共查询到10条相似文献,搜索用时 46 毫秒
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运用Fluent软件对某电厂1160t/h锅炉的燃烧过程和NOx生成特性进行数值模拟。通过调节风煤配比来改变燃烧区域风粉的混合以及燃烧区内的气氛,得到炉内C(s)、CO2、CO、O2、H2O(g)的浓度分布和NOx生成特性。对于煤粉的燃烧特性而言,NOx的来源依赖于煤中氮的析出和氧化。从模拟结果可以看出,煤量变化率直接影响燃烧生成物在锅炉中的分布,从而影响NOx排放浓度。随着煤量变化率的增大,NOx的排放浓度先减少后增加,即燃料分级工况存在最佳风煤配比。从所计算工况的结果比较,得出了最佳风煤配比。 相似文献
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对脱硫系统事故工况下急冷装置下游烟气的流场及温度场分布进行了数值模拟研究和分析,并提出了基于原始喷雾系统布置方案的一种优化方案。该方案在能满足设计要求的前提下,最大限度的减少了喷嘴数量和水耗。在事故急冷装置实际工程设计及应用上,具有一定的理论指导意义。 相似文献
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基于FLUENT软件,对油田高含盐污水的雾化蒸发过程进行了数值模拟,得到了逆流型雾化蒸发塔内的流场分布特性,对比分析了不同操作参数对蒸发效果的影响。结果表明:液滴蒸发速率沿塔体中心轴线自上而下呈加快趋势;进口空气流速与温度是影响液滴蒸发的关键操作参数,提高流速及温度均可加快液滴的蒸发速率;当进口空气流速达到0.4 m/s后,对蒸发速率的影响减弱;当进口空气温度达到313 K后,对蒸发速率的提高作用不大;喷雾锥角的变化对蒸发速率影响不明显;液滴越细化,蒸发速率越快。 相似文献
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填海工程影响下的电厂冷却水工程布置数值模拟研究 总被引:1,自引:1,他引:1
随着大亚湾北岸大规模填海造地工程的实施.将影响潮流流态,给拟建于该开发区的惠州LNG电厂循环冷却水工程优化布置带来困难。针对这种情况,利用数学模型对现状海域流场进行了验证计算;对规划岸线下的流场变化情况进行了模拟;对电厂温排水的运行扩散规律进行了模拟,在考虑取水温度、经济性、环保性的基础上。提出了优化布置方案。该方案较传统方法思路更优化、观点更符合环保要求,更具有前瞻性,为类似工程的设计、研究提供了有益的经验。 相似文献
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The present study is an application of Computational Fluid Dynamics (CFD) to the numerical simulation of landfill aeration systems. Specifically, the CFD algorithms provided by the commercial solver ANSYS Fluent 14.0, combined with an in-house source code developed to modify the main solver, were used. The unsaturated multiphase flow of air and liquid phases and the biochemical processes for aerobic biodegradation of the organic fraction of municipal solid waste were simulated taking into consideration their temporal and spatial evolution, as well as complex effects, such as oxygen mass transfer across phases, unsaturated flow effects (capillary suction and unsaturated hydraulic conductivity), temperature variations due to biochemical processes and environmental correction factors for the applied kinetics (Monod and 1st order kinetics). The developed model results were compared with literature experimental data. Also, pilot scale simulations and sensitivity analysis were implemented. Moreover, simulation results of a hypothetical single aeration well were shown, while its zone of influence was estimated using both the pressure and oxygen distribution. Finally, a case study was simulated for a hypothetical landfill aeration system. Both a static (steadily positive or negative relative pressure with time) and a hybrid (following a square wave pattern of positive and negative values of relative pressure with time) scenarios for the aeration wells were examined. The results showed that the present model is capable of simulating landfill aeration and the obtained results were in good agreement with corresponding previous experimental and numerical investigations. 相似文献