatment: Drinking water treatment technology, Donghwa Technology publishing. [Korean Literature]
Yu J., Yu H., and Kim Y. (2013) Model development and application design of fiber mat used for turbid runoff treatment. Environ Technology, 34(11),pp. 1429-1437.
Yu J. and Kim Y. (2013). Performance Evaluation and Modeling of Synthetic-fiber Barrier in the Treatment of Turbid water, Water Environment Research, 85(7), pp. 596-603.
Yao K., Habibian M. T., and O'Melia C. R. (1971). Water and wastewater filtration: concepts and applications, Enviromental Science Technology, 5(11), pp. 1105-1112.
Williams G. J., Sheikh B., Holden R. B., Kouretas T. J., and Nelson K. L.(2007). The impact of increased loading rate on granular media, rapid depth filtration of wastewater. Water Research, 41, pp. 4535-4545.
Wang C. (2001). Electrostatic forces in fibrous filters-a review, Powder Technology, 118, pp. 166-170.
Wan L. S., Liu Z. M., and Xu Z. K. (2009). Surface engineering of macroporous polypropylene membranes. Soft Matter, 5, pp. 1775-1785.
Tanaka, Y., Miyajima, K., Funakosi, T., and Chida, S. (1995). Filtration of municipal sewage by ring-shaped floating plastic net media. Water Research, 29(5), pp. 1387-1392.
Rose H. E. (1945). An investigation of the laws of flow of fluids through beds of granular materials. Proceedings Institute of Mechanical Engineers, 153, pp. 141.
Pratap M., Khambhammettu U., Clark S., Pitt R. (2007). Stormwater polishing: Upflow vs. Downflow filters. World Environmental and Water Resources Congress 2007, Florida, USA, pp. 1-12.
Peter-Varbanets M., Zurbrϋgg C., Swartz C., Pronk W. (2009). Decentralized systems for potable water and the potential of membrane technology. Water Research, 43, pp. 245-265.
Park K., Cheng J., Kim. Y. (2015). Treatment study of the turbid water by high-speed synsthetic fiber filter system, Journal of Korean Society on Water Enviroment, 31(3), pp. 262-271. [Korean Literature]
Niu S., Park K., Guerra H. B., and Kim Y. (2015). Experimental study on non-woven filamentous fibre micro-filter with high filtration speed, Water Science and Technology, 71(9), pp. 1414-1422.
Nicolaisen B. (2002). Developments in membrane technology for water treatment. Desalination, 153, pp. 355-360.
Michen B., Diatta A., Fritsch J., Aneziris C., Graule T. (2011). Removal of colloidal particles in ceramic depth filters based on diatomaceous earth. Separation and Purification Technology, 81, pp. 77-87.
Metcalf and Eddy (2004). Wastewater Engineering 4th edition: Treatment and Reuse, McGraw-Hill Inc. New York, USA.
Liu L., Xu Z., Song C., Gu Q., Sang Y., Lu G., Hu H., and Li, F. (2006). Adsorption-filtration characteristics of melt-blown polypropylene fiber in purification of reclaimed water. Desalination, 201, pp. 198-206.
Liboriussen L., Jeppesen E. (2003). Temporal dynamics in epipelic, pelagic and epiphytic algal production in a clear and a turbid shallow lake. Freshwater Biol., 48(3), pp. 418-431
Lee J., Cha J., BenAim R., Han K., and Kim C. (2008), Fiber Filter as an Alternative to the Process of Flocculation-sedimentation for Water Treatment, Desalination, 231, pp. 323-331.
Lee J. J., Johir M. A. H., Chinu K. H., Shon, H. K., Vigneswaran S.,Kandasamy J., Kim C. W., Shaw K. (2010). Novel pre-treatment method for seawater reverse osmosis: Fiber media filtration. Desalination, 250, pp.557-561.
