Citations in impact factor journals
Exergetic Evaluation of Gas-Turbine Based Combined Cycle System
with Vapor Absorption Inlet Cooling Applied Thermal Engineering |
Waste heat from a biomass fueled gas turbine for power generation via an ORC or compressor inlet cooling via an absorption refrigeration cycle: A thermoeconomic comparison Applied Thermal Engineering |
Multi-objective optimization of a tri-generation system based on biomass gasification/digestion combined with S-CO2 cycle and absorption chiller Energy Conversion and Management |
Performance improvement of biomass-fueled closed cycle gas turbine via compressor inlet cooling using absorption refrigeration; thermoeconomic analysis and multi-objective optimization Energy Conversion and Management |
Role of modeling approach on the results of thermodynamic analysis: Concept presentation via thermoeconomic comparison of biomass gasification-fueled open and closed cycle gas turbines Energy Conversion and Management |
Multi-objective linear-regression-based optimization of a hybrid solar-gas turbine combined cycle with absorption inlet-air cooling unit Energy Conversion and Management |
Multi-criteria exergoeconomic optimization for a combined gas turbine-supercritical CO2 plant with compressor intake cooling fueled by biogas from anaerobic digestion Energy |
Comparative thermo-economic analysis of multi-fuel fired
gas turbine power plant Renewable Energy |
A novel solar combined cycle integration: An exergy-based optimization using artificial neural network Renewable Energy |
Citation to this article as recorded by
Abam, F.I., D.C. Onyejekwe and G.O. Unachukwu, 2011. The effect of ambient temperature on components performance of an in-service gas turbine plant using exergy method. Singapore J. Sci. Res., 1: 23-37. CrossRef |
Tamiru, A.L., F.M. Hashim and C. Rangkuti, 2011. Generating gas turbine component maps relying on partially known overall system characteristics. J. Applied Sci., 11: 1885-1894. CrossRefDirect Link |
Citation to this article as recorded by
Advanced Manufacturing Processes II Lecture Notes in Mechanical Engineering |
Energetic and Exergetic Performance Evaluation of a Gas Turbine–Powered Cogeneration System Using Reverse Brayton Refrigeration Cycle for Inlet Air Cooling Journal of Energy Engineering Vol. 142, Issue 3, 04015029, 2016 |
A Thermo-Environmental Evaluation of a Modified
Combustion Gas Turbine Plant Journal of Energy Resources Technology Vol. 141, Issue 4, 042004, 2018 |
Investigation the Integration of Heliostat Solar Receiver to Gas and Combined Cycles by Energy, Exergy, and Economic Point of Views Applied Sciences Vol. 10, Issue 15, 5307, 2020 |
Innovative Turbine Intake Air Cooling Systems and Their Rational Designing Energies Vol. 13, Issue 23, 6201, 2020 |
Generating Gas Turbine Component Maps Relying on Partially Known Overall System Characteristics Journal of Applied Sciences Vol. 11, Issue 11, 1885, 2011 |
The effect of ambient temperature on components performance of an in-service gas turbine plant using exergy method. Singapore Journal of Scientific Research Vol. 1, Issue 1, 23, 2011 |
How to cite this article
S.M.S. Mahmoudi, V. Zare, F. Ranjbar and L. Garooci Farshi, 2009. Energy and Exergy Analysis of Simple and Regenerative Gas Turbines Inlet Air Cooling Using Absorption Refrigeration. Journal of Applied Sciences, 9: 2399-2407.
DOI: 10.3923/jas.2009.2399.2407
URL: https://scialert.net/abstract/?doi=jas.2009.2399.2407
DOI: 10.3923/jas.2009.2399.2407
URL: https://scialert.net/abstract/?doi=jas.2009.2399.2407