Integration and simulation of solar energy with hot flue gas system for the district cooling application
The worldwide cooling demands are rising drastically. Several causes lead to this scenario such as industrialization, global warming and tropical climate region. This prompts the application of district energy such as district cooling system to fulfill the demands utilizing solar energy for cooling....
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Elsevier
2020-06-01
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| Series: | Case Studies in Thermal Engineering |
| Online Access: | http://www.sciencedirect.com/science/article/pii/S2214157X19303909 |
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doaj-620b2f976ff14803955ec96875ea08262020-11-25T03:18:19ZengElsevierCase Studies in Thermal Engineering2214-157X2020-06-0119Integration and simulation of solar energy with hot flue gas system for the district cooling applicationAbrar Inayat0Hu H. Ang1Mohsin Raza2Bashria A.A. Yousef3Chaouki Ghenai4Muhammad Ayoub5Syed I.U.H. Gilani6Department of Sustainable and Renewable Energy Engineering, University of Sharjah, 27272, Sharjah, United Arab Emirates; Corresponding author. Department of Sustainable and Renewable Energy Engineering, University of Sharjah, 27272, Sharjah, United Arab Emirates.Department of Chemical Engineering, Universiti Teknologi PETRONAS, Bandar Seri Iskandar, 32610, Tronoh, Perak, MalaysiaFaculty of Process and System Technology, Otto von Guericke University, D-39106, Magdeburg, GermanyDepartment of Sustainable and Renewable Energy Engineering, University of Sharjah, 27272, Sharjah, United Arab EmiratesDepartment of Sustainable and Renewable Energy Engineering, University of Sharjah, 27272, Sharjah, United Arab EmiratesDepartment of Chemical Engineering, Universiti Teknologi PETRONAS, Bandar Seri Iskandar, 32610, Tronoh, Perak, MalaysiaDepartment of Mechanical Engineering, Universiti Teknologi PETRONAS, Bandar Seri Iskandar, 32610, Tronoh, Perak, MalaysiaThe worldwide cooling demands are rising drastically. Several causes lead to this scenario such as industrialization, global warming and tropical climate region. This prompts the application of district energy such as district cooling system to fulfill the demands utilizing solar energy for cooling. Hybrid energy systems are sustainable and able to enhance the overall efficiency of the system. The current study provides the feasibility of solar cooling system integrated with the hot flue gases to produce chilled water, which can be scale up later for solar district cooling application. The parametric study conducted by using TRNSYS software to examine the feasibility and potential of integrated solar absorption cooling system. The simulation has been carried out using the feasible parameters of flat plate collector with 5° of collector slope, 15 m2 collector area, and 0.8 m2 tank size for thermal energy storage. The feasibility of the system investigated with respect to the cooling demand of a particular modeled building. It predicted that the room temperature of the building model is lower after the application of the solar cooling system. The case study conducted and simulated based on the weather for Kuala Lumpur, Malaysia. Keywords: Solar cooling, Absorption chiller, Simulation, TRNSYS, Integrationhttp://www.sciencedirect.com/science/article/pii/S2214157X19303909 |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Abrar Inayat Hu H. Ang Mohsin Raza Bashria A.A. Yousef Chaouki Ghenai Muhammad Ayoub Syed I.U.H. Gilani |
| spellingShingle |
Abrar Inayat Hu H. Ang Mohsin Raza Bashria A.A. Yousef Chaouki Ghenai Muhammad Ayoub Syed I.U.H. Gilani Integration and simulation of solar energy with hot flue gas system for the district cooling application Case Studies in Thermal Engineering |
| author_facet |
Abrar Inayat Hu H. Ang Mohsin Raza Bashria A.A. Yousef Chaouki Ghenai Muhammad Ayoub Syed I.U.H. Gilani |
| author_sort |
Abrar Inayat |
| title |
Integration and simulation of solar energy with hot flue gas system for the district cooling application |
| title_short |
Integration and simulation of solar energy with hot flue gas system for the district cooling application |
| title_full |
Integration and simulation of solar energy with hot flue gas system for the district cooling application |
| title_fullStr |
Integration and simulation of solar energy with hot flue gas system for the district cooling application |
| title_full_unstemmed |
Integration and simulation of solar energy with hot flue gas system for the district cooling application |
| title_sort |
integration and simulation of solar energy with hot flue gas system for the district cooling application |
| publisher |
Elsevier |
| series |
Case Studies in Thermal Engineering |
| issn |
2214-157X |
| publishDate |
2020-06-01 |
| description |
The worldwide cooling demands are rising drastically. Several causes lead to this scenario such as industrialization, global warming and tropical climate region. This prompts the application of district energy such as district cooling system to fulfill the demands utilizing solar energy for cooling. Hybrid energy systems are sustainable and able to enhance the overall efficiency of the system. The current study provides the feasibility of solar cooling system integrated with the hot flue gases to produce chilled water, which can be scale up later for solar district cooling application. The parametric study conducted by using TRNSYS software to examine the feasibility and potential of integrated solar absorption cooling system. The simulation has been carried out using the feasible parameters of flat plate collector with 5° of collector slope, 15 m2 collector area, and 0.8 m2 tank size for thermal energy storage. The feasibility of the system investigated with respect to the cooling demand of a particular modeled building. It predicted that the room temperature of the building model is lower after the application of the solar cooling system. The case study conducted and simulated based on the weather for Kuala Lumpur, Malaysia. Keywords: Solar cooling, Absorption chiller, Simulation, TRNSYS, Integration |
| url |
http://www.sciencedirect.com/science/article/pii/S2214157X19303909 |
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