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Handbook of Networks in Power Systems II / edited by Alexey Sorokin, Steffen Rebennack, Panos M. Pardalos, Niko A. Iliadis, Mario V. F. Pereira
Contributor(s): Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Series: Energy Systems | SpringerLink BücherPublisher: Berlin, Heidelberg : Springer Berlin Heidelberg, 2012Description: Online-Ressource (VIII, 220 p, online resource)ISBN:- 9783642234064
- 330
- 665.701/5118
- 515.64
- QA315-316 QA402.3 QA402.5-QA402.6
- QA315-316
- QA402.3
- QA402.5-QA402.6
- Online Book
Contents:
Summary: Energy has been an inevitable component of human lives for decades. Recent rapid developments in the area require analyzing energy systems not as independent components but rather as connected interdependent networks. The Handbook of Networks in Power Systems includes the state-of-the-art developments that occurred in the power systems networks, in particular gas, electricity, liquid fuels, freight networks, as well as their interactions. The book is separated into two volumes with three sections, where one scientific paper or more are included to cover most important areas of networks in power systems. The first volume covers topics arising in electricity network, in particular electricity markets, smart grid, network expansion, as well as risk management. The second volume presents problems arising in gas networks; such as scheduling and planning of natural gas systems, pricing, as well as optimal location of gas supply units. In addition, the second volume covers the topics of interactions between energy networks. Each subject is identified following the activity on the domain and the recognition of each subject as an area of research. The scientific papers are authored by world specialists on the domain and present either state-of-the-arts reviews or scientific developments.PPN: PPN: 1651395829Package identifier: Produktsigel: ZDB-2-SEB | ZDB-2-SXMS | ZDB-2-SMA
Handbook of Networks in Power Systems II; Handbook of Networks in Power Systems: Optimization, Modeling, Simulation and Economic Aspects; Contents; Part I: Gas Network; Implementation of a Scheduling and Pricing Model for Natural Gas; 1 Introduction; 2 The Physical Gas Transmission System; 3 Operational Model Formulation; 4 Linearized Flow and Linepack Representation; 4.1 Piece-Wise Linearization Using Convex Combinations; 4.2 Successive Linearization to Deal with Non-convexities; 5 Modeling Compressors; 6 Modelling Pressure Regulator Valves and Check Valves
7 Modeling Injection and Off-take Restrictions8 The Market Model Formulation; 9 Solution Methods; 10 Conclusions; Appendix: Detailed Pressure Flow Equations for Flow Rates and Linepack; References; Long-Term Pressure-Stage Comprehensive Planning of Natural Gas Networks; 1 Introduction and Motivation; 2 Network Planning Process; 2.1 Long-Term Planning; 2.2 Expansion Planning; 2.3 Boundary Conditions and Degrees of Freedom; 2.4 System Model; 3 Methodology; 3.1 Exact Methods; 3.2 Heuristic Methods; 3.3 Selection of Optimization Procedure; 3.4 Optimization Procedure; 3.4.1 Genetic Algorithms
3.4.2 Application to the Planning of Natural Gas NetworksOptimization Procedure; Technical Assessment; Operational Assessment; Local Search for Convergence Improvement; 4 Exemplary Results; 4.1 Data Models; 4.1.1 Boundary Conditions and Degrees of Freedom; 4.1.2 Existing Network; 4.2 Determination of Long-Term Cost-Efficient Networks; 4.2.1 Evaluation of the Pressure Stage Comprehensive Optimization; 4.3 Appraisal of the Optimization Procedure; 4.3.1 Parallel Optimization; 5 Conclusions; References; Optimal Location of Gas Supply Units in Natural Gas System Network; 1 Introduction
2 Natural Gas Industry2.1 Development and Trends; 2.2 Technological Infrastructures of Natural Gas; 2.3 Liberalization of Natural Gas Market; 3 Gas Supply Units Location Problem; 3.1 Concepts and Notation; 3.2 Analytical Model; 3.3 Application to a Gas Network; 3.4 Capacitated GSUs Versus Uncapacitated GSUs; 3.4.1 Scenario 1; 3.4.2 Scenario 2; 3.4.3 Scenario 3; 3.4.4 Scenario 4; 3.5 Fixed Number of GSUs; 3.5.1 Scenario 5; 4 Conclusions; References; An LP Based Market Design for Natural Gas; 1 Introduction; 2 Market Concepts; 3 Gas Flow Modeling; 4 Basic Market Clearing Formulation
5 Simplification and Linearization6 Pricing Implications; 7 An Example; 8 Issues for Market Design and Implementation; 8.1 Non-physical Flows and Flow Reversal; 8.2 Rents and Cost Recovery; 8.3 Hedging; 9 Experience and Conclusions; Appendix: Modelling Junctions, Fittings, and Compressors; References; Part II: Network Interactions; Energy Carrier Networks: Interactions and Integrated Operational Planning; 1 Introduction; 1.1 Energy Systems Planning Background; 1.2 Increasing Interactions Between Electric Power and Natural Gas Systems
1.3 Integrated Operational Planning of Energy Carrier Systems: State of the Art
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