Estimation of energy self-sufficiency in municipal wastewater treatment plant using simulated solar photovoltaic performance
태양광발전시스템 성능 시뮬레이션을 통한 하수처리장 에너지자립율 산정
- An, Young-Sub (Green Building Research Lab, R&BD Center, Kolon Engineering and Construction) ;
- Kim, Sung-Tae (Green Building Research Lab, R&BD Center, Kolon Engineering and Construction) ;
- Chae, Kyu-Jung (Environment Technology Research Lab, R&BD Center, Kolon Engineering and Construction) ;
- Kang, Ji-Hoon (Environment Technology Research Lab, R&BD Center, Kolon Engineering and Construction) ;
- Yang, Hee-Jung (Future Planning Team, R&BD Center, Kolon Engineering and Construction)
- 안영섭 (코오롱건설 기술연구센터 친환경건축연구소) ;
- 김성태 (코오롱건설 기술연구센터 친환경건축연구소) ;
- 채규정 (코오롱건설 기술연구센터 환경기술연구소) ;
- 강지훈 (코오롱건설 기술연구센터 환경기술연구소) ;
- 양희정 (코오롱건설 기술연구센터 미래기획팀)
- Published : 2011.11.24
Abstract
This paper presents energy self-sufficiency simulated in municipal wastewater treatment plants (WWTPs) by adopting solar energy production systems that vary with installation conditions. Relative to the national average energy consumption in WWTPs, the employment of 100 kW photovoltaics (PVs) was simulated to achieve 2.75% of energy self-sufficiency. The simulated results suggested that the installation of PVs toward South or South west would produce the highest energy self-sufficiency in WWTPs. When super-hydrophilic coating was employed in the conventional PVs, 5% of additional solar energy production was achievable as compared to uncoated conventional PVs. When 100 kW of PVs were installed in a future test-bed site, Kihyeung Respida located in Yougin, Sourth Korea, the energy self-sufficiency by solar energy was simulated to be 1.77% (2010). The simulated energy self-sufficiency by azimuth(direction) will be useful reference for practitioners in designing the solar PV systems in the WWTPs.
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