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Marginal land --- Marginal land --- Industrial uses --- Industrial uses --- Resource allocation --- Resource allocation --- land use --- land use --- Integration. --- Integration --- Land management --- Land management --- Structural change --- Structural change --- Economic indicators --- Economic indicators --- land improvement --- land improvement --- habitat improvement --- habitat improvement --- Landscape --- Landscape --- Regulations --- Regulations --- Belgium --- Belgium
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Boue résiduaire --- Sewage sludge --- Fertilisation --- Fertilizer application --- Amendement du sol --- soil amendments --- Terre marginale --- Marginal land --- Terre abandonnée --- Abandoned land --- Sol de forêt --- Forest soils --- Parc public --- Public parks --- Jardin familial --- Domestic gardens --- Pollution --- Impact sur l'environnement --- Environmental impact --- Propriété physicochimique --- chemicophysical properties --- Contamination chimique --- Chemical contamination --- Contamination biologique --- Biological contamination --- Méthode d'application --- Application methods --- Analyse économique --- Economic analysis
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Paysage --- Landscape --- Terre agricole --- farmland --- Terre cultivée --- Cultivated land --- Terre marginale --- Marginal land --- Dunes --- Érosion éolienne --- Wind erosion --- Lutte antiérosion --- erosion control --- Pratique culturale --- Cultivation --- Système de culture --- cropping systems --- Végétation --- vegetation --- Écosystème --- ecosystems --- Succession écologique --- ecological succession --- Netherlands --- Theses --- vegetation.
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Marginal land --- human population --- Overpopulation --- Climatology --- Drought --- Poverty --- socioeconomic environment --- tourism --- Extensive husbandry --- Sheep --- Goats --- Transhumance --- Grazing --- pasture improvement --- Forest grazing --- Choice of species --- Legumes --- grapevines --- Green manures --- apiculture. --- apiculture --- Drug plants --- Olives --- olive oil --- Biodiversity --- product development --- European Union --- Reconstruction forestière --- Mediterranean region --- Mediterranean region --- Reconstruction forestière
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Botany --- Phytogeography --- Botanique --- Phytogéographie --- Zone urbaine --- urban areas --- Zone ripicole --- Riparian zones --- Terre cultivée --- Cultivated land --- Terre humide --- Wetlands --- Terre marginale --- Marginal land --- Phytoécologie --- plant ecology --- Succession écologique --- ecological succession --- Biogéographie --- Biogeography --- France --- Paris --- vegetation communities --- biogeography --- flora and vegetation --- habitat-vegetation relations --- localities --- phytosociology --- Phytogéographie --- Ecology. --- Botany. --- Plant diversity. --- Phytogeography. --- Plant ecology. --- Plant communities. --- Écologie --- Botanique. --- Diversité végétale. --- Phytogéographie. --- Associations végétales --- Écologie végétale --- France.
