提高热泵利用电厂循环水的效率

Alla Denysova, O. Zhaivoron
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引用次数: 0

摘要

在本文中,考虑到乌克兰的气候条件,对热泵在集中供热和热水供应系统的热电厂和核电站的热方案中的效率进行了分析研究。这项任务既达到了节能的目的,又减少了对环境有害物质的排放。主要重点是提高热泵供电系统的效率,它集成了一种替代能源。通过对热泵循环用能参数的分析,确定了循环中效率最高的工质为氟利昂R152a,在该工况下,热泵转换系数最高,压缩机功率指标最低。提出了降低电厂汽轮机欠产率,提高汽轮机循环效率的途径和方法。由此可见,系统的效率受蒸发器损耗的影响最大,因此在利用循环水的能量时应最重视热泵这一元件的效率。所提方法的另一个新颖性方面在于有可能进一步优化电力系统的技术和经济参数。提出了一种基于火用分析方法的方法来论证电厂在利用低品位循环水热冷却汽轮冷凝器时合理使用热泵的条件,这是一种创新的方法。研究结果为热泵供热的进一步发展提出了展望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
INCREASING THE EFFICIENCY OF HEAT PUMP USING CIRCULATING WATER OF POWER PLANTS
In the article analytical studies of the efficiency of heat pumps in the thermal schemes of thermal and nuclear power plants for centralized heating and hot water supply systems taking into account the climatic conditions of Ukraine have been carried out. This task meets the objectives of energy saving and reduces emissions of harmful substances into the environment. The main focus is on improving the efficiency of the heat pump power supply system, which integrates an alternative energy source. An analysis of the exergy parameters of heat pump cycles has been performed, which have made it possible to establish that the most efficient working fluid of the cycle is freon R152a, at which the highest heat pump conversion coefficient and the lowest compressor power indicator are achieved. Ways and methods leading to reduction to underproduction of the electricity by turbine of of power plant and to increasation of the efficiency of a steam turbine cycle are proposed. It is shown that the efficiency of the system is most affected by losses in the evaporator, so the efficiency of this element of the heat pump should be given the most attention when using the energy of circulating water. An additional aspect of the novelty of the proposed method lies in the possibility of further optimization of the technical and economic parameters of the power system. A methodology based on the use of the exergy method of analysis to substantiate the conditions for the rational use of heat pumps for power plants in the utilization of low-grade heat of circulating water for cooling the turbine condensers is proposed, which can be considered as innovative way. Results open the further prospects for the development of heat pump heat supplyhas been proposed.
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