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Advanced exergy analysis of a combined gas power cycle with humidification

International Journal of Green Energy, 2020
A combined gas power cycle with humidification has been investigated using the advanced exergy analysis.
A.K. Mossi Idrissa, K. Goni Boulama
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Thermodynamic evaluation of a geothermal power plant for advanced exergy analysis

Energy, 2015
Abstract As a result of decreasing fossil fuel resources and their adverse impacts on the environment, interest in renewable energy resources, particularly geothermal energy, has been revived. Finding approaches that are more accurate and systematic to the energy system development is of great importance for the exploitation of geothermal energy. The
Keçebaş, Ali, Gökgedik, Harun
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Exploring avoidable carbon emissions by reducing exergy destruction based on advanced exergy analysis: A case study

Energy, 2020
Abstract The energy efficiency improvement and practicable carbon emission reduction of coal chemical industry as well as other industrial systems are major concerns associated with designing feasible carbon emission reduction scheme. Based on advanced exergy analysis, this study establishes quantitative analysis between exergy destruction and direct
Junnian Wu, Na Wang
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Advanced Exergy Analysis of GT-sCO2 Combined Cycle

Journal of Thermal Science and Engineering Applications
Abstract The use of the supercritical carbon dioxide Brayton cycle (SCBC) for waste heat recovery from the gas turbine cycle (GTC) can enhance system performance and reduce CO2 emissions. To analyze the possibility of component optimization and the characteristics of the exergy destruction, a model of a gas turbine-supercritical carbon ...
Du Wang   +4 more
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Advanced thermodynamic analysis on exergy flow grafs

2017
У статті запропоновано загальний підхід для термодинамічної аналізу систем довільної структури. Метод заснований на побудові і аналізі нового виду ексергією-топологічної моделі – ексергетичному потоковому графі і дозволив підвищити ефективність енерго-інтенсивних систем. Було показано, що процеси, які відбуваються в складних енерго-інтенсивних системах,
Nikulshin, Volodimir   +2 more
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Exergy Linked to Environmental Impacts: Advanced Exergoenvironmental Analysis of an Advanced Zero Emission Plant

Volume 4: Energy Systems Analysis, Thermodynamics and Sustainability; Combustion Science and Engineering; Nanoengineering for Energy, Parts A and B, 2011
Exergy-based analyses are useful means for the evaluation and improvement of energy conversion systems. A life cycle assessment (LCA) is coupled with an exergetic analysis in an exergo-environmental analysis. An advanced exergo-environmental analysis quantifies the environmental impacts estimated in the LCA into avoidable/unavoidable parts and into ...
F. Petrakopoulou   +2 more
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Advanced Exergy and Exergoenvironmental Analysis of an Integrated Power and Refrigeration System

Journal of Testing and Evaluation
ABSTRACT This study looks at the performance of a system that combines an organic Rankine cycle (ORC) and an ejector refrigeration system (ERC) using advanced exergy and exergoenvironmental-based methods to find ways to make it better and to see how the different parts of the system work together.
M. Jaya Om Prakash, N. Shankar Ganesh
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Advanced Exergy Analysis of the Flash Ironmaking Process

36th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2023), 2023
Jannik Neumann   +2 more
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Energy, conventional exergy and advanced exergy analysis of cryogenic recuperative organic rankine cycle

Energy, 2023
Zhen Tian   +5 more
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Advanced Exergy Analysis of a Compression–Absorption Cascade Refrigeration System

Journal of Energy Resources Technology, 2018
This work presents a theoretical thermodynamic study of a compression–absorption cascade refrigeration system using R134a and a lithium bromide–water solution as working fluids. First and second law of thermodynamics analyses were carried out in order to develop an advanced exergetic analysis, by splitting the total irreversibility and that of every ...
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