冷冻机
吸收式制冷机
投资回收期
性能系数
太阳能
环境科学
工艺工程
可再生能源
工程类
汽车工程
机械工程
热力学
热泵
电气工程
物理
经济
制冷
热交换器
宏观经济学
生产(经济)
作者
Yousef FathiAlmas,Hossein Ghadamian,Mohammad Aminy,Meisam Moghadasi,Hajar Amirian,Siamak Hoseinzadeh,Davide Astiaso Garcia
标识
DOI:10.1016/j.enbuild.2023.112894
摘要
This research includes a thermodynamic analysis of a solar absorption chiller due to design temperatures and pressures. Integration of solar energy and absorption chiller in low capacities is done by: static relations (including point-to-point system behavior variations) ruling absorption chillers, calculating the amount of required heat for the generator of the chiller and how it is supplied with, coding and determining optimal chiller coefficient of performance (COP) in Engineering Equation Solver (EES) software, evaluating the affecting factors on the COP by system analysis method. According to the system analysis of a combined solar-chiller system, the best COP is determined to be 0.77; which is a technically acceptable amount in small-size chillers. Also, the computational model for the economic evaluation of energy and energy-saving from receiving solar heat by using a suitable collector shows a 9-year payback period (considering the subsidized price: 0.01$ (2,500 Rails) per cubic meter of natural gas) and a 2-year payback period (considering FOB price equals 0.16$ per cubic meter natural gas). Therefore, it is proven that the economic feasibility of integrating absorption chillers and solar energy is affected by the price of energy carriers in real or subsidiary form and the bank interest rate.
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