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Integrated Energy Systems towards Carbon Neutrality
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Energy systems have played an essential role in the history of human civilization. As our civilization evolves, energy systems are expected to adapt to the environment and desire of people for more sustainable development whilst meeting the ever-increasing energy demand of society. To address global warming and its threats to sustainable development to multiple ends, major economies around the world have announced low-carbon, carbon-neutral, or negative-carbon development targets. To meet these goals, the energy systems as we know them today need to undergo substantial structural changes in terms of the way primary energy is extracted from nature, converted to secondary energy, transmitted from conversion sites to end use, and shifted between time slots to coordinate supply and demand. The share of renewable and fossil energy in the overall energy portfolio could experience unprecedented structural change of a kind not witnessed since industrialization. To cope with this harsh transition, energy systems should be planned, designed, retrofitted, and operated in a revolutionary manner.This reprint aims to present the most recent advances in energy systems analysis towards low/zero/negative carbon emission targets via integration amongst different primary energy supplies, between multiple energy supplies and demands, across geographically separated regions, and over different time scales from seconds to seasons.
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Keywords
- cascade cooling system
- CFD
- Clinical & internal medicine
- combined model
- conjugate heat transfer
- control strategy
- data-driven
- Diseases & disorders
- distributed energy system
- Disturbance
- dual carbon target
- dynamic model
- electric vehicle
- Electric vehicles
- Elman neural network
- Energy conservation
- Energy consumption
- exergy cost modeling
- film cooling
- gas turbine
- GeoSteiner algorithm
- greenhouse gas emissions
- heat exchanger network synthesis
- heat integration
- heat load distribution
- hydrogen vehicle
- Infrastructure
- integrated energy system
- intelligent control
- irreversible loss
- Kruskal algorithm
- LiBr-H2O absorption refrigeration
- life cycle analysis
- mathematical programming
- medicine
- meteorological factors
- modal shift
- n/a
- oncology
- Optimal design
- optimisation
- optimized support vector machine
- performance analysis
- pipeline network layout
- polygeneration
- primary and recycled aluminum
- Reliability
- residential
- retrofit
- short-term electric load forecasting
- Simulink
- SOFC
- Star tree algorithm
- supercritical carbon dioxide Brayton cycle
- superstructure
- systematic analysis
- temperature breakpoints
- thermoeconomics
- transport decarbonisation
- waste heat recovery
Links
DOI: 10.3390/books978-3-0365-6804-1Editions