Whole energy systems : bridging the gap via vector-coupling technologies /
This book provides a thorough overview of the concept of whole energy systems and the role of vector-coupling technologies (VCTs) in meeting long-term decarbonization strategies. It is the first comprehensive reference that provides basic definitions and fundamental, applicable approaches to whole e...
| Other Authors: | , |
|---|---|
| Format: | Book |
| Language: | English |
| Published: |
Cham :
Springer,
[2022]
Cham, Switzerland : [2022] |
| Series: | Power systems
|
| Subjects: |
Table of Contents:
- Concept, Definition, and Challenges of Vector Coupling in Whole Energy Systems
- Power-to-X for Renewable Based Hybrid Energy Systems
- Whole Energy Systems Evaluation: A Methodological Framework and Case Study
- Targeting and Design multi-generation system through Total site integration approach
- Investigating the Effective Methods in Improving the Resilience of Electricity and Gas Systems
- Optimal Placement of Combined Heat and Power (CHP) Systems Considering the Cost of Environmental Pollutants
- Optimal Coalition Operation of Interconnected Hybrid Energy Systems Containing Local Energy Conversion Technologies, Renewable Energy Resources, and Energy Storage Systems
- Optimal Co-Generation of Electric and Heatenergy systems considering Heat Energy StorageSystems and CHP units
- Investigating the Role of Flexibility Options in Multi-Vector Energy Systems
- Impact of Demand Response Programs on the Operation of Electricity and Gas Systems
- Two-stage stochastic market-clearing of energy and reserve in the presence of coupled fuel cell-based hydrogen storage system with renewable resources
- Polygeneration Systems in fossil fuel power plants: The role of Power-to-X in CO2 mitigation
- The Role of Distributed Multi-Vector Energy Assets in Economic Decarbonisation: Early Findings of a UK Demonstrator