Add to ORKGA very important component to achieve sustainable development in the energy sector is the improvement of energy efficiency of widely applied thermodynamic processes. Evaluation and optimization methods of energy processes play a crucial role in fulfilling this goal. A suitable method for the evaluation and optimization of energy conversion systems has been proven to be the exergetic analysis. In this work, three parabolic trough solar thermal power plants are simulated using commercial software, and they are further analyzed and compared using exergetic analysis. The goal is to detect thermodynamic inefficiencies of the three different configurations and propose measures to minimize them. The first simulated solar thermal plant uses a ther...
Direct steam generation in parabolic-trough collectors is considered a promising option for reducing...
Hybridization of Waste to Energy (WtE) plants with solar facilities can take competing energy techno...
This study presents a thermodynamic analysis of a 220MW thermal plant using its design and operating...
Nowadays, many health, environmental, and economic concerns are associated with fossil fuel use, and...
Traditional methods of analysis and calculation of complex thermal systems are based on the first...
Direct steam generation is a promising alternative to conventional heat transfer fluids for solar th...
Screw expanders are volumetric machines particularly suitable in energy conversion with steam-liquid...
Solar power tower plants differ from conventional power plants in the steam generator design due to ...
The latest developments in solar technologies demonstrated that the solar central receiver configura...
Current analysis and optimization methods of energy use in buildings are based on the assessment of ...
Until 2012, steam power plant supplies 44.02 % of national electricity demand. Most of steam power p...
ABSTRACT: Exergy, exergoeconomic and combined pinch and exergy analysis are beneficial methods that ...
The use of concentrating solar technologies for supplying heat and power in industrial processes is ...
AbstractThe growing energy supply, demand has created an interest towards the plant equipment effici...
A solar-aided coal-fired power plant realizes the integration of a fossil fuel (coal or gas) and cle...
Direct steam generation in parabolic-trough collectors is considered a promising option for reducing...
Hybridization of Waste to Energy (WtE) plants with solar facilities can take competing energy techno...
This study presents a thermodynamic analysis of a 220MW thermal plant using its design and operating...
Nowadays, many health, environmental, and economic concerns are associated with fossil fuel use, and...
Traditional methods of analysis and calculation of complex thermal systems are based on the first...
Direct steam generation is a promising alternative to conventional heat transfer fluids for solar th...
Screw expanders are volumetric machines particularly suitable in energy conversion with steam-liquid...
Solar power tower plants differ from conventional power plants in the steam generator design due to ...
The latest developments in solar technologies demonstrated that the solar central receiver configura...
Current analysis and optimization methods of energy use in buildings are based on the assessment of ...
Until 2012, steam power plant supplies 44.02 % of national electricity demand. Most of steam power p...
ABSTRACT: Exergy, exergoeconomic and combined pinch and exergy analysis are beneficial methods that ...
The use of concentrating solar technologies for supplying heat and power in industrial processes is ...
AbstractThe growing energy supply, demand has created an interest towards the plant equipment effici...
A solar-aided coal-fired power plant realizes the integration of a fossil fuel (coal or gas) and cle...
Direct steam generation in parabolic-trough collectors is considered a promising option for reducing...
Hybridization of Waste to Energy (WtE) plants with solar facilities can take competing energy techno...
This study presents a thermodynamic analysis of a 220MW thermal plant using its design and operating...