The Fushun Oil Shale Semi-Coke’s Combustion Features and Thermal Dynamic Analysis

Yan Chang Li; Yu Meng Yang

doi:10.4028/www.scientific.net/AMM.694.327

Paper Titles

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Geophysical Model of Coal Prospecting in Uplift Area
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Study on the New Combined Technology of Tungsten Dressing and Metallurgy and its Economic Feasibility Analysis
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The Fushun Oil Shale Semi-Coke’s Combustion Features and Thermal Dynamic Analysis
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Study on Silicon Scale-Forming in ASP Flooding System
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Organic Solvent Extraction and Modified Aluminum Retort Experiments of an Indonesian Oil Sand
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Injection Method of SJT-B Collosol in the Low Permeability Reservoir
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The Detailed Calculation Model of the Friction between Sucker Rod and the Liquid in the Sucker Rod Pump Lifting System of Heavy Oil
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 694The Fushun Oil Shale Semi-Coke’s Combustion...

The Fushun Oil Shale Semi-Coke’s Combustion Features and Thermal Dynamic Analysis

Abstract:

This study analyses the Fushun oil shale semi-coke samples prepared in 450°C, 550°C and 650°C by using STA449 TGA. The experiment studied their ignition points, concluded that with the ascent of the char-making-temperature the semi-coke’s ignition point is getting higher. The test used Coats-Redfern way to study the semi-coke’s activation energy. The result shows the semi-coke’s thermal dynamic model needs two different reaction orders in different temperature. In low temperature the reaction order is n=1; in high temperature it is n=3. When the temperature is low (n=1), the activation energy doesn’t influenced by the heating rate. In high temperature condition the activation energy is getting bigger with the ascent of the heating rate.