Artificial intelligent methods for thermodynamic evaluation of ammonia–water refrigeration systems-Reference-Cited by-同舟云学术

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Artificial intelligent methods for thermodynamic evaluation of ammonia–water refrigeration systems

Published:2006-11 Issue:18-19 Volume:47 Page:3319-3332
ISSN:0196-8904
Container-title:Energy Conversion and Management
language:en
Short-container-title:Energy Conversion and Management

Author:

Şencan Arzu

Publisher

Elsevier BV

Subject

Energy Engineering and Power Technology,Fuel Technology,Nuclear Energy and Engineering,Renewable Energy, Sustainability and the Environment

Reference41 articles.

1. Study and control of the optimal generation temperature in NH3–H2O absorption refrigeration systems;Fernandez;Appl Therm Eng,2001

2. Development and testing of a prototype of low-power water–ammonia absorption equipment for solar energy applications;Francisco;Renew Energy,2002

3. Modeling and simulation of solar absorption system performance in Beirut;Ghaddar;Renew Energy,1997

4. Optimum performance characteristics of an irreversible absorption refrigeration system;Chen;Energy Convers Manage,1998

5. Global optimization of absorption chiller system by genetic algorithm and neural network;Chow;Energy Buildings,2002

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1. Development of an efficient ammonia-water power cycle through heat exchanger network analysis and artificial neural network;Applied Thermal Engineering;2023-01

2. Multivariate inverse artificial neural network to analyze and improve the mass transfer of ammonia in a Plate Heat Exchanger-Type Absorber with NH₃/H₂O for solar cooling applications;Energy Exploration & Exploitation;2022-02-11

3. Parametric study of absorption refrigeration with vapor compression refrigeration cycle using wet, isentropic and azeotropic working fluids: Conventional and advanced exergy approach;Energy;2020-06

4. Characterization of Ammonia–Water Absorption Chiller and Application;International Journal of Air-Conditioning and Refrigeration;2018-12

5. Investigation of a cascade waste heat recovery system based on coupling of steam Rankine cycle and NH3-H2O absorption refrigeration cycle;Energy Conversion and Management;2018-06

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