Clean Energy and Fuel (Hydrogen) Storage

Clean energy and fuel storage are often required for both stationary and automotive applications. Some of these clean energy and fuel storage technologies currently under extensive research and development include hydrogen storage, direct electric storage, mechanical energy storage, solar–thermal en...

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Main Authors: Srinivasan, Sesha, Stefanakos, Elias
格式: Online
語言:英语
出版: MDPI - Multidisciplinary Digital Publishing Institute 2021
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author Srinivasan, Sesha
Stefanakos, Elias
author_browse Srinivasan, Sesha
Stefanakos, Elias
author_facet Srinivasan, Sesha
Stefanakos, Elias
author_sort Srinivasan, Sesha
collection Directory of Open Access Books
description Clean energy and fuel storage are often required for both stationary and automotive applications. Some of these clean energy and fuel storage technologies currently under extensive research and development include hydrogen storage, direct electric storage, mechanical energy storage, solar–thermal energy storage, electrochemical (batteries and supercapacitors), and thermochemical storage. The gravimetric and volumetric storage capacity, energy storage density, power output, operating temperature and pressure, cycle life, recyclability, and cost of clean energy or fuel storage are some of the factors that govern efficient energy and fuel storage technologies for potential deployment in energy harvesting (solar and wind farms) stations and onboard vehicular transportation. This Special Issue thus serves the need for promoting exploratory research and development on clean energy and fuel storage technologies while addressing their challenges to practical and sustainable infrastructures.
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institution Directory of Open Access Books
language eng
publishDate 2021
publishDateRange 2021
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publisherStr MDPI - Multidisciplinary Digital Publishing Institute
record_format ojs
spelling doab-20.500.12854ir-433512024-04-11T15:10:26Z Clean Energy and Fuel (Hydrogen) Storage Srinivasan, Sesha Stefanakos, Elias TA1-2040 T1-995 MgH2 vertically oriented graphene gas loss concentrated solar power (CSP) complex hydrides PCM roof hydrogen storage systems slag bubbles transportation dye-sensitized solar cells undercooling methanogenesis electrochemical energy storage hydrogen storage Fischer–Tropsch state of charge estimator gas turbine engine simplified electrochemical model hot summer and cold winter area rock permeability flutter instability charge density binder salt cavern energy storage battery energy storage system capacitance LiNH2 ball milling production rate leaching tubing quality function deployment (QFD) nanocatalyst lab-scale thermal energy storage (TES) comprehensive incremental benefit lean direct injection Li-ion batteries separator four-point salt cavern low emissions combustion ionic liquid carbon materials nanocomposite materials electrical double layers recovery factor thermochemical energy storage Klinkenberg method flow-induced vibration cathode porous media metal hydride aquifer size diffusion auxiliary services compensation water invasion conjugate phase change heat transfer heat transfer enhancement failure mode and effect analysis (FMEA) magnetism carbonate gas reservoirs equivalent loss of cycle life internal and reverse external axial flows thermal energy storage lithium-ion batteries bacterial sulfate reduction crystal growth rates optimal capacity gas storage energy discharge anode Ag nanoparticles regenerator hydrogen absorption freestanding TiO2 nanotube arrays material science extended kalman filter reactive transport modeling synthetic rock salt testing hydrogen energy storage lattice Boltzmann method dynamic modeling bubbles burst Power to Liquid large-scale wind farm PHREEQC thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology Clean energy and fuel storage are often required for both stationary and automotive applications. Some of these clean energy and fuel storage technologies currently under extensive research and development include hydrogen storage, direct electric storage, mechanical energy storage, solar–thermal energy storage, electrochemical (batteries and supercapacitors), and thermochemical storage. The gravimetric and volumetric storage capacity, energy storage density, power output, operating temperature and pressure, cycle life, recyclability, and cost of clean energy or fuel storage are some of the factors that govern efficient energy and fuel storage technologies for potential deployment in energy harvesting (solar and wind farms) stations and onboard vehicular transportation. This Special Issue thus serves the need for promoting exploratory research and development on clean energy and fuel storage technologies while addressing their challenges to practical and sustainable infrastructures. 2021-02-11T09:59:22Z 2021-02-11T09:59:22Z 2019-12-09 11:49:15 2019 book 42583 9783039216307 9783039216314 https://directory.doabooks.org/handle/20.500.12854/43351 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/1711 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03921-631-4 10.3390/books978-3-03921-631-4 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039216307 9783039216314 278 open access
spellingShingle TA1-2040
T1-995
MgH2
vertically oriented graphene
gas loss
concentrated solar power (CSP)
complex hydrides
PCM roof
hydrogen storage systems
slag
bubbles transportation
dye-sensitized solar cells
undercooling
methanogenesis
