Zeynab Seyfouri scite author profile

In the present study, a totally heat-driven refrigeration system is proposed and thermodynamically analyzed. This system uses a low-temperature heat source such as geothermal energy or solar energy to produce cooling at freezing temperatures. The proposed system comprises a Rankine cycle (RC) and a hybrid GAX (HGAX) refrigeration cycle, in which the RC provides the power requirement of the HGAX cycle. An ammonia–water mixture is used in both RC and HGAX cycles as the working fluid. A comparative study is conducted in which the proposed system is compared with two other systems using GAX cycle and/or a single stage cycle, as the refrigeration cycle. The study shows that the proposed system is preferred to produce cooling at temperatures from 2∘C to [Formula: see text]C. A detailed parametric analysis of the proposed system is carried out. The results of the analysis show that the system can produce cooling at [Formula: see text]C using a low-temperature heat source at 133.5∘C with the exergy efficiency of about 20% without any input power. By increasing the heat source temperature to 160∘C, an exergy efficiency of 25% can be achieved.

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Energy, Exergy and Economic Analyses of Different Configurations for a Combined HGAX/ORC Cooling System

Seyfouri

Ameri

Mehrabian

2022

Iran J Sci Technol Trans Mech Eng

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Zeynab Seyfouri

Analysis of integrated compression–absorption refrigeration systems powered by a microturbine

Exergo-economic analysis of a low-temperature geothermal-fed combined cooling and power system

A Totally Heat-Driven Refrigeration System Using Low-Temperature Heat Sources for Low-Temperature Applications

Energy, Exergy and Economic Analyses of Different Configurations for a Combined HGAX/ORC Cooling System

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