Integrated Energy Systems towards Carbon Neutrality

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...

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Bibliographic Details
Other Authors: Liu, Pei (Editor), Liu, Ming (Editor), Wu, Xiao (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2023
Subjects:
Research & information: general
Physics
distributed energy system
pipeline network layout
reliability
GeoSteiner algorithm
Kruskal algorithm
Star tree algorithm
short-term electric load forecasting
meteorological factors
optimized support vector machine
Elman neural network
combined model
cascade cooling system
waste heat recovery
LiBr-H2O absorption refrigeration
heat load distribution
temperature breakpoints
electric vehicle
intelligent control
integrated energy system
dual carbon target
supercritical carbon dioxide Brayton cycle
Simulink
disturbance
control strategy
supercritical carbon dioxide brayton cycle
dynamic model
simulink
performance analysis
thermoeconomics
exergy cost modeling
irreversible loss
transport decarbonisation
systematic analysis
modal shift
infrastructure
optimisation
polygeneration
SOFC
optimal design
residential
electric vehicles
hydrogen vehicle
primary and recycled aluminum
life cycle analysis
energy consumption
greenhouse gas emissions
gas turbine
conjugate heat transfer
film cooling
data-driven
CFD
energy conservation
heat integration
heat exchanger network synthesis
retrofit
mathematical programming
superstructure
n/a
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Description
Summary: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.
Physical Description:1 electronic resource (256 p.)
ISBN:books978-3-0365-6804-1
9783036568058
9783036568041
Access:Open Access

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