electrochemical energy storage
hydrogen storage
Fischer–Tropsch
state of charge estimator
gas turbine engine
simplified electrochemical model
hot summer and cold winter area
rock permeability
flutter instability
charge density
binder
salt cavern energy storage
battery energy storage system
capacitance
LiNH2
ball milling
production rate
leaching tubing
quality function deployment (QFD)
nanocatalyst
lab-scale
thermal energy storage (TES)
comprehensive incremental benefit
lean direct injection
Li-ion batteries
separator
four-point
salt cavern
low emissions combustion
ionic liquid
carbon materials
nanocomposite materials
electrical double layers
recovery factor
thermochemical energy storage
Klinkenberg method
flow-induced vibration
cathode
porous media
metal hydride
aquifer size
diffusion
auxiliary services compensation
water invasion
conjugate phase change heat transfer
heat transfer enhancement
failure mode and effect analysis (FMEA)
magnetism
carbonate gas reservoirs
equivalent loss of cycle life
internal and reverse external axial flows
thermal energy storage
lithium-ion batteries
bacterial sulfate reduction
crystal growth rates
optimal capacity
gas storage
energy discharge
anode
Ag nanoparticles
regenerator
hydrogen absorption
freestanding TiO2 nanotube arrays
material science
extended kalman filter
reactive transport modeling
synthetic rock salt testing
hydrogen energy storage
lattice Boltzmann method
dynamic modeling
bubbles burst
Power to Liquid
large-scale wind farm
PHREEQC
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Srinivasan, Sesha
Stefanakos, Elias
Clean Energy and Fuel (Hydrogen) Storage
title Clean Energy and Fuel (Hydrogen) Storage
title_full Clean Energy and Fuel (Hydrogen) Storage
title_fullStr Clean Energy and Fuel (Hydrogen) Storage
title_full_unstemmed Clean Energy and Fuel (Hydrogen) Storage
title_short Clean Energy and Fuel (Hydrogen) Storage
title_sort clean energy and fuel hydrogen storage
topic TA1-2040
T1-995
MgH2
vertically oriented graphene
gas loss
concentrated solar power (CSP)
complex hydrides
PCM roof
hydrogen storage systems
slag
bubbles transportation
dye-sensitized solar cells
undercooling
methanogenesis
electrochemical energy storage
hydrogen storage
Fischer–Tropsch
state of charge estimator
gas turbine engine
simplified electrochemical model
hot summer and cold winter area
rock permeability
flutter instability
charge density
binder
salt cavern energy storage
battery energy storage system
capacitance
LiNH2
ball milling
production rate
leaching tubing
quality function deployment (QFD)
nanocatalyst
lab-scale
thermal energy storage (TES)
comprehensive incremental benefit
lean direct injection
Li-ion batteries
separator
four-point
salt cavern
low emissions combustion
ionic liquid
carbon materials
nanocomposite materials
electrical double layers
recovery factor
thermochemical energy storage
Klinkenberg method
flow-induced vibration
cathode
porous media
metal hydride
aquifer size
diffusion
auxiliary services compensation
water invasion
conjugate phase change heat transfer
heat transfer enhancement
failure mode and effect analysis (FMEA)
magnetism
carbonate gas reservoirs
equivalent loss of cycle life
internal and reverse external axial flows
thermal energy storage
lithium-ion batteries
bacterial sulfate reduction
crystal growth rates
optimal capacity
gas storage
energy discharge
anode
Ag nanoparticles
regenerator
hydrogen absorption
freestanding TiO2 nanotube arrays
material science
extended kalman filter
reactive transport modeling
synthetic rock salt testing
hydrogen energy storage
lattice Boltzmann method
dynamic modeling
bubbles burst
Power to Liquid
large-scale wind farm
PHREEQC
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet TA1-2040
T1-995
MgH2
vertically oriented graphene
gas loss
concentrated solar power (CSP)
complex hydrides
PCM roof
hydrogen storage systems
slag
bubbles transportation
dye-sensitized solar cells
undercooling
methanogenesis
electrochemical energy storage
hydrogen storage
Fischer–Tropsch
state of charge estimator
gas turbine engine
simplified electrochemical model
hot summer and cold winter area
rock permeability
flutter instability
charge density
binder
salt cavern energy storage
battery energy storage system
capacitance
LiNH2
ball milling
production rate
leaching tubing
quality function deployment (QFD)
nanocatalyst
lab-scale
thermal energy storage (TES)
comprehensive incremental benefit
lean direct injection
Li-ion batteries
separator
four-point
salt cavern
low emissions combustion
ionic liquid
carbon materials
nanocomposite materials
electrical double layers
recovery factor
thermochemical energy storage
Klinkenberg method
flow-induced vibration
cathode
porous media
metal hydride
aquifer size
diffusion
auxiliary services compensation
water invasion
conjugate phase change heat transfer
heat transfer enhancement
failure mode and effect analysis (FMEA)
magnetism
carbonate gas reservoirs
equivalent loss of cycle life
internal and reverse external axial flows
thermal energy storage
lithium-ion batteries
bacterial sulfate reduction
crystal growth rates
optimal capacity
gas storage
energy discharge
anode
Ag nanoparticles
regenerator
hydrogen absorption
freestanding TiO2 nanotube arrays
material science
extended kalman filter
reactive transport modeling
synthetic rock salt testing
hydrogen energy storage
lattice Boltzmann method
dynamic modeling
bubbles burst
Power to Liquid
large-scale wind farm
PHREEQC
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url 42583
work_keys_str_mv AT srinivasansesha cleanenergyandfuelhydrogenstorage
AT stefanakoselias cleanenergyandfuelhydrogenstorage