Journal ArticleDOI
Performance Comparison of a Vapor-Adsorption Cycle-Based Gas Turbine Inlet Air Cooling System for Different Refrigerants
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In this paper, a comparative analysis of the vapor-adsorption cycle-based TIAC system for four different refrigerants viz. HFC-134a, carbon dioxide, ethanol and ammonia is presented.Abstract:
Presently, to enhance the thermal efficiency of a gas turbine power plant, turbine inlet air cooling (TIAC) is the widely used technique. The conventional refrigeration methods like vapor compression refrigeration and evaporative cooling need electric power, hence absorption and adsorption refrigeration systems are attractive options as they can be powered using the waste heat energy of the exhaust gases. Adsorption system has advantages over absorption system like scalability, requirement of lower heat source temperature, absence of corrosion and crystallization. This paper focuses on the thermodynamic analysis of waste heat powered adsorption chiller used for the cooling of intake air to enhance the net power output of the gas turbine power plant. This paper also presents a comparative analysis of the vapor-adsorption cycle-based TIAC system for four different refrigerants viz. HFC-134a, carbon dioxide, ethanol and ammonia with the motive of finding a substitute refrigerant for HFC-134a which has a high...read more
Citations
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Journal ArticleDOI
Evaluation of Minimum, Maximum and Optimum Source Temperature for Solar-Powered Adsorption Refrigeration System
TL;DR: In this paper, the authors focus on the evaluation of lower, upper and optimum temperatures of the heat source to run the adsorption refrigeration system and derive the limits of source (desorption) temperatures and applied to two different adsorbent-adsorbate pairs.
Journal ArticleDOI
Performance Investigation of a Vapor Adsorption Refrigeration System Based on Adsorption/Desorption Time and Heat Transfer
Manudeep Pendurthi,Vamsi Bhargav Pelluru,Anjaneyulu Chilakapati,Devendra Dandotiya,N. D. Banker +4 more
TL;DR: In this paper, the performance of the adsorption refrigeration system has been studied concerning adsorbing/desorption time and heat transfer of adsorber, and a mathematical model has been developed to study the performance and applied to three adsorbent-adsorbate pairs.
References
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Journal ArticleDOI
Experimental investigation on activated carbon–ethanol pair for solar powered adsorption cooling applications
Ibrahim I. El-Sharkawy,Ibrahim I. El-Sharkawy,Bidyut Baran Saha,Shigeru Koyama,Jingming He,Kim Choon Ng,Christopher Yap +6 more
TL;DR: In this paper, the performance of the ideal adsorption cooling cycle has also been studied and compared to that of activated carbon fiber (ACF)-ethanol pair, which can adsorb up to 1.2 kg of ethanol per kilogram of adsorbent.
Journal ArticleDOI
Carbon-ammonia pairs for adsorption refrigeration applications: ice making, air conditioning and heat pumping
TL;DR: In this article, a thermodynamic cycle model is used to select an optimum adsorbent-refrigerant pair in respect of a chosen figure of merit that could be the cooling production (MJ m(-3)), the heating production, or the coefficient of performance (COP).
Journal ArticleDOI
Study on an activated carbon fiber–ethanol adsorption chiller: Part I – system description and modelling
TL;DR: In this article, a two-bed, activated carbon fiber (ACF)-ethanol adsorption chiller is presented, which utilizes effectively low-temperature waste heat sources of temperature between 60 and 95°C along with a coolant at 30°C.
Journal ArticleDOI
Carbon Dioxide Adsorption Isotherms on Activated Carbons
TL;DR: In this paper, the authors presented adsorption isotherm data of CO2 onto two different types of highly porous activated carbons (ACs) for temperatures ranging from (−18 to 80) °C and pressures up to 10 MPa.
Journal ArticleDOI
Modelling and performance study of a continuous adsorption refrigeration system driven by parabolic trough solar collector
TL;DR: In this paper, a numerical study of a continuous adsorption refrigeration system consisting of two adsorbent beds and powered by a parabolic trough solar collector is presented, and the system performance is assessed in terms of specific cooling power (SCP), refrigeration cycle COP (COP cycle ) and solar coefficient of performance.
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