LEADER 05090nam 2201225z- 450 001 9910557307103321 005 20231214133634.0 035 $a(CKB)5400000000042785 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/77050 035 $a(EXLCZ)995400000000042785 100 $a20202201d2021 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$aLignocellulosic Biomass 210 $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021 215 $a1 electronic resource (312 p.) 311 $a3-0365-2475-4 311 $a3-0365-2474-6 330 $aRecently, there has been a growing awareness of the need to make better use of natural resources. Hence, the utilization of biomass has led to so-called biorefinery, consisting of the fractionation or separation of the different components of the lignocellulosic materials in order to achieve a total utilization of the same, and not only of the cellulosic fraction for paper production. The use of plant biomass as a basic raw material implies a shift from an economy based on the exploitation of non-renewable fossil fuels, with limited reserves or with regeneration cycles far below the rates of exploitation, to a bioeconomy based on the use of renewable organic natural resources, with balanced regeneration and extraction cycles. To make this change, profound readjustments in existing technologies are necessary, as well as the application of new approaches in research, development, and production."Biorefinery" is the term used to describe the technology for the fractionation of plant biomass into energy, chemicals, and consumer goods. The future generation of biorefinery will include treatments, leading to high-value-added compounds. The use of green chemistry technologies and principles in biorefineries, such as solvent and reagent recovery and the minimization of effluent and gas emissions, is essential to define an economically and environmentally sustainable process.In particular, the biorefinery of lignocellulosic materials to produce biofuels, chemicals and materials is presented as a solid alternative to the current petrochemical platform and a possible solution to the accumulation of greenhouse gases. 606 $aResearch & information: general$2bicssc 610 $alignocellulosic biomass 610 $asolid-state fermentation 610 $aenzymatic hydrolysis 610 $aaerated bioreactor 610 $aAspergillus oryzae 610 $alignin 610 $alignocellulose 610 $aaromatics 610 $abiobased 610 $aepoxy 610 $afatty acid 610 $abiopolymers 610 $abiobased materials 610 $abiorenewable 610 $abio-based filament 610 $a3D printing 610 $asugarcane bagasse pulp 610 $abarley straw 610 $acomposite 610 $aflexural strength 610 $abiobased polyethylene 610 $ananocellulose 610 $a?-cyclodextrin 610 $acryogels 610 $afilms 610 $abiomaterials 610 $acellulose 610 $adialdehyde cellulose 610 $aorganosilane chemistry 610 $a29Si NMR 610 $asolid state NMR 610 $asilanization 610 $alignocellulose valorization 610 $a'lignin-first' 610 $areductive catalytic fractionation 610 $alignocellulose nanofibers 610 $ahorticultural residues 610 $apaperboard 610 $arecycling 610 $abiosurfactants 610 $aenzymatic saccharification 610 $afermentation 610 $aquinoa saponins 610 $asteam-pretreated spruce 610 $alignocellulosic material 610 $axylose 610 $afurfural 610 $airon chloride 610 $amicrowave reactor 610 $abiorefinery 610 $aelectrosynthesis 610 $abiomass 610 $acarbohydrate 610 $asaccharides 610 $aelectro-oxidation 610 $aelectroreduction 610 $aresidue 610 $aagro-industry 610 $ahigh-value products 610 $abanana 610 $atorrefaction 610 $aJerusalem artichoke 610 $abiofuel 610 $aenergy crops 610 $aagiculture 610 $amicro-fibrillated cellulose 610 $aformaldehyde adhesives 610 $awood-based panels 610 $akraft lignin 610 $aadsorbent material 610 $acopper adsorption 610 $aH2S adsorption 610 $aH2S removal 615 7$aResearch & information: general 700 $aRodri?guez Pascual$b Alejandro$4edt$01302974 702 $aEspinosa Vi?ctor$b Eduardo$4edt 702 $aRodri?guez Pascual$b Alejandro$4oth 702 $aEspinosa Vi?ctor$b Eduardo$4oth 906 $aBOOK 912 $a9910557307103321 996 $aLignocellulosic Biomass$93026792 997 $aUNINA