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100% Renewable Energy Transition

100% Renewable Energy Transition

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Energy markets are already undergoing considerable transitions to accommodate new (renewable) energy forms, new (decentral) energy players, and new system requirements, e.g. flexibility and resilience. Traditional energy markets for fossil fuels are therefore under pressure, while not-yet-mature (renewable) energy markets are emerging. As a consequence, investments in large-scale and capital intensive (traditional) energy production projects are surrounded by high uncertainty, and are difficult to hedge by private entities. Traditional energy production companies are transforming into energy service suppliers and companies aggregating numerous potential market players are emerging, while regulation and system management are playing an increasing role. To address these increasing uncertainties and complexities, economic analysis, forecasting, modeling and investment assessment require fresh approaches and views. Novel research is thus required to simulate multiple actor interplays and idiosyncratic behavior. The required approaches cannot deal only with energy supply, but need to include active demand and cover systemic aspects. Energy market transitions challenge policy-making. Market coordination failure, the removal of barriers hindering restructuring and the combination of market signals with command-and-control policy measures are some of the new aims of policies.The aim of this Special Issue is to collect research papers that address the above issues using novel methods from any adequate perspective, including economic analysis, modeling of systems, behavioral forecasting, and policy assessment.The issue will include, but is not be limited to: Local control schemes and algorithms for distributed generation systems; Centralized and decentralized sustainable energy management strategies; Communication architectures, protocols and properties of practical applications; Topologies of distributed generation systems improving flexibility, efficiency and power quality; Practical issues in the control design and implementation of distributed generation systems; Energy transition studies for optimized pathway options aiming for high levels of sustainability

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Keywords

  • 100% RE pathways
  • 100% Renewable Energy
  • Agent-Based Modelling
  • Åland
  • Aviation
  • blackout prevention
  • blockchain
  • carbon dioxide reduction
  • climate policies
  • Community
  • decarbonization
  • delayed grid expansion
  • demand response
  • dynamic positioning
  • electric vehicle
  • electricity market modeling
  • electricity markets
  • Electrification
  • electrostatic-driven inertia
  • Energiewende
  • energy community
  • energy market
  • Energy policy
  • energy sector integration
  • Energy Storage
  • energy system modeling
  • energy system modelling
  • energy system optimisation
  • energy transformation
  • energy transition
  • European electricity system
  • final energy demand
  • flexibility
  • Gamification
  • GENeSYS-MOD
  • Germany
  • global energy system model (GENeSYS-MOD)
  • greenhouse gas emissions
  • Immunity
  • India
  • interconnector capacities
  • island energy system transition
  • levelized cost of mobility
  • Madeira
  • marine
  • maritime transportation
  • market value
  • Mexico
  • microgeneration
  • microgrid
  • microgrid by design
  • net metering
  • numeric modelling
  • open energy modelling
  • Orkney
  • power-to-gas
  • prosumer
  • pumped hydro storage
  • rail
  • RE integration
  • Régulation
  • renewable energy
  • renewable integration
  • renewable transition
  • renewables
  • resilience
  • Road
  • Samsø
  • sector coupling
  • sector-coupling
  • ship’s electrical power system
  • smart energy system
  • smart grid technologies
  • solar energy
  • Solid State Transformer
  • storage solutions
  • system-friendly renewables
  • transport sector
  • transportation demand
  • variable renewable energy sources
  • vehicle-to-grid
  • Wind power

Links

DOI: 10.3390/books978-3-03928-035-3

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