Keywords: شدت انرژی; bioenergy; greenhouse gas emission; energy intensity; life cycle assessment; dairy system;
مقالات ISI شدت انرژی (ترجمه نشده)
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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: شدت انرژی; CO2 emissions; Emissions intensity; Decomposition analysis; Energy intensity; Structural change; Emissions reduction;
Keywords: شدت انرژی; Energy intensity; Carbon dioxide emission intensity; Taiwan;
Keywords: شدت انرژی; Energy efficiency; Recycling; Mechanical recycling; Resource modelling; Energy intensity; Carbon fibre reinforced plastic;
Keywords: شدت انرژی; Biased technical change; Divisia decomposition; Input-output analysis; Energy intensity; China; RAS technique;
Keywords: شدت انرژی; Desalination; Geographic information systems multicriteria decision analysis (GIS-MCDA); Site selection; Energy intensity; Sustainability; Renewable energy;
Keywords: شدت انرژی; Energy intensity; Cointegration; Saving potential
Keywords: شدت انرژی; Index decomposition analysis; Production-theoretical decomposition analysis; Energy intensity; China
Keywords: شدت انرژی; Industrial structure; Energy intensity; China;
Keywords: شدت انرژی; Energy intensity; Input-output analysis; Structural decomposition analysis;
Keywords: شدت انرژی; Mass intensity; Energy intensity; Membrane reactor; Hydrogen; Metrics;
Keywords: شدت انرژی; Energy intensity; Trade structure; Technical characteristics; Ghana
Keywords: شدت انرژی; Energy policy; Policy implementation; Political economy; Energy intensity; China; Climate change;
Keywords: شدت انرژی; Emissions; Energy intensity; Energy mix; Institutions; Heterogeneous panelsQ42; Q48; Q58
Keywords: شدت انرژی; Diffusion; Energy efficient technologies; Energy efficiency; Steel industry; Energy intensity;
Keywords: شدت انرژی; Energy intensity; Kuznets curve; Spatial Durbin error model; Foreign direct investment; China; C21; C23; O13; P28; Q43;
Keywords: شدت انرژی; Energy intensity; Decomposition; Panel data; Synthetic control method; O5; O13; Q40; Q43;
Keywords: شدت انرژی; Energy intensity; Carbon dioxide intensity; Thailand's steel industry; Semi-finished steel; Finished steel
Keywords: شدت انرژی; Exergy; Useful work; Efficiency; Energy intensity; Decomposition;
Keywords: شدت انرژی; Energy intensity; Intensity change decomposition; Industrial growth; Thailand;
Keywords: شدت انرژی; Energy intensity; Carbon intensity; Eleventh Five-Year Plan; China;
Keywords: شدت انرژی; Energy intensity; Iron and steel industry; Technology structure; Comparison methodology;
Keywords: شدت انرژی; CO2 emissions intensity; Convergence; Energy intensity; Fossil fuel intensity; Manufacturing industry; Panel corrected standard errors estimator;
Keywords: شدت انرژی; Energy intensity; Kazakhstan; Bottom-up energy model; Energy system analysis; Energy demand; Energy supply;
Keywords: شدت انرژی; Energy consumption; Input-output model; Regional disparity; Energy intensity;
Keywords: شدت انرژی; Q43; C43; Energy intensity; Logarithmic mean Divisia index decomposition; WIOD database;
Keywords: شدت انرژی; Water-energy nexus; Rainwater harvesting system; Energy intensity; Integrated water management; Energy efficiency; Water resources;
Keywords: شدت انرژی; C43; Q43; Index decomposition analysis; Multilevel decomposition analysis; Multi-hierarchical model; Energy intensity; Structure change;
Keywords: شدت انرژی; Energy intensity; Index decomposition analysis; Structural decomposition analysis; China;
Keywords: شدت انرژی; Energy intensity; Transport sector; Decomposition analysis;
Keywords: شدت انرژی; Q43; R11; O14; Energy intensity; Developing countries; Industrialization; Urbanization;
Keywords: شدت انرژی; Q43; C14; Energy intensity; Data envelopment analysis; Decomposition;
Keywords: شدت انرژی; Multi-unit residential building; Energy intensity; Energy retrofit; Weather-normalization; Energy-use data base;
Keywords: شدت انرژی; Q43; Q47; Q50; O11; R11; Energy intensity; Convergence; China provinces; Unit roots;
Keywords: شدت انرژی; Energy intensity; Analysis of energy intensities; Modeling;
Keywords: شدت انرژی; Electricity consumption; Electricity prices; Energy intensity;
Keywords: شدت انرژی; Energy intensity; Technological progress; China;
Keywords: شدت انرژی; Ferroalloy; LCA; Metal production; Energy intensity; Carbon footprint;
Keywords: شدت انرژی; Energy intensity; Decomposition; Sectoral analysis;
Keywords: شدت انرژی; Q43; R11; C22; Energy intensity; Urbanization; Threshold cointegration; Structural breaks; Asymmetric adjustment;
Keywords: شدت انرژی; Energy intensity; Regional and sectoral differences; Income elasticities;
Keywords: شدت انرژی; Energy intensity; Decomposition analysis; Chinese manufacturing;
Keywords: شدت انرژی; O24; Q4; 053; P28; Energy intensity; Chinese provinces; Investment ownership; FDI; Technology diffusion;
Keywords: شدت انرژی; Climate change mitigation; Energy intensity; Emissions intensity; Decomposition analysis
Keywords: شدت انرژی; Land transport; Energy use; Energy intensity; Energy-saving strategy
Keywords: شدت انرژی; M48Carbon taxes; Carbon emissions; Carbon intensity; Energy taxes; Energy effectiveness; Energy intensity
Keywords: شدت انرژی; Energy consumption; Economic output; Energy intensity; Growth rate; 3 GR model;
Keywords: شدت انرژی; Q41; Q43; Q48; Energy intensity; Urbanization; China;
Keywords: شدت انرژی; Willow; Energy inputs; Diesel consumption; Energy intensity; Energy ratio
Driving forces and mitigation potential of global CO2 emissions from 1980 through 2030: Evidence from countries with different income levels
Keywords: شدت انرژی; AIM; Asian-Pacific integrated model; BAU; Business-as-usual; BP; British Petroleum; CEBAU; CO2 emissions from the BAU scenario; CESCENARIO; CO2 emissions from the specified scenario; CEMP; CO2 emissions mitigation potential; CO2; Carbon dioxide; DEA; Data