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Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
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Distributed generation is becoming more important in electrical power systems due to the decentralization of energy production. Within this new paradigm, new approaches for the operation and planning of distributed power generation are yet to be explored. This book deals with distributed energy resources, such as renewable-based distributed generators and energy storage units, among others, considering their operation, scheduling, and planning. Moreover, other interesting aspects such as demand response, electric vehicles, aggregators, and microgrid are also analyzed. All these aspects constitute a new paradigm that is explored in this Special Issue.
Technology: general issues --- Benders’ decomposition --- distributed generation planning (DGP) --- two-stage stochastic mixed-integer linear programming (MILP) --- renewable energy sources (RES) --- micro-grid --- energy management system --- IEC 61850 --- 5G --- LoRa --- multi-agent system --- isolated AC/DC hybrid microgrid --- two-layer consensus method --- dynamic economic dispatch --- distributed hierarchical strategy --- MILP optimization --- allocation --- renewable energy sources --- system modeling --- energy storages --- energy curtailment --- mathematical programming --- small scale distributed generation --- distribution networks --- active power management --- battery degradation --- electric vehicles --- electric vehicles aggregator --- electricity markets --- stochastic programming --- combined economic emission dispatch --- environment-based demand response --- emission constraints --- penalty factor --- weighting update artificial bee colony --- distribution network planning --- energy storage system --- multi-objective optimization --- optimal location --- risk assessment --- flexibility --- distributed energy resources --- distribution system operators --- local services --- system services --- arbitrage --- frequency control
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Distributed generation is becoming more important in electrical power systems due to the decentralization of energy production. Within this new paradigm, new approaches for the operation and planning of distributed power generation are yet to be explored. This book deals with distributed energy resources, such as renewable-based distributed generators and energy storage units, among others, considering their operation, scheduling, and planning. Moreover, other interesting aspects such as demand response, electric vehicles, aggregators, and microgrid are also analyzed. All these aspects constitute a new paradigm that is explored in this Special Issue.
Benders’ decomposition --- distributed generation planning (DGP) --- two-stage stochastic mixed-integer linear programming (MILP) --- renewable energy sources (RES) --- micro-grid --- energy management system --- IEC 61850 --- 5G --- LoRa --- multi-agent system --- isolated AC/DC hybrid microgrid --- two-layer consensus method --- dynamic economic dispatch --- distributed hierarchical strategy --- MILP optimization --- allocation --- renewable energy sources --- system modeling --- energy storages --- energy curtailment --- mathematical programming --- small scale distributed generation --- distribution networks --- active power management --- battery degradation --- electric vehicles --- electric vehicles aggregator --- electricity markets --- stochastic programming --- combined economic emission dispatch --- environment-based demand response --- emission constraints --- penalty factor --- weighting update artificial bee colony --- distribution network planning --- energy storage system --- multi-objective optimization --- optimal location --- risk assessment --- flexibility --- distributed energy resources --- distribution system operators --- local services --- system services --- arbitrage --- frequency control
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
The Special Issue “Game Theory” of the journal Mathematics provides a collection of papers that represent modern trends in mathematical game theory and its applications. The works address the problem of constructing and implementation of solution concepts based on classical optimality principles in different classes of games. In the case of non-cooperative behavior of players, the Nash equilibrium as a basic optimality principle is considered in both static and dynamic game settings. In the case of cooperative behavior of players, the situation is more complicated. As is seen from presented papers, the direct use of cooperative optimality principles in dynamic and differential games may bring time or subgame inconsistency of a solution which makes the cooperative schemes unsustainable. The notion of time or subgame consistency is crucial to the success of cooperation in a dynamic framework. In the works devoted to dynamic or differential games, this problem is analyzed and the special regularization procedures proposed to achieve time or subgame consistency of cooperative solutions. Among others, special attention in the presented book is paid to the construction of characteristic functions which determine the power of coalitions in games. The book contains many multi-disciplinary works applied to economic and environmental applications in a coherent manner.
