05612nam 2200505 450 991063393670332120230415044557.03-658-38111-6(MiAaPQ)EBC7150342(Au-PeEL)EBL7150342(CKB)25504301600041(PPN)266354645(EXLCZ)992550430160004120230415d2023 uy 0engurcnu||||||||txtrdacontentcrdamediacrrdacarrierSector coupling - energy-sustainable economy of the future fundamentals, model and planning example of a total energy system (GES) /Przemyslaw Komarnicki, Michael Kranhold, Zbigniew A. StyczynskiWiesbaden, Germany :Springer,[2023]©20231 online resource (221 pages)Print version: Komarnicki, Przemyslaw Sector Coupling - Energy-Sustainable Economy of the Future Wiesbaden : Springer Fachmedien Wiesbaden GmbH,c2022 9783658381103 Includes bibliographical references.Intro -- Foreword -- Preface -- Contents -- Abbreviations -- 1: Introduction: Climate Policy Goals of Sustainable Energy Supply -- 1.1 Why Do We Need a General Energy System (GES)? -- 1.1.1 World Population, Energy Resources and the ``Full World´´ -- 1.1.2 Energy Consumption and CO2 Emissions: From Kyoto Protocol to Paris Agreement to Green Deal -- 1.1.3 Sector Coupling: What Is It? -- 1.1.3.1 Introduction -- 1.1.3.2 Example Germany -- 1.2 Paradigm Shift in Electrical Energy Supply Due to Regenerative Generation -- 1.2.1 Power, Energy and Efficiency -- 1.2.2 Potentials of Renewable Generation -- 1.2.3 Dunkelflaute and Other Special Features -- 1.2.3.1 General Comments -- 1.2.3.2 Dunkelflaute -- 1.2.3.3 Frequency Maintenance: System Inertia. Can the Electric Power System Remain Stable Without Inertia? [42] -- 1.2.3.4 Offshore Wind and Green Power from Africa -- References -- 2: Methodology and Model Design for Sector Coupling in the General Energy System (GES) -- 2.1 Modelling of a GES -- 2.1.1 Energy Hub Model -- 2.1.2 Temporal Resolution of Energy Flows -- 2.1.3 Substitution of Energy Sources -- 2.2 Optimisation of a GES -- 2.2.1 General Comments -- 2.2.2 Approaches to System Optimisation -- 2.2.2.1 Scenario-Based Optimization -- 2.2.3 Dynamic Programming According to Bellmann -- 2.2.3.1 Optimization by Means of Linear Programming -- References -- 3: Energy Use Sectors and Their Energy Consumption -- 3.1 General Remarks -- 3.2 Energy Supply (Gas, Electricity, Heat) and the Role of Hydrogen (H2) -- 3.3 Industry: Net Zero Factory -- 3.4 Households -- 3.5 Transport: Electric Mobility -- 3.6 Trade: Commerce - Services (GHD) -- References -- 4: Methodology of Modelling the Energy Hub Components -- 4.1 Introduction -- 4.2 Methodology for Modelling Generation Sectors -- 4.2.1 Electricity -- 4.2.1.1 Introduction.4.2.1.2 Modelling of Electricity Network Infrastructures -- 4.2.1.3 Simulation and Network Calculation Tool -- 4.2.2 Gas -- 4.2.2.1 Introduction -- 4.2.2.2 Modelling of Gas Network Infrastructures -- 4.2.2.3 Simulation and Software Tools -- 4.2.3 Heat -- 4.2.3.1 Introduction -- 4.2.3.2 Modelling of Heat Network Infrastructures -- 4.2.3.3 Simulation and Software Tools -- 4.2.4 Energy Market Design, Market Roles -- References -- 5: Flexibility of a General Energy System (GES) -- 5.1 Safe Operation of the General Energy System (GES) -- 5.2 Energy Storage -- 5.3 Evaluation of Flexibility -- 5.3.1 Introduction -- 5.3.2 Flexgraphs -- 5.3.3 Buffer Characteristics -- 5.3.4 Variable and Fixed Power Profiles -- 5.3.5 15-min Energy Values -- 5.4 Legal Framework -- 5.4.1 Introduction -- 5.4.2 Disconnectable Loads -- 5.4.3 Interruptible Consumption Units -- 5.4.4 Future Flexibility, System-Side Needs Analysis -- References -- 6: Role of Information and Communication Technology (ICT): Digitalisation of the Energy Industry -- 6.1 Development of Balancing in the Energy System Using the Example of Electricity -- 6.2 Current Balancing for Electricity, Gas and Heat Markets -- 6.2.1 Basics of Energy Balancing Using the Example of Electricity -- 6.2.2 Metering Point Operation: Role of the Smart Meter Rollout -- 6.2.3 Market Communication and Measurement Data Analysis -- 6.2.4 Balancing: Comparison Between Gas and Electricity -- 6.3 Role of ICT and Other Innovations in the System Management (Electricity) of the Future -- Literature -- 7: Perspectives of the General Energy System (GES) -- 7.1 Introduction -- 7.2 European Perspective -- 7.3 China Perspective -- 7.4 USA Perspective -- 7.5 Building a Sustainable Hydrogen Economy (Example EU/Germany) -- 7.5.1 Introduction -- 7.5.2 Concept for Germany -- 7.5.3 Regional Concepts Using the Example of the Land of Saxony-Anhalt.References -- Appendix -- Conversion Chains (Energy Conversion Chains) of the Selected Processes (Table A.1).Electric power distributionEnergy industriesInterconnected electric utility systemsElectric power distribution.Energy industries.Interconnected electric utility systems.621.319Komarnicki Przemyslaw995630Kranhold MichaelStyczynski Zbigniew A(Zbigniew Antoni),1949-MiAaPQMiAaPQMiAaPQBOOK9910633936703321Sector coupling - energy-sustainable economy of the future3090282UNINA