Microscopic Pyrolysis Mechanisms of Superfine Pulverized Coal Based on Tg-Ftir-Ms and Reaxff Md Study
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Publisher
Elsevier BV
Reference45 articles.
1. An innovative low-NOx combustion technology for industrial pulverized coal boiler: Gas-particle flow characteristics with different radial-air-staged levels;Z Yuan;Energy,2022
2. Evaluation of effects of ammonia co-firing on the thermal performances of supercritical pulverized coal and circulating fluidized bed boilers;S Kim;Energy Conversion and Management,2023
3. NOx emission characteristics of superfine pulverized anthracite coal in air-staged combustion;J Shen;Energy Conversion and Management,2013
4. NO emission characteristics of superfine pulverized coal combustion in the O 2 /CO 2 atmosphere;J Liu;Energy Conversion and Management,2014
5. Physical structure and combustion properties of super fine pulverized coal particle;X Jiang;Fuel,2002
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