Modeling and Simulation of Energy Systems
Adams II, Thomas A.
Modeling and Simulation of Energy Systems - MDPI - Multidisciplinary Digital Publishing Institute 2019 - 1 electronic resource (496 p.)
Open Access
Energy Systems Engineering is one of the most exciting and fastest growing fields in engineering. Modeling and simulation plays a key role in Energy Systems Engineering because it is the primary basis on which energy system design, control, optimization, and analysis are based. This book contains a specially curated collection of recent research articles on the modeling and simulation of energy systems written by top experts around the world from universities and research labs, such as Massachusetts Institute of Technology, Yale University, Norwegian University of Science and Technology, National Energy Technology Laboratory of the US Department of Energy, University of Technology Sydney, McMaster University, Queens University, Purdue University, the University of Connecticut, Technical University of Denmark, the University of Toronto, Technische Universität Berlin, Texas A&M, the University of Pennsylvania, and many more. The key research themes covered include energy systems design, control systems, flexible operations, operational strategies, and systems analysis. The addressed areas of application include electric power generation, refrigeration cycles, natural gas liquefaction, shale gas treatment, concentrated solar power, waste-to-energy systems, micro-gas turbines, carbon dioxide capture systems, energy storage, petroleum refinery unit operations, Brayton cycles, to name but a few.
Creative Commons
English
books978-3-03921-519-5 9783039215195 9783039215188
10.3390/books978-3-03921-519-5 doi
FCMP modeling and simulation multiphase equilibrium modeling polymer electrolyte membrane fuel cell (PEMFC) dynamic simulation simulation multi-scale systems engineering process simulation cycling time-delay exergy loss gas path analysis oil and gas solar PV optimization second law efficiency auto thermal reformer friction factor optimal battery operation biodiesel energy time-varying operation efficiency process synthesis and design nonsmooth modeling mixture ratio supercritical CO2 dynamic optimization technoeconomic analysis work and heat integration compressibility factor multi-objective optimisation circulating fluidized bed boiler wind power naphtha recovery unit cost optimization recompression cycle hybrid Life Cycle Assessment post-combustion CO2 capture piecewise-linear function generation solar energy industrial process heat kriging statistical model supercritical pulverized coal (SCPC) parabolic trough combined cycle H2O-LiBr working pair linearization process integration smith predictor process design analysis by synthesis MINLP methyl-oleate diagnostics offshore wind double-effect system shale gas condensate geothermal energy multi-loop control R123 waste to energy hybrid system cogeneration energy storage energy efficiency nonlinear mathematical programming superstructure concentrating solar thermal desalination modelling binary cycle organic Rankine cycle refuse derived fuel power plants WHENS process control compressor modeling energy systems PTC life cycle analysis natural gas transportation isentropic exponent top-down models thermal storage supercritical carbon dioxide operations sustainable process design hybrid solar energy management R245fa building blocks energy economics micro gas turbine CSP fuel cost minimization problem CST palladium membrane hydrogen separation battery degradation optimal control RK-ASPEN process systems engineering supervisory control absorption refrigeration concentrating solar power shale gas condensate-to-heavier liquids Dieng DMR liquefaction processes dynamic modeling Organic Rankine Cycle (ORC) load-following demand response Indonesia
Modeling and Simulation of Energy Systems - MDPI - Multidisciplinary Digital Publishing Institute 2019 - 1 electronic resource (496 p.)
Open Access
Energy Systems Engineering is one of the most exciting and fastest growing fields in engineering. Modeling and simulation plays a key role in Energy Systems Engineering because it is the primary basis on which energy system design, control, optimization, and analysis are based. This book contains a specially curated collection of recent research articles on the modeling and simulation of energy systems written by top experts around the world from universities and research labs, such as Massachusetts Institute of Technology, Yale University, Norwegian University of Science and Technology, National Energy Technology Laboratory of the US Department of Energy, University of Technology Sydney, McMaster University, Queens University, Purdue University, the University of Connecticut, Technical University of Denmark, the University of Toronto, Technische Universität Berlin, Texas A&M, the University of Pennsylvania, and many more. The key research themes covered include energy systems design, control systems, flexible operations, operational strategies, and systems analysis. The addressed areas of application include electric power generation, refrigeration cycles, natural gas liquefaction, shale gas treatment, concentrated solar power, waste-to-energy systems, micro-gas turbines, carbon dioxide capture systems, energy storage, petroleum refinery unit operations, Brayton cycles, to name but a few.
Creative Commons
English
books978-3-03921-519-5 9783039215195 9783039215188
10.3390/books978-3-03921-519-5 doi
FCMP modeling and simulation multiphase equilibrium modeling polymer electrolyte membrane fuel cell (PEMFC) dynamic simulation simulation multi-scale systems engineering process simulation cycling time-delay exergy loss gas path analysis oil and gas solar PV optimization second law efficiency auto thermal reformer friction factor optimal battery operation biodiesel energy time-varying operation efficiency process synthesis and design nonsmooth modeling mixture ratio supercritical CO2 dynamic optimization technoeconomic analysis work and heat integration compressibility factor multi-objective optimisation circulating fluidized bed boiler wind power naphtha recovery unit cost optimization recompression cycle hybrid Life Cycle Assessment post-combustion CO2 capture piecewise-linear function generation solar energy industrial process heat kriging statistical model supercritical pulverized coal (SCPC) parabolic trough combined cycle H2O-LiBr working pair linearization process integration smith predictor process design analysis by synthesis MINLP methyl-oleate diagnostics offshore wind double-effect system shale gas condensate geothermal energy multi-loop control R123 waste to energy hybrid system cogeneration energy storage energy efficiency nonlinear mathematical programming superstructure concentrating solar thermal desalination modelling binary cycle organic Rankine cycle refuse derived fuel power plants WHENS process control compressor modeling energy systems PTC life cycle analysis natural gas transportation isentropic exponent top-down models thermal storage supercritical carbon dioxide operations sustainable process design hybrid solar energy management R245fa building blocks energy economics micro gas turbine CSP fuel cost minimization problem CST palladium membrane hydrogen separation battery degradation optimal control RK-ASPEN process systems engineering supervisory control absorption refrigeration concentrating solar power shale gas condensate-to-heavier liquids Dieng DMR liquefaction processes dynamic modeling Organic Rankine Cycle (ORC) load-following demand response Indonesia