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Dear Colleagues,All types of biomass, and their waste, comprised one the pillars of the preindustrial,pre-fossil fuel, agriculture-based economies of the past. Traditionalpractices of biomass waste management were applied, but not necessarily in asophisticated and efficient way, and included everything from agricultural activitiesto food production, animal feed, natural fiber separation, and processingof forest wood. The modern bioeconomy sector, however, includes new circulareconomy energy and materials streams of added-value products, such asgaseous, liquid and solid biofuels and bioenergy generation routes, and biocharproduction, along with all the previously mentioned traditional products emergingfrom the bioeconomy.This Special Issue includes some of the latest bioenergy and biochar advancementsand their incorporation into a bioeconomy in transition. It focuses onnature, properties, upgrading, and bioenergy generation processes from all typesof biomass waste and biochars originating from biomass waste. The multidisciplinarityof bioenergy and biochar research is evident throughout the SpecialIssue, highlighting the highly variable and tunable processes involved inbiomass handling, pre-processing, converting to biochar, and recovering energy.Dr. Dimitrios KalderisGuest EditorDr. Vasiliki Skoulouco-Guest Editor
ethanol --- lignocellulosic biomass --- life cycle assessment --- GHG emissions --- political incentives --- economic performance --- amino acid wastes --- biofuels --- microbial lipids --- Rhodosporidium toruloides --- two-stage culture --- fixed bed --- pyrolysis yield --- temperature --- coconut shell --- characterization --- SEM --- Mitigation of CO2-equiv. --- nutrient release --- rice paddy water and soil system --- slow-release fertilizer --- coconut wastes --- bioenergy resource --- pollutant emissions --- calorific value --- biocharing --- microalgae --- anaerobic digestion --- biogas --- respirometric reactors --- APSIM sugarcane model --- energy potential --- marginal land --- sensitivity analysis --- hydrochar --- hydrothermal carbonization --- CiteSpace --- scientometric analysis --- artificial neural network --- fly ash --- biomass combustion --- fluidized bed boilers --- acute phytotoxicity test --- mineral fertilizer --- BCR sequential extraction --- metal speciation --- starch --- biochar --- coffee waste --- polycaprolactone --- bioplastics --- biodegradation --- fermentable sugar --- enzymatic hydrolysis
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Dear Colleagues,All types of biomass, and their waste, comprised one the pillars of the preindustrial,pre-fossil fuel, agriculture-based economies of the past. Traditionalpractices of biomass waste management were applied, but not necessarily in asophisticated and efficient way, and included everything from agricultural activitiesto food production, animal feed, natural fiber separation, and processingof forest wood. The modern bioeconomy sector, however, includes new circulareconomy energy and materials streams of added-value products, such asgaseous, liquid and solid biofuels and bioenergy generation routes, and biocharproduction, along with all the previously mentioned traditional products emergingfrom the bioeconomy.This Special Issue includes some of the latest bioenergy and biochar advancementsand their incorporation into a bioeconomy in transition. It focuses onnature, properties, upgrading, and bioenergy generation processes from all typesof biomass waste and biochars originating from biomass waste. The multidisciplinarityof bioenergy and biochar research is evident throughout the SpecialIssue, highlighting the highly variable and tunable processes involved inbiomass handling, pre-processing, converting to biochar, and recovering energy.Dr. Dimitrios KalderisGuest EditorDr. Vasiliki Skoulouco-Guest Editor
Research & information: general --- Technology: general issues --- ethanol --- lignocellulosic biomass --- life cycle assessment --- GHG emissions --- political incentives --- economic performance --- amino acid wastes --- biofuels --- microbial lipids --- Rhodosporidium toruloides --- two-stage culture --- fixed bed --- pyrolysis yield --- temperature --- coconut shell --- characterization --- SEM --- Mitigation of CO2-equiv. --- nutrient release --- rice paddy water and soil system --- slow-release fertilizer --- coconut wastes --- bioenergy resource --- pollutant emissions --- calorific value --- biocharing --- microalgae --- anaerobic digestion --- biogas --- respirometric reactors --- APSIM sugarcane model --- energy potential --- marginal land --- sensitivity analysis --- hydrochar --- hydrothermal carbonization --- CiteSpace --- scientometric analysis --- artificial neural network --- fly ash --- biomass combustion --- fluidized bed boilers --- acute phytotoxicity test --- mineral fertilizer --- BCR sequential extraction --- metal speciation --- starch --- biochar --- coffee waste --- polycaprolactone --- bioplastics --- biodegradation --- fermentable sugar --- enzymatic hydrolysis --- ethanol --- lignocellulosic biomass --- life cycle assessment --- GHG emissions --- political incentives --- economic performance --- amino acid wastes --- biofuels --- microbial lipids --- Rhodosporidium toruloides --- two-stage culture --- fixed bed --- pyrolysis yield --- temperature --- coconut shell --- characterization --- SEM --- Mitigation of CO2-equiv. --- nutrient release --- rice paddy water and soil system --- slow-release fertilizer --- coconut wastes --- bioenergy resource --- pollutant emissions --- calorific value --- biocharing --- microalgae --- anaerobic digestion --- biogas --- respirometric reactors --- APSIM sugarcane model --- energy potential --- marginal land --- sensitivity analysis --- hydrochar --- hydrothermal carbonization --- CiteSpace --- scientometric analysis --- artificial neural network --- fly ash --- biomass combustion --- fluidized bed boilers --- acute phytotoxicity test --- mineral fertilizer --- BCR sequential extraction --- metal speciation --- starch --- biochar --- coffee waste --- polycaprolactone --- bioplastics --- biodegradation --- fermentable sugar --- enzymatic hydrolysis
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Extension forestière --- Afforestation --- Plantation forestière --- Forest plantations --- Terre marginale --- Marginal land --- Agroforesterie --- agroforestry --- 630*914 --- Woodlots --- -Afforestation --- -Agroforestry --- -Land use, Rural --- -Rural land use --- Land use --- Agriculture --- Agro-forestry --- Forests and forestry --- Tree crops --- Forest planting --- Forestation --- Hurricane protection --- Natural resources --- Reforestation --- Tree planting --- Farm forestry --- Farm wood-lots --- Farm woodlands --- Farm woodlots --- Small woodlands --- Wood-lots --- Woodlands, Small --- Relations between forest and waste land. Utilization and afforestation of waste land. Deforestation --- Congresses --- -Relations between forest and waste land. Utilization and afforestation of waste land. Deforestation --- 630*914 Relations between forest and waste land. Utilization and afforestation of waste land. Deforestation --- -630*914 Relations between forest and waste land. Utilization and afforestation of waste land. Deforestation --- Rural land use --- Agroforestry --- Land use, Rural
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Dear Colleagues,All types of biomass, and their waste, comprised one the pillars of the preindustrial,pre-fossil fuel, agriculture-based economies of the past. Traditionalpractices of biomass waste management were applied, but not necessarily in asophisticated and efficient way, and included everything from agricultural activitiesto food production, animal feed, natural fiber separation, and processingof forest wood. The modern bioeconomy sector, however, includes new circulareconomy energy and materials streams of added-value products, such asgaseous, liquid and solid biofuels and bioenergy generation routes, and biocharproduction, along with all the previously mentioned traditional products emergingfrom the bioeconomy.This Special Issue includes some of the latest bioenergy and biochar advancementsand their incorporation into a bioeconomy in transition. It focuses onnature, properties, upgrading, and bioenergy generation processes from all typesof biomass waste and biochars originating from biomass waste. The multidisciplinarityof bioenergy and biochar research is evident throughout the SpecialIssue, highlighting the highly variable and tunable processes involved inbiomass handling, pre-processing, converting to biochar, and recovering energy.Dr. Dimitrios KalderisGuest EditorDr. Vasiliki Skoulouco-Guest Editor
Research & information: general --- Technology: general issues --- ethanol --- lignocellulosic biomass --- life cycle assessment --- GHG emissions --- political incentives --- economic performance --- amino acid wastes --- biofuels --- microbial lipids --- Rhodosporidium toruloides --- two-stage culture --- fixed bed --- pyrolysis yield --- temperature --- coconut shell --- characterization --- SEM --- Mitigation of CO2-equiv. --- nutrient release --- rice paddy water and soil system --- slow-release fertilizer --- coconut wastes --- bioenergy resource --- pollutant emissions --- calorific value --- biocharing --- microalgae --- anaerobic digestion --- biogas --- respirometric reactors --- APSIM sugarcane model --- energy potential --- marginal land --- sensitivity analysis --- hydrochar --- hydrothermal carbonization --- CiteSpace --- scientometric analysis --- artificial neural network --- fly ash --- biomass combustion --- fluidized bed boilers --- acute phytotoxicity test --- mineral fertilizer --- BCR sequential extraction --- metal speciation --- starch --- biochar --- coffee waste --- polycaprolactone --- bioplastics --- biodegradation --- fermentable sugar --- enzymatic hydrolysis
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This book draws together a small selection of full-length papers based on presentations given at the 27th European Biomass Conference and Exhibition held in Lisbon, Portugal in 2019. The topics covered, which reflect the breadth of the program of the EUBCE conference itself, include biomass sources, various aspects of technologies used for the conversion of biomass to bioproducts and bioenergy, as well as different approaches to assessing environmental impacts, which include case studies based on different technologies in use in a range of countries.
