期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
高原环境下TTF分解炉褐煤-烟煤混燃增效机制研究
1
作者 周尚群 赵青林 龙泉名 《新世纪水泥导报》 CAS 2022年第6期22-29,I0010,共9页
用Fluent软件对国内某高原水泥厂TTF分解炉进行掺杂褐煤混燃的数值模拟分析,研究分解炉褐煤-烟煤混燃增效机制。研究结果表明:在高原环境下加入30%~50%的褐煤能有效改善分解炉内燃料的燃烧状态,可降低混合燃料的着火点,增加分解炉内煤... 用Fluent软件对国内某高原水泥厂TTF分解炉进行掺杂褐煤混燃的数值模拟分析,研究分解炉褐煤-烟煤混燃增效机制。研究结果表明:在高原环境下加入30%~50%的褐煤能有效改善分解炉内燃料的燃烧状态,可降低混合燃料的着火点,增加分解炉内煤粉的燃尽率,同时有利于分解炉内形成均匀分布的温度场;同时在所研究的高原环境中当燃料各组分等比例混燃时增效效果最为显著,表现在这种比例下,混煤挥发分析出的程度最好,使分解炉的温度分布更加均匀,进而也使得窑系统内热力型NO_(x)排放量减少;此外与单独燃烧烟煤相比,温度场的改善也归功于混煤固定碳燃尽阶段的滞后。 展开更多
关键词 褐煤 分解炉 混燃机制 数值模拟 CFD
下载PDF
Simulation of a Shock Tube with a Small Exit Nozzle
2
作者 Yigang Luan Matthias Olzmann Franco Magagnato 《Journal of Thermal Science》 SCIE EI CAS CSCD 2018年第1期34-38,共5页
Shock tubes are frequently used to rapidly heat up reaction mixtures to study chemical reaction mechanisms and kinetics in the field of combustion chemistry [1]. In the present work, the flow field inside a shock tube... Shock tubes are frequently used to rapidly heat up reaction mixtures to study chemical reaction mechanisms and kinetics in the field of combustion chemistry [1]. In the present work, the flow field inside a shock tube with a small nozzle in the end plate has been investigated to support the analysis of reacting chemical mixtures with an attached mass spectrometer and to clarify whether the usual assumptions for the flow field and the related ther- modynamics are fulfilled. In the present work, the details of the flow physics inside the tube and the flow out of the nozzle in the end plate have been investigated. Due to the large differences in the typical length scales and the large pressure ratios of this special device, a very strong numerical stiffness prevails during the simulation process. Second-order ROE numerical schemes have been employed to simulate the flow field inside the shock tube. The simulations were performed with the commercial code ANSYS Fluent [2]. Axial-symmetric boundary conditions are employed to reduce the consumption of CPU time. A density-based transient scheme has been used and vali- dated in terms of accuracy and efficiency. The simulation results for pressure and density are compared with ana- lytical solutions. Numerical results show that a density-based numerical scheme performs better when dealing with shock-tube problems [5]. The flow field near the nozzle is studied in detail, and the effects of the nozzle to pressure and temperature variations inside the tube are invcstigatcd. The results show that this special shock-tube setup can be used to study high-temperature gas-phase chemical reactions with reasonable accuracy. 展开更多
关键词 CFD shock tube low pressure numerical scheme
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部