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All issues Volume 358 (2022) E3S Web Conf., 358 (2022) 01009 References
Open Access
Issue
E3S Web Conf.
Volume 358, 2022
5th International Conference on Green Energy and Sustainable Development (GESD 2022)
Article Number 01009
Number of page(s) 6
Section Invited Contributions
DOI https://doi.org/10.1051/e3sconf/202235801009
Published online 27 October 2022
  1. Huizhong Zhao, Xingang Zhao, Overview of Thermal Power Plant Waste Heat Utilization Technology and Engineering Example[J]. GAS & HEAT, 2018, (07): 0A01–0A05. [Google Scholar]
  2. Xiaolan Ge, Cong Yu, Chang Wu, et al., Analysis of steam turbine waste heat recovery technology [J]. Internal Combustion Engine & Parts, 2018, (09): 57–58. [Google Scholar]
  3. Jianglong Guo, Shuping Chang, Aihua Feng, et al., Economic Analysis for Compression-type and Absorption-type Heat Pump Recycling the Waste Heat of Circulating Water in Power Plant[J]. TURBINE TECHNOLOGY, 2012, (10): 379–380. [Google Scholar]
  4. Chuanling Liu, Ang Song, Economic Research of Heating Supply Using Circulating Water-source Heat Pumps in Thermal Power Plant[J]. SHANDONG DIANLI JISHU, 2016, (3):30–33. [Google Scholar]
  5. Sike Hu, Ruzhou Liu, De Chen, et al., Analysis of Recycling Afterheat of Circulating Cooling Water from Thermal Power Plant by Utilizing Compression Heat Pump[J]. Journal of Northeast Dianli University, 2015, (8): 14–19. [Google Scholar]
  6. Qunli Long, Study on the Thermoeconomics of a Cooling Water Waste Heat Recycled System in Power Plant[J]. SHANDONG DIANLI JISHU, 2013, (2): 68–72. [Google Scholar]
  7. Xiaoguang Guan, Application Research on Waste Heat Recovery Technology of Absorption Heat Pump of HeatSupply Unit[J]. Mining Engineering, 2017, (2): 68–69. [Google Scholar]
  8. Zhigang Zhang, Shuguo Wang, Rongpeng Zeng, Recycling waste heat of circulating water by absorption heat pump in power plant[J]. Huadian Technology, 2016, (4): 45–47. [Google Scholar]
  9. Yang Zhao, Lei Liang, Qingchuan Ma, et al., Application of Lithium Bromide Absorption Heat Pump to Recycle Waste Heat of Cooling Water in Power Plant[J]. Journal of SHanghai University of Electric Power, 2016, (10): 454–458. [Google Scholar]
  10. Zhenqi Zhou, Chunhui Cui, Meng Yuan, et al., Economic analysis of two kinds of heat pump heating system with waste heat of circulating water[J]. ENE R GY CONSE R VATION, 2015, (12): 56–59. [Google Scholar]
  11. Yun Zhang, Binshuai Zhu, An Economic Comparison of Absorption Heat Pump and Compression Heat Pump in Central Heating Area of Power Plant[J]. ENE R GY CONSE R VATION TECHNOLOGY, 2016, (9): 440–443. [Google Scholar]
  12. Biaojun Zhong, Guanhua Deng, Xueqing Chen, et al., Comparision of Economy between two Heat Pumps for Recycling Waste Heat in Power Plant[J]. REFRIGERATION, 2015, (3): 80–84. [Google Scholar]

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