Keywords: تغییر استفاده غیر مستقیم زمین; Corn stover collection; GHG emissions; Renewable energy directive; LCA; Biogas; BB; Big bales; DM; Dry matter; EONR; Economically Optimum Nitrogen Rate; GHG; Greenhouse gases; ILUC; Indirect Land Use Change; IPCC; Intergovernmental panel for climate chang
مقالات ISI تغییر استفاده غیر مستقیم زمین (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: تغییر استفاده غیر مستقیم زمین; ATDC; after firing top dead centre; CA10; crank angle of 10% cumulative heat release; CA10-CA90; combustion duration or 10-90% cumulative heat release; CA50; crank angle of 50% cumulative heat release; CA90; crank angle of 90% cumulative heat release;
Keywords: تغییر استفاده غیر مستقیم زمین; AC; acidification; AEN; aquatic eutrophication, nitrogen; AEP; aquatic eutrophication, phosphorous; ARD; abiotic resource depletion; dLUC; direct land use change; EF; ecological footprint; ET; Ecotoxicity; EU; Europe; EU28; Europe, 28 member states; FRD;
Keywords: تغییر استفاده غیر مستقیم زمین; Biomass energy; Greenhouse gas emissions; Land-use change; (ALCA; Attributional Life Cycle Assessment; CHP; Combined heat and power; CLCA; Consequential Life Cycle Assessment; dLUC; direct Land Use Change; GHG; Greenhouse Gas; GWP; Global Warming Potentia
Keywords: تغییر استفاده غیر مستقیم زمین; Amazon agricultural frontier; Agricultural intensification; Land use sustainability; Human health; Global change; Indirect land use change;
Keywords: تغییر استفاده غیر مستقیم زمین; Direct land use change; Indirect land use change; Consequential LCA; Attributional LCA; Biofuel;
Keywords: تغییر استفاده غیر مستقیم زمین; Biobased products; Attributional LCA; Economic allocation; Consequential LCA; Biorefinery; Indirect land use change; System expansion;
Keywords: تغییر استفاده غیر مستقیم زمین; Yield gap; Indirect land use change; Nitrogen leaching; Carbon sequestration; Biodiversity;
Keywords: تغییر استفاده غیر مستقیم زمین; Alternative fuel vehicle; Bioethanol and bioelectricity supply chain; First and second generation; Indirect land use change; Multi-objective optimisation
Keywords: تغییر استفاده غیر مستقیم زمین; GHG; greenhouse gases; WWF; World Wide Fund for Nature; ACEA; European Automobile Manufacturer's Association; COPA-COGECA; The united voice of farmers and their co-operatives in the European Union; USDA; United States Department of Agriculture; B-10; fu
Keywords: تغییر استفاده غیر مستقیم زمین; Biofuel; Biogas; Biomethane; Carbon footprint; NOx; Particulate matter; AwR; alkaline with regeneration carbon mineralization; BABIU; bottom ash for biogas upgrading; CH4; methane; CHP; combined heat and power; CO2; carbon dioxide; CO2eq; equivalent carbo
Keywords: تغییر استفاده غیر مستقیم زمین; Palm oil; Sustainability; Industry-university collaboration; Publications; Trends; Bibliometric; ARPOS; Academic Research on Palm Oil Sustainability (Malaysian Research Network); GHG; Greenhouse Gases; HCS; High Carbon Stock; HCV; High Conservation Valu
Keywords: تغییر استفاده غیر مستقیم زمین; Biofuel policy; Corn ethanol; Indirect land use change; Renewable fuel standard; Soybean Biodiesel; Sugarcane ethanol
Keywords: تغییر استفاده غیر مستقیم زمین; Land use and land cover change modeling; Land use displacement; Policy regulations; Panel regression model; Indirect land use change;
Keywords: تغییر استفاده غیر مستقیم زمین; Indirect land use change; Agriculture; Deforestation; Amazon; Brazil;
Keywords: تغییر استفاده غیر مستقیم زمین; (HCVA); high conservation value areas; (LUC); land use change; (ILUC); indirect land use change; (ISCC); international sustainability and carbon certification; (RSB); Roundtable on Sustainable Biomaterials; (NR); regulatory norm; (GHG); greenhouse gas; (G
Keywords: تغییر استفاده غیر مستقیم زمین; AD; anaerobic digestion; BTX; benzene, toluene, and xylenes; BC; biochemical; CBP; Consolidated Bioprocessing; CC; combined cycle; CFB; circulating fluidized bed; CHP; combined heat and power; DDGS; dried distillers grain soluble; DLUC; direct land use ch
Keywords: تغییر استفاده غیر مستقیم زمین; Indirect land use change; Consequential LCA; Attributional LCA; Biofuel
Can microalgae biodiesel contribute to achieve the sustainability objectives in the transport sector in France by 2030? A comparison between first, second and third generation biofuels though a range-based Multi-Actor Multi-Criteria Analysis
Keywords: تغییر استفاده غیر مستقیم زمین; Multi-criteria analysis; Stakeholder analysis; Microalgae biodiesel; Cellulosic biofuels; Conventional biofuels; Sustainability; AHP; Analytic Hierarchy Process; BP; Biofuel Producers; BtL; Biomass to Liquid; C2B; Biomass and Biofuel Committee; CM; Car ma
Sustainable and Integrated Bioenergy Assessment for Latin America, Caribbean and Africa (SIByl-LACAf): The path from feasibility to acceptability
Keywords: تغییر استفاده غیر مستقیم زمین; ABM; Agent- Based Model; AGSIM; Econometric-Simulation Model of the Agricultural Economy Used for Biofuel Evaluation; ASEAN; Association of Southeast Asian Nations; BIOTSA; Bioenergy Technology Sustainability Assessment; BLUM; Brazilian Land Use Model; CG
Ethanologens vs. acetogens: Environmental impacts of two ethanol fermentation pathways
Keywords: تغییر استفاده غیر مستقیم زمین; Acetogen; Biofuels; Ethanol; Ethanologen; Life cycle assessment; Poplar feedstock; AP; acetogen pathway; EISA; Energy Independence and Security Act; EP; ethanologen pathway; GWP; global warming potential; GHG; greenhouse gas; GREET; greenhouse gases, regu
From a rise in B to a fall in C? SVAR analysis of environmental impact of biofuels
Keywords: تغییر استفاده غیر مستقیم زمین; SVAR; Time-series econometrics; Biofuels; CO2 emissions; Environment; Indirect land use change;
Indirect land use change - Help beyond the hype?