pursuit --- control functions --- integral constraints --- strategies --- value of the game --- decision-making --- game theory --- project management --- differential games --- cooperative differential games --- Time Consistency --- IDP-core --- IDP dominance --- two-sided platform market --- pricing --- Hotelling’s duopoly on the plane --- Nash equilibrium --- optimal location of platforms --- prescribed duration --- characteristic function --- environmental resource management --- pollution control --- discrete-time games --- cooperation --- the core --- linear transformation --- time consistency --- multistage game --- chance moves --- subgame perfect equilibria --- cooperative trajectory --- imputation distribution procedure --- random time horizon --- time until failure --- discounted equilibrium --- weibull distribution --- chen distribution --- equivalence principle --- cooperative game --- satisfaction criteria --- proportional value --- axiomatization --- cooperative stochastic game --- strong subgame consistency --- core --- dynamic games --- multicriteria games --- Nash bargaining solution --- dynamic stability --- rational behavior conditions --- Shapley-Solidarity value --- coalition structure --- potential --- bidding mechanism
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
Distributed generation is becoming more important in electrical power systems due to the decentralization of energy production. Within this new paradigm, new approaches for the operation and planning of distributed power generation are yet to be explored. This book deals with distributed energy resources, such as renewable-based distributed generators and energy storage units, among others, considering their operation, scheduling, and planning. Moreover, other interesting aspects such as demand response, electric vehicles, aggregators, and microgrid are also analyzed. All these aspects constitute a new paradigm that is explored in this Special Issue.
Technology: general issues --- Benders’ decomposition --- distributed generation planning (DGP) --- two-stage stochastic mixed-integer linear programming (MILP) --- renewable energy sources (RES) --- micro-grid --- energy management system --- IEC 61850 --- 5G --- LoRa --- multi-agent system --- isolated AC/DC hybrid microgrid --- two-layer consensus method --- dynamic economic dispatch --- distributed hierarchical strategy --- MILP optimization --- allocation --- renewable energy sources --- system modeling --- energy storages --- energy curtailment --- mathematical programming --- small scale distributed generation --- distribution networks --- active power management --- battery degradation --- electric vehicles --- electric vehicles aggregator --- electricity markets --- stochastic programming --- combined economic emission dispatch --- environment-based demand response --- emission constraints --- penalty factor --- weighting update artificial bee colony --- distribution network planning --- energy storage system --- multi-objective optimization --- optimal location --- risk assessment --- flexibility --- distributed energy resources --- distribution system operators --- local services --- system services --- arbitrage --- frequency control
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
The Special Issue “Game Theory” of the journal Mathematics provides a collection of papers that represent modern trends in mathematical game theory and its applications. The works address the problem of constructing and implementation of solution concepts based on classical optimality principles in different classes of games. In the case of non-cooperative behavior of players, the Nash equilibrium as a basic optimality principle is considered in both static and dynamic game settings. In the case of cooperative behavior of players, the situation is more complicated. As is seen from presented papers, the direct use of cooperative optimality principles in dynamic and differential games may bring time or subgame inconsistency of a solution which makes the cooperative schemes unsustainable. The notion of time or subgame consistency is crucial to the success of cooperation in a dynamic framework. In the works devoted to dynamic or differential games, this problem is analyzed and the special regularization procedures proposed to achieve time or subgame consistency of cooperative solutions. Among others, special attention in the presented book is paid to the construction of characteristic functions which determine the power of coalitions in games. The book contains many multi-disciplinary works applied to economic and environmental applications in a coherent manner.
Research & information: general --- Mathematics & science --- pursuit --- control functions --- integral constraints --- strategies --- value of the game --- decision-making --- game theory --- project management --- differential games --- cooperative differential games --- Time Consistency --- IDP-core --- IDP dominance --- two-sided platform market --- pricing --- Hotelling’s duopoly on the plane --- Nash equilibrium --- optimal location of platforms --- prescribed duration --- characteristic function --- environmental resource management --- pollution control --- discrete-time games --- cooperation --- the core --- linear transformation --- time consistency --- multistage game --- chance moves --- subgame perfect equilibria --- cooperative trajectory --- imputation distribution procedure --- random time horizon --- time until failure --- discounted equilibrium --- weibull distribution --- chen distribution --- equivalence principle --- cooperative game --- satisfaction criteria --- proportional value --- axiomatization --- cooperative stochastic game --- strong subgame consistency --- core --- dynamic games --- multicriteria games --- Nash bargaining solution --- dynamic stability --- rational behavior conditions --- Shapley-Solidarity value --- coalition structure --- potential --- bidding mechanism
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
CFD is an emerging area and is gaining popularity due to the availability of ever-increasing computational power. If used accurately, CFD methods may overcome the limitations of experimental and other numerical methods, in some respects. This Special Issue focuses on Computational Fluid Dynamics (CFD) Simulations of Marine Hydrodynamics with a specific focus on the applications of naval architecture and ocean engineering, and it comprises 24 original articles that advance state-of-the-art CFD applications in marine hydrodynamics and/or review the progress and future directions of research in this field. The published articles cover a wide range of subjects relevant to naval architecture and ocean engineering, including but not limited to; ship resistance and propulsion, seakeeping and maneuverability, hydrodynamics of marine renewable energy devices, validation and verification of computational fluid dynamics (CFD), EFD/CFD combined methods, fouling/coating hydrodynamics.
