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식생섬에 의한 중수처리 효과 검증과 적용에 관한 연구

A Study on Application and Verification of Heavy Water Treatment Effects Using Plant Cultivation (Vegetation) on Floating Island

  • 투고 : 2012.09.13
  • 심사 : 2012.12.17
  • 발행 : 2012.12.31

초록

This this study was conducted with the aim of doing experiment on the effect of water purification by using an artificially built plant island, which is one of the eco-techniques, and aquatic plants as a plan for the reuse of water for obtaining water resources, thereby analyzing the removed quantity, and applying the experimental results to the reuse of water. As a result of doing experiments, this study obtained a good measured value of BOD (biochemical oxygen demand) 4.7mg/L, and COD (chemical oxygen demand) 7.2mg/L below the heavy water standard of BOD 10mg/L and COD 20mg/L, respectively. The chromaticity showed 89.2% removal efficiency, but final treated wastewater was found to show chromaticity 58 degrees exceeding chromaticity 20 degrees which are the water quality standard of the reuse of water. The results revealed that T-N produced 27% removal efficiency on an average while T-P produced 38% removal efficiency on an average, showing that the removal effect of N & P wasn't big. According to the currently enforced "Water Quality Standard of Heavy Water by Use", the use of water for sprinkling and landscaping was found to be available. Accordingly, this study suggested a nature-friendly, economically-efficient, and eco-technological water treatment technique which will make it possible to overcome the limit of the existing physio-chemical water treatment technology, reduce the costs for maintenance and facilities, and also reduce the limit of space restraint for installation of facilities.

키워드

참고문헌

  1. Kwon. 2007. Study on the Improvement of Aquatic Ecosystem by Vegetated Artificial Floating Island. Kangwon University Ph.D. dissertation. (in Korean with English summary)
  2. Kim, Koo, Ahn. 2001. A Study on the Growth Characteristics of Riparian Plants on the Artificial Floating Islands. The Korea Society of Environmental Restoration Technology. 4(4):25-35. (in Korean with English summary)
  3. Park. 2000. Analyse of water purification techniques and their applicability in lakes and reservoirs using a water quality model. Seoul University Ph.D. dissertation. (in Korean with English summary)
  4. Ahn, Kong. 1995. study on the removal strategy of water pollutant using salvinia natans. The Korean Society of Environmental Engineers. 17(6):593-603. (in Korean with English summary)
  5. Yang. 2006. Changes in Pollutant Concentrations by Artificial Floating Island Installed in Reservoir for Irrigation. The Korea Society of Environmental Restoration Technology. 9(2):23-32. (in Korean with English summary)
  6. Jang. 2009. The Development of External Negative Pressure Membrane Bioreactor (ENP MBR) for domestic wastewater reuse. Korea University Master's thesis. (in Korean with English summary)
  7. Kim, Jung, Na, Lee. 1997. Isolation and Immobilization of Sulfate Reducing Bacteria from Anaerobic Sludge. The Korean Society of Environmental Engineers. 19(1):61-72. (in Korean with English summary)
  8. Jo. 2010. water-energy technology development; The Development of Technology for use natural energy Eco-engineering water treatment system. Samsung C&T Corporation final report. Co., Ltd. Assum. (in Korean)
  9. Kong, Cheon, Yoo. 1996. Lake Water Quality Amelioration and Reuse of Harvested Matters Using Aquatic Macrophytes and Benthic Algae. Konkuk University Institute for Environmental studies. (in Korean with English summary)
  10. Lee. 2009. Membrane Bioreactor Technology. The Konetic (Korea Environmental Information Center) report. (in Korean)