First and second law investigations of a new solar‐assisted thermodynamic cycle for triple effect refrigeration |
| |
Authors: | Surendra Kumar Agrawal Rajesh Kumar Abdul Khaliq |
| |
Affiliation: | 1. ShriRam College of Engineering and Management, Department of Mechanical Engineering, Morena, Madhya Pradesh, India;2. Department of Mechanical Engineering, Delhi Technological University (Government of NCT of Delhi), Delhi, India |
| |
Abstract: | This investigation is persuaded for the first and second law analyses of a new solar‐driven triple‐effect refrigeration cycle using Duratherm 600 oil (Duratherm Extended Life Fluid, NY, USA) as the heat transfer fluid is performed. The proposed cycle is an integration of ejector, absorption, and cascaded refrigeration cycles that could produce refrigeration output of different magnitude at different temperature simultaneously. Both exergy destruction and losses in each component and hence in the overall system are determined to identify the causes and locations of the thermodynamic imperfection. The effects of some influenced parameters such as hot oil outlet temperature, refrigerant turbine inlet pressure, and the evaporator temperature of ejector and cascaded refrigeration cycle have been observed on the first and second law performances. It is found that maximum irreversibility occurs in central receiver as 52.5% and the second largest irreversibility of 25% occurs in heliostat field. The second law efficiency of the solar driven triple effect refrigeration cycle is 2%, which is much lower than its first law efficiency of 11.5%. Analysis clearly shows that performance evaluation based on the first law analysis is inadequate and hence, more meaningful evaluation must be included in the second law analysis. Copyright © 2013 John Wiley & Sons, Ltd. |
| |
Keywords: | solar energy triple‐effect refrigeration ejector first law efficiency second law efficiency |
|
|