Keywords: تغییر استفاده غیر مستقیم زمین; Indirect land use change; Life cycle assessment; Carbon footprint; Biofuels; Greenhouse gas;
Modelling approaches for consequential life-cycle assessment (C-LCA) of bioenergy: Critical review and proposed framework for biogas production
Keywords: تغییر استفاده غیر مستقیم زمین; A-LCA; attributional LCA; CAP; common agricultural policy; CAPRI; common agricultural policy regional impact analysis; CES; constant elasticity of substitution; CGE; computable general equilibrium; C-LCA; consequential LCA; C-LCI; consequential LCI; CRS;
A life cycle assessment of pennycress (Thlaspi arvense L.) -derived jet fuel and diesel
Keywords: تغییر استفاده غیر مستقیم زمین; Field pennycress (Thlaspi arvense L.); biofuel; Renewable diesel; hydrotreated renewable jet; Life cycle assessment; AITC; 2-propenyl allyl isothiocyanate (CAS 57-06-7); ATC; Allyl thiocyanate (CAS 764-49-8); CED; cumulative energy demand; dLUC; direct la
Critical aspects in the life cycle assessment (LCA) of bio-based materials – Reviewing methodologies and deriving recommendations
Keywords: تغییر استفاده غیر مستقیم زمین; Life cycle assessment; Bio-based materials; Environmental impacts; Biogenic carbon storage; Indirect land use change; Soil carbon
An alternative approach to indirect land use change: Allocating greenhouse gas effects among different uses of land
Keywords: تغییر استفاده غیر مستقیم زمین; Allocation; Coarse grain; Ethanol; Greenhouse gas emissions; Indirect land use change; Nutrition
System expansion for handling co-products in LCA of sugar cane bio-energy systems: GHG consequences of using molasses for ethanol production
Keywords: تغییر استفاده غیر مستقیم زمین; System expansion; Molasses ethanol; Indirect land use change; Greenhouse gases;
Comparing environmental consequences of anaerobic mono- and co-digestion of pig manure to produce bio-energy – A life cycle perspective
Keywords: تغییر استفاده غیر مستقیم زمین; Consequential LCA; Pig slurry; Renewable energy; Indirect land use change; Greenhouse gases
Indirect land use change for biofuels: Testing predictions and improving analytical methodologies
Keywords: تغییر استفاده غیر مستقیم زمین; Corn; Biofuel; Historical data; Indirect land use change; Renewable energy policy; Soybean
Life cycle greenhouse gas emissions impacts of the adoption of the EU Directive on biofuels in Spain. Effect of the import of raw materials and land use changes
Keywords: تغییر استفاده غیر مستقیم زمین; Ethanol; FAME; Life Cycle Assessment (LCA); Land availability; Indirect land use change; Greenhouse gas emissions
The iLUC dilemma: How to deal with indirect land use changes when governing energy crops?
Keywords: تغییر استفاده غیر مستقیم زمین; Land use change; Indirect land use change; Bioenergy; Biofuels policy; GHG accounting; Sustainability
Assessing deforestation from biofuels: Methodological challenges
Keywords: تغییر استفاده غیر مستقیم زمین; Biofuels; Feedstocks; Deforestation; Indirect land use change
Consequential life cycle assessment of the environmental impacts of an increased rapemethylester (RME) production in Switzerland
Keywords: تغییر استفاده غیر مستقیم زمین; Biofuels; Brassica napus; Energy crops; Consequential LCA; Indirect land use change
Evaluating the environmental cost of biofuels policy: An illustration with bioethanol
Keywords: تغییر استفاده غیر مستقیم زمین; F11; F18; Q15; Q56biofuels; indirect land use change; carbon balanceF11; F18; Q15; Q56biocarburants; effets indirects d'usage des terres; émissions de CO2