LEADER 05036nam 2201237z- 450 001 9910595067503321 005 20220916 035 $a(CKB)5680000000080857 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/92035 035 $a(oapen)doab92035 035 $a(EXLCZ)995680000000080857 100 $a20202209d2022 |y 0 101 0 $aeng 135 $aurmn|---annan 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aBiofuels Production and Processing Technology 210 $aBasel$d2022 215 $a1 online resource (250 p.) 311 08$a3-0365-4823-8 311 08$a3-0365-4824-6 330 $aThe negative impacts of global warming and global environmental pollution due to fossil fuels mean that the main challenge of modern society is finding alternatives to conventional fuels. In this scenario, biofuels derived from renewable biomass represent the most promising renewable energy sources. Depending on the biomass used by the fermentation technologies, it is possible to obtain first-generation biofuels produced from food crops, second-generation biofuels produced from non-food feedstock, mainly starting from renewable lignocellulosic biomasses, and third-generation biofuels, represented by algae or food waste biomass.Although biofuels appear to be the closest alternative to fossil fuels, it is necessary for them to be produced in competitive quantities and costs, requiring both improvements to production technologies and the diversification of feedstock. This Special Issue is focused on technological innovations, including the utilization of different feedstocks, with a particular focus on biethanol production from food waste; different biomass pretreatments; fermentation strategies, such as simultaneous saccharification and fermentation (SSF) or separate hydrolysis and fermentation (SHF); different applied microorganisms used as a monoculture or co-culture; and different setups for biofuel fermentation processes.The manuscripts collected represent a great opportunity for adding new knowledge to the scientific community as well as industry. 606 $aBiotechnology$2bicssc 606 $aTechnology: general issues$2bicssc 610 $aagroforest and industrial waste feedstock valorization 610 $aB. ceiba 610 $abiochar 610 $abiodiesel 610 $abioelectrochemical system (BES) 610 $abioenergy 610 $abioethanol 610 $abioethanol production 610 $abiofuel 610 $abiofuel production technologies 610 $abiofuels 610 $abiogas 610 $abiomass 610 $abiomethane 610 $abiorefinery 610 $abottleneck 610 $acarbon dioxide sequestration 610 $acarbonization 610 $acell wall sugar 610 $acentral composite design 610 $acircular economy 610 $aco-production 610 $acompost leachate 610 $acorn 610 $adownstream processing 610 $adownstream processing (DSP) 610 $aeconomics 610 $aelectro-fermentation 610 $aelectroactive microorganisms 610 $aelectromagnetic stirring 610 $aempty fruit bunches 610 $aenergy 610 $aenzyme-assisted 610 $aethanol 610 $aextracellular electron transfer (EET) 610 $aextraction 610 $afermentation 610 $afood waste 610 $agasification 610 $agasohol 610 $agene manipulation 610 $amicrobial biocatalyst 610 $amicroorganisms for biofuel 610 $amodel 610 $amodeling 610 $amolecular sieve 610 $amulti-objective optimization 610 $anon-fossil fuel 610 $apineapple waste 610 $apore property 610 $apressurized anaerobic digestion 610 $apretreatment 610 $apromotion policy 610 $aprotein 610 $aregulatory measure 610 $aresponse surface methodology 610 $arotary shaking 610 $asaccharification 610 $aSaccharomyces cerevisiae 610 $asecond-generation biofuel 610 $asimultaneous saccharification and fermentation 610 $asingle cell protein 610 $asoapberry pericarp 610 $asoybean 610 $aspent sugar beet pulp 610 $asurface chemistry 610 $asustainability 610 $asyngas fermentation 610 $asynthesis gas fermentation 610 $atrend analysis 610 $aTween 80® surfactant 610 $avolumetric mass transfer coefficient 610 $awater removal 615 7$aBiotechnology 615 7$aTechnology: general issues 700 $aTropea$b Alessia$4edt$01332320 702 $aTropea$b Alessia$4oth 906 $aBOOK 912 $a9910595067503321 996 $aBiofuels Production and Processing Technology$93040827 997 $aUNINA