Thermodynamic Optimization
A special issue of Entropy (ISSN 1099-4300). This special issue belongs to the section "Thermodynamics".
Deadline for manuscript submissions: closed (30 April 2020) | Viewed by 35414
Special Issue Editors
Interests: sustainable transportation; fuel cell vehicles; energy–water nexus; optimization; MATLAB simulation; Energy; renewable energy technologies; thermal engineering; engineering thermodynamics; power generation; modeling; mathematical modelling
Special Issues, Collections and Topics in MDPI journals
Interests: sustainable energy technologies; integrated energy systems; environment sustainability; thermal energy storage
Special Issues, Collections and Topics in MDPI journals
Special Issue Information
Dear Colleagues,
Optimization in engineering has been a key item for years, and industries have tried to have their systems operating at optimum efficiency and always try to have the best profit. Energy engineering is a field where optimization plays a particularly important role. Engineers involved in thermal engineering, for instance, are required to answer critical questions related to the optimal size of thermal/energy systems, the maximum efficiency of the systems, minimum product costs of the systems and any other related topics. In energy engineering, it is important to optimize processes so that a chosen quantity, known as the objective function, is maximized or minimized. Consequently, design engineering, as the most crucial stage of creating a system, is intensely integrated with optimization.
There has been significant progress in the applications of thermodynamic optimization in various thermal and/or energy systems ranging from exergy analysis, exergetic based optimization, application of optimization in several systems such as power plants (e.g., fossil fuel based power plants, renewable based power plants and even their integration), fuel cell systems and their integration, chemical processes (e.g., petrochemical plants, biomass gasification, and ammonia synthesis), low exergy systems for high-performance buildings, distillation and desalination, waste heat recovery (WHR) and the organic Rankin cycle (ORC), advanced cooling and heating systems, energy storage systems, integrated energy systems (e.g., cooling and heating pant (CHP), combined cooling and heating pant (CCHP) and multi-generation), multi-objective optimization, lifecycle optimization, etc.
We cordially invite researchers, students and engineers to submit their research papers related to thermodynamic optimization of energy systems for consideration in this Special Issue.
Dr. Pouria Ahmadi
Dr. Behnaz Rezaie
Guest Editors
Manuscript Submission Information
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Keywords
- Thermodynamics
- Exergy analysis
- design and optimization
- objective function
- efficiency
- cost
- emission reduction
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