CFD --- shallow water --- restricted water --- KCS --- spectral analysis of free surfaces --- air resistance --- container ship --- superstructure --- numerical simulation --- trim --- dispersion --- pH --- turbulent Schmidt number --- scrubber --- wash water --- ship hydrodynamics --- ship motions --- green water on deck --- slamming --- cross wave --- near free surface --- unsteady cavitation dynamics --- NACA66 hydrofoil --- dynamic mode decomposition --- wave energy --- computational fluid dynamics --- identification --- viscous damping --- URANS --- computational fluid dynamic --- experimental fluid dynamic --- sailboat --- hull --- towing tank test --- numerical ventilation --- overset --- volume of fluid (VOF), hydrodynamic --- Polito Sailing Team (PST) --- offshore crane --- OpenFOAM --- wave-payload interaction --- NWT --- overset mesh --- planing hull --- seakeeping --- vertical motions --- mesh deformation --- computational fluid dynamics (CFD) --- radial basis function (RBF) method --- inverse distance weighted (IDW) method --- hull form optimization --- Computational Fluid Dynamics --- Verification and Validation --- nearfield wake pattern --- longitudinal wake profile --- distributed propulsion --- draft --- parallel-sided --- NACA --- CAD --- systematic investigation --- low Reynolds number --- sailing --- centerboard --- Bézier curves --- gamma transition criterion --- restricted channel --- resistance correction --- biofouling --- ship performance --- oil tanker --- bulk carrier --- immersed boundary method --- air–water two-phase flows --- VoF method --- finite volume method --- interaction effect --- wind drag --- aerodynamic --- Reynolds Average Navier–Stokes (RANS) --- rudder–propeller interactions --- validations and verification --- actuator disk theory --- rudder sectional forces --- marginal ice zone --- sea ice --- wave --- six degree of freedom (6DoF) motion --- planing craft --- twin side-hulls --- porpoising instability --- model tests --- inhibition mechanism --- optimal location --- ship resistance --- form factor --- best practice guidelines --- numerical friction line --- combined CFD/EFD methods --- next generation subsea production system --- Immersed Buoyant Platform --- hydrodynamic characteristics --- ultra-deep sea --- swallowing capacity --- duct flow --- ducted turbine --- roughness effect --- Wigley hull --- heterogeneous hull roughness
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
CFD is an emerging area and is gaining popularity due to the availability of ever-increasing computational power. If used accurately, CFD methods may overcome the limitations of experimental and other numerical methods, in some respects. This Special Issue focuses on Computational Fluid Dynamics (CFD) Simulations of Marine Hydrodynamics with a specific focus on the applications of naval architecture and ocean engineering, and it comprises 24 original articles that advance state-of-the-art CFD applications in marine hydrodynamics and/or review the progress and future directions of research in this field. The published articles cover a wide range of subjects relevant to naval architecture and ocean engineering, including but not limited to; ship resistance and propulsion, seakeeping and maneuverability, hydrodynamics of marine renewable energy devices, validation and verification of computational fluid dynamics (CFD), EFD/CFD combined methods, fouling/coating hydrodynamics.
