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SIMULATION OF HEAT, MASS, AND MOMENTUM TRANSFER WITHIN BUILDING INTERIORS

机译：建筑内部内的热量，质量和动量转移

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An hp finite element-based model has been developed to calculate heat, mass, and momentum transfer within rooms and building interiors. The hp-adaptive methodology is based on both mesh enrichment (h-adaptation) and spectral order incensement (p-adaptation) in an effort to produce accurate results with the least computational cost. A Lagrangian Particle Transport (LPT) technique is coupled with the adaptive scheme to simulate mass transport. The model is particularly amenable for depicting the transport of contaminants associated with indoor air quality. The hp-adaptive algorithm is validated using natural convection in a square enclosure. The model is subsequently applied to the simulation of momentum, heat, and mass transport within building interiors: air and temperature distribution patterns are presented along with potential pathways of a powder dispersing within an office.

机译：已经开发出基于HP有限元的模型来计算房间内的热量，质量和势头。 HP-Adaptive方法基于网格浓缩（H-Adaptation）和光谱序列（P-Adaptation），以产生具有最小计算成本的准确结果。拉格朗日粒子传输（LPT）技术与自适应方案相结合以模拟质量传输。该模型特别适用于描绘与室内空气质量相关的污染物的运输。使用方形外壳中的自然对流进行验证HP-Adaptive算法。随后将该模型应用于建筑物内部的动量，热量和质量传输的模拟：空气和温度分布图案以及在办公室内的粉末分散的潜在通路。

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《ASME Heat Transfer Conference》|2005年||共6页
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Xiuling Wang; Darrell W. Pepper; American Society of Mechanical Engineers(ASME);
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中图分类热力工程理论;
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SIMULATION OF HEAT, MASS, AND MOMENTUM TRANSFER WITHIN BUILDING INTERIORS

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