Keywords: گاز انفجار; Blast furnace gas; regenerative burners; oxy-fuel burners; flat-flame burners; CFD combustion modelling;
مقالات ISI گاز انفجار (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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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: گاز انفجار; CFD combustion modelling; flameless oxy-fuel combustion; blast furnace gas; low calorific value gas radiation; SLWSGG model;
Keywords: گاز انفجار; BFG; Blast Furnace Gas; CAPM; Capital Assets Pricing Model; CCS; Carbon Capture and Storage; CHP; Concentrated Heat and Power; COG; Coke Oven Gas; DR; Discount Rate; GDP; Gross Domestic Product; HFO; Heavy Fuel Oil; HR; Hurdle Rate; IGCC; Integrated Gasif
Keywords: گاز انفجار; VTM; LCA; Category indicator; Pollutant gas emissions; LCA; life cycle assessment; VTM; vanadium titano-magnetite; LCI; life cycle inventory; LCIA; life cycle impact assessment; Pan. Steel; Panzhihua Iron and Steel Co. Ltd.; BF; blast furnace; GWP100; glo
Keywords: گاز انفجار; Laminar burning velocity; Flame speed; Outwardly-propagating spherical flame; Flame stretch; Blast furnace gas; Coke oven gas;
Keywords: گاز انفجار; Blast furnace gas; Particulate sampling; Site condensate characterisation;
Keywords: گاز انفجار; COG; coke oven gas; GDP; gross domestic product; BF; blast furnace; Syn-gas; synthesis gas; CV; calorific value; BFG; blast furnace gas; BTX; benzene, toluene and xylene; HCs; hydrocarbons; CHP; combined heat and power; SOx; sulfur oxide; DRI; direct redu
Integration of a fluidised bed Ca-Cu chemical looping process in a steel mill
Keywords: گاز انفجار; CO2 capture; Steelworks; Blast furnace gas; Calcium Looping; CuO/Cu Looping;
Optimization of multistage membrane gas separation processes. Example of application to CO2 capture from blast furnace gas
Keywords: گاز انفجار; CO2 capture; Membrane gas separation; Process optimization; Process system engineering; Blast furnace gas;
NOx reduction using advanced techniques in a 175MWth multi-fuel corner-fired boiler
Keywords: گاز انفجار; NOx Reduction; Coal Combustion; CFD; Blast Furnace Gas; Coke Oven Gas;
CO2 abatement from the iron and steel industry using a combined Ca-Fe chemical loop
Keywords: گاز انفجار; CO2 capture; Calcium looping; Chemical looping combustion; Iron oxide; Steel slag; Blast furnace gas;
CO2 capture in integrated steelworks by commercial-ready technologies and SEWGS process
Keywords: گاز انفجار; CO2 capture; SEWGS; Sorption enhanced; Iron; Steel; Blast furnace gas; MEA; MDEA;
Sensitivity to change in laminar burning velocity and Markstein length resulting from variable hydrogen fraction in blast furnace gas for changing ambient conditions
Keywords: گاز انفجار; Hydrogen flame speed sensitivity; Blast furnace gas; Laminar burning velocity; Flame stretch; Chemical kinetic modelling
Development of novel absorbents for CO2 capture from blast furnace gas
Keywords: گاز انفجار; Carbon dioxide; Chemical absorption; Blast furnace gas; Amine; Bicarbonate anion
Firing blast furnace gas without support fuel in steel mill boilers
Keywords: گاز انفجار; Coke oven gas; Blast furnace gas; Industrial furnace; Boiler; Steel industry
Exergoeconomic analysis of the power generation system using blast furnace and coke oven gas in a Brazilian steel mill
Keywords: گاز انفجار; Blast furnace gas; Coke oven gas; Power generation; Steel mills; Exergoeconomic analysis