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200 00$aSustainability of Fossil Fuels$fPavel A. Strizhak
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
210  1$aBasel, Switzerland :$cMDPI,$d2019.
215   $a1 electronic resource (284 p.)
311 08$a9783039212194 
311 08$a3039212192 
330   $aThe energy and fuel industries represent an extensive field for the development and implementation of solutions aimed at improving the technological, environmental, and economic performance of technological cycles. In recent years, the issues of ecology and energy security have become especially important. Energy is firmly connected with all spheres of human economic life but, unfortunately, it also has an extremely negative (often fatal) effect on the environment and public health. Depletion of energy resources, the complexity of their extraction, and transportation are also problems of a global scale. Therefore, it is especially important nowadays to try to take care of nature and think about the resources that are necessary for future generations. For scientific teams in different countries, the development of sustainable and safe technologies for the use of fuels in the energy sector will be a challenge in the coming decades
606   $aHistory of engineering and technology$2bicssc
610   $asoaring of fuel droplets
610   $agas robbing
610   $ashale gas
610   $asyngas
610   $amunicipal solid waste
610   $aconvection?diffusion equation
610   $askeletal mechanism
610   $aanionic surfactant
610   $aflow behavior
610   $aenhanced oil recovery
610   $acoal processing waste
610   $acoal consumption forecasting
610   $aenergy production
610   $aheating
610   $adisintegration
610   $ahydrate dissociation
610   $alinear drift effect
610   $ainjection mode
610   $aaerosol
610   $agas lift rate
610   $aoil-controlling mode
610   $adecorated polyacrylamide
610   $asupercritical CO2
610   $ahydraulic fracturing
610   $aclosed-form analytical solution
610   $acombustion
610   $aforest fuels
610   $aoil refining waste
610   $amethane
610   $acoal
610   $atwo-component droplet
610   $apore structure
610   $aevaporation
610   $adroplet holder material
610   $acoal-water slurry
610   $agas lift optimization
610   $aBunsen burner
610   $aimproved gravitational search algorithm
610   $aslurry fuel
610   $aphysical properties
610   $atrajectories of fuel droplets
610   $amechanism reduction
610   $aMohr?Coulomb theory
610   $aenhanced recovery
610   $astructure evolution
610   $acombustion chamber
610   $afractured reservoir simulation
610   $aQikou Sag
610   $atectonic coal
610   $aexplosive breakup
610   $asplit factor
610   $amatrix-fracture transmissibility
610   $awaste management
610   $aignition
610   $agenetic mechanism
610   $aRiedel shear
610   $abiomass
610   $alaser pulse
610   $adual string completion
610   $aembedded discrete fracture model
610   $acovert fault zone
610   $awaste-derived fuel
610   $afuel activation
610   $atransport of tracers
610   $agrey relational analysis
610   $adisplacement mechanism
610   $asupport vector machine
610   $amethane hydrate
610   $aPTV method
610   $amethane desorption
610   $acomposite fuel
610   $awater retention in shale
610   $agas lift
610   $acombustion mechanism
610   $aanthropogenic emission concentration
615  7$aHistory of engineering and technology
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200 10$aAdvanced Nanomaterials for Electrochemical Energy Conversion and Storage
210   $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 electronic resource (198 p.)
311 08$a3-0365-5839-X 
330   $aThis book focuses on advanced nanomaterials for energy conversion and storage, covering their design, synthesis, properties and applications in various fields. Developing advanced nanomaterials for high-performance and low-cost energy conversion and storage devices and technologies is of great significance in order to solve the issues of energy crisis and environmental pollution. In this book, various advanced nanomaterials for batteries, capacitors, electrocatalysis, nanogenerators, and magnetic nanomaterials are presented
606   $aTechnology: general issues$2bicssc
610   $aporous carbon
610   $aternary composite
610   $amolybdenum oxide
610   $amolybdenum carbide
610   $aenergy storage
610   $aLi-O2 batteries
610   $acomposite
610   $aORR
610   $aOER
610   $aNb2O5
610   $aNb4N5
610   $aheterostructure
610   $alithium-sulfur batteries
610   $acatalyst
610   $aTiN/Ta2O5
610   $amultidimensional carbon
610   $amanipulation
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610   $acomponent interaction
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610   $aelectrochemistry
610   $aself-powered
610   $asports monitoring
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610   $ajanus
610   $aMXenes
610   $amagnetic properties
610   $aDFT
610   $aMXene
610   $anitrogen reduction
610   $aelectrocatalysis
610   $aGibbs free energy
610   $adoped graphene
610   $aoxygen reduction reaction
610   $aphosphorus-doped
610   $acodoped
610   $aneutron diffraction
610   $aexchange-bias
610   $amagnetocaloric effect
610   $aspin-orbit torque
610   $aperpendicular magnetic anisotropy
610   $aperpendicular effective field
610   $azero-field switching
610   $aN/P/Fe co-doped carbon
610   $aself-templating synthesis
610   $a3D porous structure
610   $aoxygen reduction reaction electrocatalysts
610   $ananomagnets
610   $aCo nanorods
610   $asolvothermal route
610   $aalcohol-thermal method
610   $amagnetic interaction
610   $asingle-atom catalyst
610   $aAu/WSSe
610   $atensile strain
615  7$aTechnology: general issues
700   $aWang$b Rongming$4edt$01338087
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702   $aWang$b Rongming$4oth
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906   $aBOOK
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996   $aAdvanced Nanomaterials for Electrochemical Energy Conversion and Storage$93057817
997   $aUNINA