Technology: general issues --- bioeconomy --- bio-based industry --- biomass --- bioenergy --- industrial crop --- perennial crop --- low-input agriculture --- marginal land --- MALLIS --- sustainable agriculture --- HTC --- bio-coal --- manure --- slagging --- fouling --- corrosion --- process chemistry --- combustion --- waste to energy --- struvite --- HTL --- biorefinery --- renewable fuel --- HyFlexFuel --- rice harvest pellets --- palletization --- ash recovery --- normative --- anaerobic digestion --- methane production --- co-digestion --- combined heat and power --- farm-scale --- technical-economic analysis --- life cycle assessment --- greenhouse gas emission --- Ireland --- 5-hydroxymethylfurfural --- glucose --- heteropolyacid catalysts --- agroforestry --- waste valorization --- sustainable development goals --- renewable energy --- bioenergy transitions --- circular bioeconomy --- clean cooking --- life-cycle assessment --- energy policy --- barley straw --- torrefaction --- higher heating value --- severity factor --- sustainable development --- enhancement factor --- energy yield --- climate modelling --- climate change --- climate policy --- emission accounting --- global warming potential --- global temperature change potential --- greenhouse gas emissions --- impulse response function --- Bern Carbon Cycle model --- climate impacts of agriculture system --- conventional wheat --- olive trees --- silvopastoral --- acidification --- eutrophication --- energy crops --- miscanthus --- cardoon --- Paulownia tomentosa --- microalgae --- contaminated soils --- geographic information systems (GIS) --- ArcGIS --- adsorption --- ceramic filter --- gasification --- hot-gas cleaning --- lignocellulosic biomass --- cellulose pulp --- hydrolysis --- oxygen availability --- C:N ratio --- fermentation --- itaconic acid --- Aspergillus terreus --- bioeconomy --- bio-based industry --- biomass --- bioenergy --- industrial crop --- perennial crop --- low-input agriculture --- marginal land --- MALLIS --- sustainable agriculture --- HTC --- bio-coal --- manure --- slagging --- fouling --- corrosion --- process chemistry --- combustion --- waste to energy --- struvite --- HTL --- biorefinery --- renewable fuel --- HyFlexFuel --- rice harvest pellets --- palletization --- ash recovery --- normative --- anaerobic digestion --- methane production --- co-digestion --- combined heat and power --- farm-scale --- technical-economic analysis --- life cycle assessment --- greenhouse gas emission --- Ireland --- 5-hydroxymethylfurfural --- glucose --- heteropolyacid catalysts --- agroforestry --- waste valorization --- sustainable development goals --- renewable energy --- bioenergy transitions --- circular bioeconomy --- clean cooking --- life-cycle assessment --- energy policy --- barley straw --- torrefaction --- higher heating value --- severity factor --- sustainable development --- enhancement factor --- energy yield --- climate modelling --- climate change --- climate policy --- emission accounting --- global warming potential --- global temperature change potential --- greenhouse gas emissions --- impulse response function --- Bern Carbon Cycle model --- climate impacts of agriculture system --- conventional wheat --- olive trees --- silvopastoral --- acidification --- eutrophication --- energy crops --- miscanthus --- cardoon --- Paulownia tomentosa --- microalgae --- contaminated soils --- geographic information systems (GIS) --- ArcGIS --- adsorption --- ceramic filter --- gasification --- hot-gas cleaning --- lignocellulosic biomass --- cellulose pulp --- hydrolysis --- oxygen availability --- C:N ratio --- fermentation --- itaconic acid --- Aspergillus terreus