Lee J. J., Boo K. M., Choi M. W., and Kim C. W. (1998). Wasterwater treatment using submerged aerobic biofilm reactor followed by sand filter, Journal of Korean Society on Water Environment, 14(1), pp. 57-64. [Korean Literature]
Ko J. S. (2006). Industrial Textile Materials-Theory and Practices, Chonnam National University Press. [Korean Literature]
Kim Y., Jung C., Oh J., and Yoon Y. (2014). Feasibility Study on Removal of Total Suspended Solid in Wastewater with Compressed Media Filter, Journal of Korean Society Environmental Engineers, 36(2), pp. 84-95. [Korean Literature]
Kim J. H., Choi H., Kim H. S., Yeom I. T., and Han G. B. (2003). The effect of PACs coagulant on permeate flux in pilot scale micro-filtration system for water treatment, Journal of Korean Society on Water Environment, 36(2), pp. 255-231. [Korean Literature]
Kawamura S. (2000). Integrated design and operation of water treatment facilities, end ed., John Wiley & Sons, In., New York, USA.
Kang P. K. and Shah D. O. (1997). Filtration of Nano-particles with Dimethyldioctadecylammonium Bromide Treated Microporous Polypropylene Filters. Langmuir, 13(6), pp. 1820-1826.
Hudson H. E. and Sawyer A. W. (1961). Nation's first municipal filter plant is "retired". Water work supply.
Guerra, H .B., Niu, S., Park, K., and Kim, Y. (2014). High-Speed Filtration Using a Highly Porous Fiber Media for Advanced and Compact Particle Removal, Water Science & Technology: Water Supply, 14(5) pp. 735-742.
Guerra H. B. (2013). High speed filtration using a highly porous fiber media for advanced and compact water treatment, Marster's Thesis, Hanseo University, Seosan, Korea.
Gao P., Xue G., Song X., and Liu Z. (2012). Depth filtration using novel fiber-ball filter media for the treatment of high-turbidity surface water. Separation and Purification Technology, 95, pp. 32-38.
Fujuta K. (2003) Water treatment techonology, Gihodo suppan Co., Ltd.
Droste R.L. (1996). Theory and Practice of Water and Wastewater Treatment. Wiley, USA.
Crites, R. W. and Tchobanoglous, G. (1998). Small and decentralized wastewater management systems, WCB/McGraw-Hill, Inc. New York, USA.
Ciach T. and Gradon L. (1996). Highly Efficient Filtering Materials. Journal of Aerosol Science, 16(1), pp. 613-614.
Chang J. S. and Vigneswaran S. (1990). Ionic Strength in Deep Bed Filtration. Water Research, 24(11), pp. 1425-1430.
Carroll T., Booker N. A., and Meier-Haack, J. (2002). Polyelectrolyte-grafted microfiltration membranes to control fouling by natural organic matter in drinking water. Journal of Membrane Science, 203, pp. 3-13.
Carman P. C. (1937). Fluid flow through granular beds. Transactions, Institution of Chemical Engineers, 15, pp. 150-160.
Caliskaner O. and Tchobanoglous G. (2006) Optimization of Compressible Medium Filter for Secondary Effluent Filtration. Water Practice and Technology, 4(1), pp. 97-105.

섬유여재를 충진한 고속여과장치에 의한 입자상 오염물질 처리에 관한 연구 = Reduction of Particulate Matter by High Speed Filter Using Synthetic Fiber

유사주제 논문( 19)

' 섬유여재를 충진한 고속여과장치에 의한 입자상 오염물질 처리에 관한 연구 = Reduction of Particulate Matter by High Speed Filter Using Synthetic Fiber' 의 주제별 논문영향력

주제별 논문영향력

' 섬유여재를 충진한 고속여과장치에 의한 입자상 오염물질 처리에 관한 연구 = Reduction of Particulate Matter by High Speed Filter Using Synthetic Fiber' 의 참고문헌

' 섬유여재를 충진한 고속여과장치에 의한 입자상 오염물질 처리에 관한 연구 = Reduction of Particulate Matter by High Speed Filter Using Synthetic Fiber' 의 유사주제( ) 논문