This paper presents a second-law of thermodynamics analysis to quantify the exergy destruction in each component of an Environmental Control Unit (ECU) for military applications. The analysis is also used to identify the potential con- tribution from each component to improve the overall energy efficiency of the system. Three ECUs were investigated experimentally at high ambient temperature conditions to demonstrate the feasibility of the model presented herein. The investigated ECUs have capacities of 1.5 (5.3 kW), 3 (10.6 kW), and 5 (17.6 kW) tons of refrigeration (RT). The results indicate that the largest potential to improve exergetic efficiency of each unit resides in the compressor. This is followed in order by the evaporator and the...
The continuous energy transformation processes in heating, ventilation, and air conditioning systems...
The performance of a typical 250 L cooler type refrigerator is analyzed based on experimental data b...
Major concern in refrigeration hinges largely on energy conservation, environmental safety and effic...
This paper presents a second-law of thermodynamics analysis to quantify the exergy destruction in ea...
This paper presents a second-law of thermodynamics analysis to quantify the exergy destruction in ea...
Abstract In this paper, we present thermodynamic analysis of counter flow wet cooling towers and eva...
Abstract In this paper, we present thermodynamic analysis of counter flow wet cooling towers and eva...
Packaged air conditioning (AC) units, called Environmental Control Units (ECUs), are being increasin...
In this paper, we present a steady-state analysis of a double-effect evaporator with thermal vapor c...
Abstract In this paper, we present thermodynamic analysis of counter flow wet cooling towers and eva...
Numerous people live or venture into environments, such as the Middle East, where the temperatures c...
The limitations in the world sources of energy are being mitigated by the exploitation of renewable ...
This project conducts an exergy analysis on the Cross Vane Expander Compressor (CVEC) unit. Exergy, ...
One-quarter of the worldwide greenhouse gas emissions is emitted by fossil fuel based power plants. ...
The rise in crisis of power enthralls the world economically and the options for conventional and no...
The continuous energy transformation processes in heating, ventilation, and air conditioning systems...
The performance of a typical 250 L cooler type refrigerator is analyzed based on experimental data b...
Major concern in refrigeration hinges largely on energy conservation, environmental safety and effic...
This paper presents a second-law of thermodynamics analysis to quantify the exergy destruction in ea...
This paper presents a second-law of thermodynamics analysis to quantify the exergy destruction in ea...
Abstract In this paper, we present thermodynamic analysis of counter flow wet cooling towers and eva...
Abstract In this paper, we present thermodynamic analysis of counter flow wet cooling towers and eva...
Packaged air conditioning (AC) units, called Environmental Control Units (ECUs), are being increasin...
In this paper, we present a steady-state analysis of a double-effect evaporator with thermal vapor c...
Abstract In this paper, we present thermodynamic analysis of counter flow wet cooling towers and eva...
Numerous people live or venture into environments, such as the Middle East, where the temperatures c...
The limitations in the world sources of energy are being mitigated by the exploitation of renewable ...
This project conducts an exergy analysis on the Cross Vane Expander Compressor (CVEC) unit. Exergy, ...
One-quarter of the worldwide greenhouse gas emissions is emitted by fossil fuel based power plants. ...
The rise in crisis of power enthralls the world economically and the options for conventional and no...
The continuous energy transformation processes in heating, ventilation, and air conditioning systems...
The performance of a typical 250 L cooler type refrigerator is analyzed based on experimental data b...
Major concern in refrigeration hinges largely on energy conservation, environmental safety and effic...
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