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Modelling, Simulation and Control of Thermal Energy Systems



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Autore: Lee Kwang Y Visualizza persona
Titolo: Modelling, Simulation and Control of Thermal Energy Systems Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica: 1 electronic resource (228 p.)
Soggetto topico: History of engineering & technology
Soggetto non controllato: supercritical circulating fluidized bed
boiler-turbine unit
active disturbance rejection control
burning carbon
genetic algorithm
Solar-assisted coal-fired power generation system
Singular weighted method
load dispatch
CSP plant model
transient analysis
power tracking control
two-tank direct energy storage
electronic device
flip chip component
thermal stress
thermal fatigue
life prediction
combustion engine efficiency
dynamic states
artificial neural network
dynamic modeling
thermal management
parameter estimation
energy storage operation and planning
electric and solar vehicles
ultra-supercritical unit
deep neural network
stacked auto-encoder
maximum correntropy
heat exchanger
forced convection
film coefficient
heat transfer
water properties
integrated energy system
operational optimization
air–fuel ratio
combustion control
dynamic matrix control
power plant control
high temperature low sag conductor
coefficient of thermal expansion
overhead conductor
low sag performance
chemical looping
wavelets
NARMA model
generalized predictive control (GPC)
steam supply scheduling
exergetic analysis
multi-objective
ε-constraint method
Persona (resp. second.): FlynnDamian
XieHui
SunLi
LeeKwang Y
Sommario/riassunto: Faced with an ever-growing resource scarcity and environmental regulations, the last 30 years have witnessed the rapid development of various renewable power sources, such as wind, tidal, and solar power generation. The variable and uncertain nature of these resources is well-known, while the utilization of power electronic converters presents new challenges for the stability of the power grid. Consequently, various control and operational strategies have been proposed and implemented by the industry and research community, with a growing requirement for flexibility and load regulation placed on conventional thermal power generation. Against this background, the modelling and control of conventional thermal engines, such as those based on diesel and gasoline, are experiencing serious obstacles when facing increasing environmental concerns. Efficient control that can fulfill the requirements of high efficiency, low pollution, and long durability is an emerging requirement. The modelling, simulation, and control of thermal energy systems are key to providing innovative and effective solutions. Through applying detailed dynamic modelling, a thorough understanding of the thermal conversion mechanism(s) can be achieved, based on which advanced control strategies can be designed to improve the performance of the thermal energy system, both in economic and environmental terms. Simulation studies and test beds are also of great significance for these research activities prior to proceeding to field tests. This Special Issue will contribute a practical and comprehensive forum for exchanging novel research ideas or empirical practices that bridge the modelling, simulation, and control of thermal energy systems. Papers that analyze particular aspects of thermal energy systems, involving, for example, conventional power plants, innovative thermal power generation, various thermal engines, thermal energy storage, and fundamental heat transfer management, on the basis of one or more of the following topics, are invited in this Special Issue: • Power plant modelling, simulation, and control; • Thermal engines; • Thermal energy control in building energy systems; • Combined heat and power (CHP) generation; • Thermal energy storage systems; • Improving thermal comfort technologies; • Optimization of complex thermal systems; • Modelling and control of thermal networks; • Thermal management of fuel cell systems; • Thermal control of solar utilization; • Heat pump control; • Heat exchanger control.
Titolo autorizzato: Modelling, Simulation and Control of Thermal Energy Systems  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557113403321
Lo trovi qui: Univ. Federico II
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