Abstract: In the current study, an exergy analysis of a single-effect absorption refrigeration cycle using lithium bromide-water solution is carried out. The cycle has been analysed by considering the mass and energy conservation based on the first and second laws of thermodynamics. This analysis provides a detailed information on the effect of different parameters on the system performance. The coefficient of performance (COP), exergetic efficiency (ECOP), and exergy destruction are determined. The results show that a reduction in cooling water temperature caused an improvement in the COP and ECOP. Increasing the evaporator temperature has also improved the COP, but it caused a reduction in the ECOP of the system. Also it can be seen that ...
Advanced exergy analysis was carried out for absorption-compression refrigeration-cycles with a work...
The study of absorption refrigeration systems has had increasing importance in recent years due to t...
The objective of this paper is to develop a mathematical model for thermodynamic analysis of an abso...
This work presents exergy analysis of a double effect parallel flow, single effect and half effect a...
Absorption cooling cycles are environmental, clean and economically driven cycles. By consuming very...
Absorption chillers present opportunities to utilize sustainable fuels in the production of chilled ...
Absorption cooling cycles have the advantage of being environmental and using solar or waste heat fo...
This work aims at the theoretical study on the performance of an single stage absorption chiller (Li...
A thermally-driven bubble pump can replace the electrical pump in the absorption refrigeration cycle...
The first and second law of thermodynamics are applied to an ionic-liquid (IL) based absorption refr...
In this study, a detailed thermodynamic analysis of the water/lithium bromide absorption refrigerati...
The main objectives of this study which was carried out on a Water-Lithium Bromide absorption refrig...
Energy savings on cooling systems can be performed by using novel refrigeration cycles. For this aim...
Increasing energy demand for air conditioning due to climate change is posing a continuous threat to...
International audienceThis paper presents the energy and exergy analysis of single–effect water–lith...
Advanced exergy analysis was carried out for absorption-compression refrigeration-cycles with a work...
The study of absorption refrigeration systems has had increasing importance in recent years due to t...
The objective of this paper is to develop a mathematical model for thermodynamic analysis of an abso...
This work presents exergy analysis of a double effect parallel flow, single effect and half effect a...
Absorption cooling cycles are environmental, clean and economically driven cycles. By consuming very...
Absorption chillers present opportunities to utilize sustainable fuels in the production of chilled ...
Absorption cooling cycles have the advantage of being environmental and using solar or waste heat fo...
This work aims at the theoretical study on the performance of an single stage absorption chiller (Li...
A thermally-driven bubble pump can replace the electrical pump in the absorption refrigeration cycle...
The first and second law of thermodynamics are applied to an ionic-liquid (IL) based absorption refr...
In this study, a detailed thermodynamic analysis of the water/lithium bromide absorption refrigerati...
The main objectives of this study which was carried out on a Water-Lithium Bromide absorption refrig...
Energy savings on cooling systems can be performed by using novel refrigeration cycles. For this aim...
Increasing energy demand for air conditioning due to climate change is posing a continuous threat to...
International audienceThis paper presents the energy and exergy analysis of single–effect water–lith...
Advanced exergy analysis was carried out for absorption-compression refrigeration-cycles with a work...
The study of absorption refrigeration systems has had increasing importance in recent years due to t...
The objective of this paper is to develop a mathematical model for thermodynamic analysis of an abso...