Thermodynamic, operational, and techno-economic analysis of the cascade heating system with a double-unit

Cascade heating system and its feasible operational regions under different conditions. [Display omitted] •Thermodynamic performance of cogeneration systems with a double-unit are compared.•A new index is introduced to analyze the operational character of the novel system.•Feasible operational regio...

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Bibliographic Details
Published in:Energy conversion and management 2020-12, Vol.226, p.113558, Article 113558
Main Authors: Zhao, Shifei, Wang, Weishu, Ge, Zhihua
Format: Article
Language:English
Subjects:
Cogeneration
Comparative analysis
Economic analysis
Economic conditions
Energy utilization
Exhaust systems
Feasible operational region
Heating
Payback periods
Reference systems
Steam
Techno-economic analysis
Technology
Thermodynamic performance
Waste heat recovery
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Summary:Cascade heating system and its feasible operational regions under different conditions. [Display omitted] •Thermodynamic performance of cogeneration systems with a double-unit are compared.•A new index is introduced to analyze the operational character of the novel system.•Feasible operational regions with different heating conditions of the novel system.•Techno-economic analysis based on the actual data during the whole heating period. High back-pressure technology is an efficient way to recover waste heat and improve the energy utilization efficiency and heating capacity of cogeneration systems. In this study, a coal-fired cogeneration system with a double-unit (2 × 300 MW) was selected as the reference system and modeled in the EBSILON professional system. Then, a detailed comparative analysis of cogeneration systems with double-units was conducted from the perspective of thermodynamic, operational, and techno-economic analyses. The results show that with the high back pressure technology, the gross thermal and generation efficiencies of the novel system increased by 8.82% and 14.28%, respectively, while the standard coal consumption rate for generation was reduced by 43.47 g/kWh. Besides, the average energy quality coefficient of the novel system was reduced by 0.12. The temperatures of the exhaust steam, supplied and returned water changed the operational characteristics, including the maximum heating capacity and feasible operational region. Moreover, with the decrease in the maximum temperature rise ratio in the heating condenser, the feasible operational region of the novel system was reduced. The techno-economic analysis shows that under the given conditions, the net annual revenue of the novel system is 3.55 × 106 CNY/year, and the discounted payback period of the novel system is 10.55 years.
ISSN:0196-8904
1879-2227
DOI:10.1016/j.enconman.2020.113558