Research on Reclaimed Water Heat Energy Conditions and Application in Beijing

Jia Zheng; Yuan Yu; Juan Li; Chang Hong Fu

doi:10.4028/www.scientific.net/AMR.860-863.728

Paper Titles

Numerical Simulation and Experimental Validation of a Vertical U-Tube Ground Heat Exchanger
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Co-Benefit Analysis on Fuel-Switching Project for District Heating
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Research on the Technology of Intelligent Control Terminal Personalized Heating Heating System
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Application Research of Reclaimed Water Source Heat Pump Techniques in Beijing
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Research on Reclaimed Water Heat Energy Conditions and Application in Beijing
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Analysis of Ejector in Central Air Conditioner Combined with Solar Ejector Refrigeration System
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Analysis on Chilled Water Spraying through Extraction Opening in Condenser to Enhance Extraction Effect of Vacuum Pump
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Research on the Industrial Energy Use of Sustainable Development Test Zone in Beijing
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The Dispatch Method Based on Demand Response under the Pressure of Energy-Saving
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 860-863Research on Reclaimed Water Heat Energy Conditions...

Research on Reclaimed Water Heat Energy Conditions and Application in Beijing

Abstract:

This paper concerns the utilization parameters of reclaimed water, and evaluates the heat resource potential and suitable development area of reclaimed water. The heat energy from reclaimed water resources is expected to reach 1027 MW in 2020. The building area that is suitable for adopting reclaimed water heat pump system is about 1.4×10⁸m². The potential of utilization and development space are huge. There is more than 30% savings of operating cost by using reclaimed water heat energy for buildings with contrast to traditional supply mode, and can reduce more than 70% of the exhaust heat at the same time. The economic and environmental benefit are great.

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Periodical:

Advanced Materials Research (Volumes 860-863)

Pages:

728-732

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.860-863.728

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Online since:

December 2013

Authors:

Jia Zheng*, Yuan Yu, Juan Li, Chang Hong Fu

Keywords:

Economic and Environmental Benefits, Heat Pump System, Reclaimed Water Heat Energy, Resource Conditions, Suitable Area

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* - Corresponding Author

References

[1] Z. Cheng, L. Shi, Y. Cheng: Journal of North China Electric Power University, Vol. 34(2007), p.31.

Google Scholar

[2] J. Yi: China Water & Wastewater, Vol. 14(1998)，p.26.

Google Scholar

[3] Funamizu N, Lisa M: Water Science and Technology, Vol. 43 (2001), p.277.

Google Scholar

[4] Yoshi T: Journal of the Japan Institute of Energy, Vol. 8(2001), p.696.

Google Scholar

[5] J. Lv, Y. G. Feng: Industrial Water & Wastewater, Vol. 33(2002), p.10.

Google Scholar

[6] Q. Gao, C. J. Wu, S. A. Yang: China Water & Wastewater, Vol. 22(2006), p.57.

Google Scholar

[7] L. Shi, C. Zan: Large-Scale Application of Municipal Reclaimed Water Source Heat Pump to a DHC System in the Beijing Olympic Village. 9th IEA Heat Pump Conference, 2008, Zurich.

Google Scholar

[8] C. Zan, H. F. Ou, L. Shi: Journal of Thermal Science and Technology, Vol. 7(2008), p.180~183.

Google Scholar

[9] C. Zan, L. Shi, W. Y. Yang, X. J. Ma: Front Energy Power Eng, Vol. 4(2010), p.171~180.

Google Scholar

[10] L. Tian, L. Shi, J. Wu: Journal of Refrigeration, Vol. 31(2010), pp.1-5.

Google Scholar