Technology: general issues --- CFD --- shallow water --- restricted water --- KCS --- spectral analysis of free surfaces --- air resistance --- container ship --- superstructure --- numerical simulation --- trim --- dispersion --- pH --- turbulent Schmidt number --- scrubber --- wash water --- ship hydrodynamics --- ship motions --- green water on deck --- slamming --- cross wave --- near free surface --- unsteady cavitation dynamics --- NACA66 hydrofoil --- dynamic mode decomposition --- wave energy --- computational fluid dynamics --- identification --- viscous damping --- URANS --- computational fluid dynamic --- experimental fluid dynamic --- sailboat --- hull --- towing tank test --- numerical ventilation --- overset --- volume of fluid (VOF), hydrodynamic --- Polito Sailing Team (PST) --- offshore crane --- OpenFOAM --- wave-payload interaction --- NWT --- overset mesh --- planing hull --- seakeeping --- vertical motions --- mesh deformation --- computational fluid dynamics (CFD) --- radial basis function (RBF) method --- inverse distance weighted (IDW) method --- hull form optimization --- Computational Fluid Dynamics --- Verification and Validation --- nearfield wake pattern --- longitudinal wake profile --- distributed propulsion --- draft --- parallel-sided --- NACA --- CAD --- systematic investigation --- low Reynolds number --- sailing --- centerboard --- Bézier curves --- gamma transition criterion --- restricted channel --- resistance correction --- biofouling --- ship performance --- oil tanker --- bulk carrier --- immersed boundary method --- air–water two-phase flows --- VoF method --- finite volume method --- interaction effect --- wind drag --- aerodynamic --- Reynolds Average Navier–Stokes (RANS) --- rudder–propeller interactions --- validations and verification --- actuator disk theory --- rudder sectional forces --- marginal ice zone --- sea ice --- wave --- six degree of freedom (6DoF) motion --- planing craft --- twin side-hulls --- porpoising instability --- model tests --- inhibition mechanism --- optimal location --- ship resistance --- form factor --- best practice guidelines --- numerical friction line --- combined CFD/EFD methods --- next generation subsea production system --- Immersed Buoyant Platform --- hydrodynamic characteristics --- ultra-deep sea --- swallowing capacity --- duct flow --- ducted turbine --- roughness effect --- Wigley hull --- heterogeneous hull roughness
Book
Year: 2021 Publisher: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute
Abstract | Keywords | Export | Availability | Bookmark
Loading...Choose an application
- Reference Manager
- EndNote
- RefWorks (Direct export to RefWorks)
CFD is an emerging area and is gaining popularity due to the availability of ever-increasing computational power. If used accurately, CFD methods may overcome the limitations of experimental and other numerical methods, in some respects. This Special Issue focuses on Computational Fluid Dynamics (CFD) Simulations of Marine Hydrodynamics with a specific focus on the applications of naval architecture and ocean engineering, and it comprises 24 original articles that advance state-of-the-art CFD applications in marine hydrodynamics and/or review the progress and future directions of research in this field. The published articles cover a wide range of subjects relevant to naval architecture and ocean engineering, including but not limited to; ship resistance and propulsion, seakeeping and maneuverability, hydrodynamics of marine renewable energy devices, validation and verification of computational fluid dynamics (CFD), EFD/CFD combined methods, fouling/coating hydrodynamics.
Technology: general issues --- CFD --- shallow water --- restricted water --- KCS --- spectral analysis of free surfaces --- air resistance --- container ship --- superstructure --- numerical simulation --- trim --- dispersion --- pH --- turbulent Schmidt number --- scrubber --- wash water --- ship hydrodynamics --- ship motions --- green water on deck --- slamming --- cross wave --- near free surface --- unsteady cavitation dynamics --- NACA66 hydrofoil --- dynamic mode decomposition --- wave energy --- computational fluid dynamics --- identification --- viscous damping --- URANS --- computational fluid dynamic --- experimental fluid dynamic --- sailboat --- hull --- towing tank test --- numerical ventilation --- overset --- volume of fluid (VOF), hydrodynamic --- Polito Sailing Team (PST) --- offshore crane --- OpenFOAM --- wave-payload interaction --- NWT --- overset mesh --- planing hull --- seakeeping --- vertical motions --- mesh deformation --- computational fluid dynamics (CFD) --- radial basis function (RBF) method --- inverse distance weighted (IDW) method --- hull form optimization --- Computational Fluid Dynamics --- Verification and Validation --- nearfield wake pattern --- longitudinal wake profile --- distributed propulsion --- draft --- parallel-sided --- NACA --- CAD --- systematic investigation --- low Reynolds number --- sailing --- centerboard --- Bézier curves --- gamma transition criterion --- restricted channel --- resistance correction --- biofouling --- ship performance --- oil tanker --- bulk carrier --- immersed boundary method --- air–water two-phase flows --- VoF method --- finite volume method --- interaction effect --- wind drag --- aerodynamic --- Reynolds Average Navier–Stokes (RANS) --- rudder–propeller interactions --- validations and verification --- actuator disk theory --- rudder sectional forces --- marginal ice zone --- sea ice --- wave --- six degree of freedom (6DoF) motion --- planing craft --- twin side-hulls --- porpoising instability --- model tests --- inhibition mechanism --- optimal location --- ship resistance --- form factor --- best practice guidelines --- numerical friction line --- combined CFD/EFD methods --- next generation subsea production system --- Immersed Buoyant Platform --- hydrodynamic characteristics --- ultra-deep sea --- swallowing capacity --- duct flow --- ducted turbine --- roughness effect --- Wigley hull --- heterogeneous hull roughness
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