LEADER 04041nam  2200865z- 450 
001 9910585941303321
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035   $a(CKB)5600000000483069
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/91131
035   $a(EXLCZ)995600000000483069
100   $a20202208d2022      |y         0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aBiomass for Sustainability$eResource, Technology Conversion and Energy Management
210   $aBasel$cMDPI - Multidisciplinary Digital Publishing Institute$d2022
215   $a1 electronic resource (152 p.)
311   $a3-0365-4343-0 
311   $a3-0365-4344-9 
330   $aThe decarbonization of all sectors is essential in addressing the global challenge of climate change. Bioenergy can contribute to replacing our current dependence on fossil fuels and offers significant possibilities in many conventional and advanced applications, from power to heating and cooling installations. Energy systems in the building and industrial sectors can convert biomass to other usable forms of energy and improve energy performance. Moreover, bioenergy sustainability means energy can be managed for an extended period of time. Further research is needed to develop better green energy production methods and new procedures to evaluate and valorize biomass in a circular economy context. Some of the most critical bottlenecks to increase the use of bioenergy are energy conversion and management from resource to final energy. The countries where this source is strengthened can achieve security of energy supply and energy independence. In addition, biomass boilers and biomass district heating systems are interesting options to achieve nearly zero-energy buildings, contributing the needed biomass harvesting to rural development and to improve resource planning and distribution. The aim of this book is to present a comprehensive overview and in-depth technical research papers addressing recent progress in biomass-based systems and innovative applications.
517   $aBiomass for Sustainability
606   $aTechnology: general issues$2bicssc
606   $aHistory of engineering & technology$2bicssc
610   $agreen tide
610   $aparameter optimization
610   $apyrolysis kinetics
610   $aShuffled Complex Evolution
610   $aKissinger method
610   $aclean technology
610   $arenewable energy
610   $alife cycle assessment
610   $azero discharge
610   $awaste treatment
610   $asustainability
610   $abibliometric analysis
610   $aanalysis of science mapping
610   $aSciMAT
610   $asystematic literature review
610   $amunicipal solid waste
610   $aorganic fraction
610   $abiomass
610   $aolive waste
610   $aenergetic densification
610   $apretreatment
610   $atorrefaction
610   $aenergy conversion
610   $aenergy management
610   $atechnology
610   $athermal system
610   $abiogas
610   $aenergy transition
610   $awater hyacinth
610   $aanaerobic digestion
610   $aoptimisation
610   $asustainable cities
610   $aparticle emission
610   $abiomass combustion
610   $abiomass cooking stoves
610   $adomestic heating
610   $alocal circularity
610   $adecentralized biowaste management
610   $acircular economy
610   $aresource recovery
615  7$aTechnology: general issues
615  7$aHistory of engineering & technology
700   $aLópez-Ochoa$b Luis M$4edt$01327543
702   $aParedes-Sánchez$b José P$4edt
702   $aLópez-Ochoa$b Luis M$4oth
702   $aParedes-Sánchez$b José P$4oth
906   $aBOOK
912   $a9910585941303321
996   $aBiomass for Sustainability$93037998
997   $aUNINA