LEADER 05052nam 2201345z- 450 001 9910367752503321 005 20231214133441.0 010 $a3-03921-631-7 035 $a(CKB)4100000010106192 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/43351 035 $a(EXLCZ)994100000010106192 100 $a20202102d2019 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aClean Energy and Fuel (Hydrogen) Storage 210 $cMDPI - Multidisciplinary Digital Publishing Institute$d2019 215 $a1 electronic resource (278 p.) 311 $a3-03921-630-9 330 $aClean 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. 517 $aClean Energy and Fuel 610 $aMgH2 610 $avertically oriented graphene 610 $agas loss 610 $aconcentrated solar power (CSP) 610 $acomplex hydrides 610 $aPCM roof 610 $ahydrogen storage systems 610 $aslag 610 $abubbles transportation 610 $adye-sensitized solar cells 610 $aundercooling 610 $amethanogenesis 610 $aelectrochemical energy storage 610 $ahydrogen storage 610 $aFischer?Tropsch 610 $astate of charge estimator 610 $agas turbine engine 610 $asimplified electrochemical model 610 $ahot summer and cold winter area 610 $arock permeability 610 $aflutter instability 610 $acharge density 610 $abinder 610 $asalt cavern energy storage 610 $abattery energy storage system 610 $acapacitance 610 $aLiNH2 610 $aball milling 610 $aproduction rate 610 $aleaching tubing 610 $aquality function deployment (QFD) 610 $ananocatalyst 610 $alab-scale 610 $athermal energy storage (TES) 610 $acomprehensive incremental benefit 610 $alean direct injection 610 $aLi-ion batteries 610 $aseparator 610 $afour-point 610 $asalt cavern 610 $alow emissions combustion 610 $aionic liquid 610 $acarbon materials 610 $ananocomposite materials 610 $aelectrical double layers 610 $arecovery factor 610 $athermochemical energy storage 610 $aKlinkenberg method 610 $aflow-induced vibration 610 $acathode 610 $aporous media 610 $ametal hydride 610 $aaquifer size 610 $adiffusion 610 $aauxiliary services compensation 610 $awater invasion 610 $aconjugate phase change heat transfer 610 $aheat transfer enhancement 610 $afailure mode and effect analysis (FMEA) 610 $amagnetism 610 $acarbonate gas reservoirs 610 $aequivalent loss of cycle life 610 $ainternal and reverse external axial flows 610 $athermal energy storage 610 $alithium-ion batteries 610 $abacterial sulfate reduction 610 $acrystal growth rates 610 $aoptimal capacity 610 $agas storage 610 $aenergy discharge 610 $aanode 610 $aAg nanoparticles 610 $aregenerator 610 $ahydrogen absorption 610 $afreestanding TiO2 nanotube arrays 610 $amaterial science 610 $aextended kalman filter 610 $areactive transport modeling 610 $asynthetic rock salt testing 610 $ahydrogen energy storage 610 $alattice Boltzmann method 610 $adynamic modeling 610 $abubbles burst 610 $aPower to Liquid 610 $alarge-scale wind farm 610 $aPHREEQC 700 $aSrinivasan$b Sesha$4auth$01296345 702 $aStefanakos$b Elias$4auth 906 $aBOOK 912 $a9910367752503321 996 $aClean Energy and Fuel (Hydrogen) Storage$93024024 997 $aUNINA