1. Influence of Operation Schemes on the Performance of the Natural Draft Hybrid Cooling System for Thermal Power Generation
- Author
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Lin Chen, Zhihua Ge, Xiaoze Du, Lijun Yang, and Huimin Wei
- Subjects
optimal operation strategies ,Technology ,Control and Optimization ,Renewable Energy, Sustainability and the Environment ,Energy Engineering and Power Technology ,Thermal power station ,Context (language use) ,natural draft hybrid cooling ,Automotive engineering ,Power (physics) ,Hull ,Weather data ,Water cooling ,Environmental science ,waterside operation schemes ,Water saving ,Electrical and Electronic Engineering ,Performance enhancement ,Engineering (miscellaneous) ,annual economic performances ,Energy (miscellaneous) - Abstract
For thermal power generation, the natural draft hybrid cooling system (NDHCs) with airflows in parallel design gives a multi-objective solution for water saving, performance enhancement and maintenance issues, like corrosion, by switching the loads of wet and dry sections. Performances of dry and wet sections interact with each other in the highly integrated system, increasing the complexity of operation strategies. In this context the present paper examines eight different operation schemes to reveal the relationships of ambient conditions and operation schemes. Comprehensive comparisons in the view of cooling efficiency with a same water inlet temperature are conducted firstly. Results show that there exists energy-saving potentials of the water evaporated rate, cooling performances and the pump power for different schemes. Based on the practical boundary conditions, including those of weather data, operation hours and market factors, optimal operation strategies of hybrid cooling are designed to minimize the operation costs of the energy system. For the 660 MW power generating unit integrated with a natural draft dry cooling system (NDDCs), operation costs based on NDHC after optimization decreased about 0.8% in 2010 and 0.35% in 2018 compared with that of the basic system. When comparing with the designed operation modes of hybrid cooling, 0.07 million dollars is saved after optimization.
- Published
- 2021
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