Power Cycles and Combustion Analysis -- Webinar MaterialEngineering Software In this webinar, the engineering students and professionals get familiar with the ideal simple and basic power cycles and combustion and their T - s, p - V and h - T diagrams, operation and major performance trends when air, argon, helium and nitrogen are considered as the working fluid. Performance Objectives: Introduce basic energy conversion engineering assumptions and equations Know basic elements of Carnot Cycle, Brayton Cycle, Otto Cycle, Diesel Cycle and combustion and their T - s, p - V and h - T diagrams Be familiar with Carnot Cycle, Brayton Cycle, Otto Cycle, Diesel Cycle and combustion operation Understand general Carnot Cycle, Brayton Cycle, Otto Cycle, Diesel Cycle and combustion performance trends |
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Common terms and phrases
0.000 Combustion Products 0.000 Fuel Composition 02 Combustion Products 1,800 Combustion Temperature 1,800 Fuel Temperature Argon Basis Combustion Products Brayton Cycle Gas Carbon Hydrogen Sulfur Carnot Cycle Efficiency CH4 kg/kg Coal Oil Gas Combustion Products Composition Combustion Products Flame Combustion Products kg/kg Combustion Products kmol/kmol Composition on Weight Compression Ratio P2/P1 Compression Ratio V1/V2 compression ratio values Compressor Inlet Temperature Cut Off Ratio Cycle and combustion Cycle Gas Turbine Cycle Power Output Cycle Specific Fuel Diesel Cycle Efficiency Enthalpy Entropy Fuel and Oxidant Fuel C H Gas Turbine Inlet H2O kg/kg H2O N2 Combustion Heat Exchanger Helium Higher Heating Value Hydrogen Sulfur Coal Isentropic kJ/kg kJ/kg*K mass flow rate Nitrogen O2 kmol/kmol Oxidant Composition Oxidant Oxidant Inlet Temperature Oxidant Temperature Oxidant to Fuel power output increases Products Flame Temperature Specific Fuel Consumption Specific heat Stoichiometric Oxidant Sulfur Coal Oil Turbine Inlet Temperature webinar Weight and Mole Weight Basis Combustion wnet