Keywords: شیل نفت; Oil shale; Organic matter; Structure; Pyrolysis; Radical;
مقالات ISI شیل نفت (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: شیل نفت; Trace element; Migration; Pyrolysis; Oil shale;
Keywords: شیل نفت; Oil shale; Oil shale semi-coke; Combustion behaviors; Pollutant emission and control characteristics; Fluidized bed combustor;
Keywords: شیل نفت; Ash Formation; Desulphurisation; Oxyfuel; Staging; Oil Shale;
Keywords: شیل نفت; Oil shale; Thermal decomposition; Chemical kinetics; Darcy's law; Electromagnetic heating;
Keywords: شیل نفت; XANES; Sulfur; Bitumen; Oil shale; Hydrous pyrolysis; Type II-S kerogen;
Keywords: شیل نفت; Oil shale; Pyrolysis; Intraparticle mass transfer; Volatile product distribution;
Keywords: شیل نفت; Cement manufacture; Alternative raw mixes; Oil shale; Coal waste; Hydration;
Keywords: شیل نفت; Oil shale; Thermal analysis; Kinetics; Combustion;
Keywords: شیل نفت; Compound dry separator; Oil shale; Particle force; Vibration acceleration; Oil content;
Keywords: شیل نفت; Oil shale; Mechanism; Free radical reaction; Carbocation reaction; Kinetics; Aqueous medium;
Keywords: شیل نفت; Green River Formation; Oil shale; Rock mechanics; Shale compaction; Young's modulus; Sonic velocities;
Keywords: شیل نفت; Oil shale; Terahertz spectroscopy; Aliphatic compounds; Kerogen;
Keywords: شیل نفت; In-situ conversion process; Nitrogen injection; Oil shale; Reservoir numerical simulation; Kerogen pyrolysis;
Keywords: شیل نفت; Oil shale; Retorting; Combustion; Exergy; Energy; Linear programming;
Keywords: شیل نفت; In-situ upgrading; Oil shale; Numerical simulation; Sensitivity analysis; Uncertainty prediction; Data-worth analysis;
Keywords: شیل نفت; Oil shale; Pyrolysis; Fluidized-bed; Upgrading; Secondary cracking; Reactors;
Keywords: شیل نفت; In-situ Conversion Process (ICP); Oil shale; Flow-based transmissibility upscaling; Unconventional oil; Reservoir simulation; Thermal recovery;
Keywords: شیل نفت; Late cretaceous; Oil shale; Pyrolysis; Bulk kinetic; Type II-S; Sulfur-rich oil; Narrow temperature; Jordan;
Keywords: شیل نفت; Cavitation; Crude oil; Desulphurisation; Crude upgrading; Enhanced oil recovery; Oil sand extraction; Oil shale; Petroleum industry;
Keywords: شیل نفت; Optimization; Pyrolysis; Oil shale; Semicoke; Terahertz time domain spectroscopy; Absorption index;
Keywords: شیل نفت; Oil shale; Pyrolysis; Decomposition; Distributed activation energy model; Mass spectrometry; Sulphur behaviour;
Keywords: شیل نفت; Co-combustion; Sewage sludge; Oil shale; TGA analysis; The distributed activation energy model (DAEM);
Keywords: شیل نفت; Co-pyrolysis; Oil shale; Low density polyethylene; Synergetic effect;
Keywords: شیل نفت; Pyrolysis; Oil shale; Internals; Steam atmosphere; Shale ash; Ceramic balls;
Keywords: شیل نفت; Pyrolysis; Kerogen; Chemical structure; Mechanism; Oil shale; Coal; Tar; Shale oil;
Structure and pyrolysis behavior of the organic matter in two fractions of Yilan oil shale
Keywords: شیل نفت; Oil shale; Gravity separation; Organic matter structure; Pyrolysis;
Keywords: شیل نفت; Thermogravimetric analysis; Co-combustion; Oil shale; Semi-coke; Kinetics;
Keywords: شیل نفت; Oil shale; Pyrolysis; Irati Formation; Unconventional oil;
Keywords: شیل نفت; Oil shale; Kerogen; Pyrolysis; Imaging; Pore structure; Representative sample size;
Keywords: شیل نفت; In-Situ Upgrading; Heavy oil; Oil shale; Dimensionless numbers;
Keywords: شیل نفت; Near-infrared; Imaging spectroscopy; Kerogen; Oil shale; Green River Formation;
Keywords: شیل نفت; Lucaogou formation; Oil shale; Biomarker; Organic matter; Tight oil potential;
Keywords: شیل نفت; Underground coal pyrolysis; Synthetic fuel; Retorting; Oil shale; Carbon capture;
Keywords: شیل نفت; Oil shale; Fractal; Pyrolysis; Combustion; Particle size distribution; Fragmentation;
Keywords: شیل نفت; Multi-criteria decision analysis; Energy planning; Renewable energy; Nuclear energy; Oil shale; Conventional resources;
Keywords: شیل نفت; Thermal maturation; Source rock; Oil shale; Sulfur isotopes; Compound specific; Pyrolysis; Thiophenes;
Keywords: شیل نفت; Redox condition; Biomarkers; Sulfidic (euxinic); Salinity; Pyrite; Thermal maturity; Oil shale; Lower Toarcian; Ocean anoxic event;
Keywords: شیل نفت; Density; Temperature dependence; Fourier-transform infrared spectroscopy (FTIR); Oil shale; Phenol rich oil; Chemometrics;
Keywords: شیل نفت; Oil shale; Geopolymers; Alkali-activated materials; C-A-S-H gel; Ambient curing;
Keywords: شیل نفت; oil shale; ash heat-carrier; activation energy; semi-coking; gas
Keywords: شیل نفت; Co-combustion; Thermogravimetric analysis (TGA); Oil shale; Municipal solid waste; Kinetics;
Keywords: شیل نفت; SOFC application; Geothermic Fuel Cell; Oil shale; In-situ oil shale processing; Unconventional oil and gas; SOFC-CHP;
Keywords: شیل نفت; Contact angle; Shale gas; Oil shale; High pressure; Elevated temperature; Hydraulic fracturing
Keywords: شیل نفت; Oil shale; Pyrolysis; Fixed bed; Internals; Vacuum pyrolysis; Secondary reactions;
Keywords: شیل نفت; SCFE; Supercritical; Oil shale; Shale oil; CO2; Co-solvent; Extraction
Keywords: شیل نفت; Compound dry separator; Vibration air-dense medium fluidized bed separator; Combined dry beneficiation process; Oil shale;
Keywords: شیل نفت; Microalgae; Oil shale; Co-pyrolysis; Synergistic effect; Syngas
Keywords: شیل نفت; Oil shale; Fungal diversity; Clone library; rDNA ITS; Pure culture
Keywords: شیل نفت; Oil shale; Supercritical water; Pyrite; Liquefaction; Desulfurization