TWODIMENSIONAL COMPUTATIONAL FLUID DYNAMICS (CFD) MODELING OF AIR VELOCITY AND AMMONIA DISTRIBUTION IN A HIGHRISETM HOG BUILDING 4050.

H. Sun; R. R. Stowell; H. M. Keener; F. C. Michel; Jr.

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TWODIMENSIONAL COMPUTATIONAL FLUID DYNAMICS (CFD) MODELING OF AIR VELOCITY AND AMMONIA DISTRIBUTION IN A HIGHRISETM HOG BUILDING 4050.

机译：高层燃气罐建筑中–4050空气速度和氨分布的二维计算流体动力学（CFD）建模。

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Computational fluid dynamics (CFD) models of a High-Rise TM hog building (HRHB) were developed to simulate air velocity and ammonia distribution within the building under minimum ventilation conditions. Because both laminar/transient and turbulent flow conditions exist in the building, two different flow simulations were used. Air velocity profiles from both turbulent and laminar flow models indicated that some air moves from the lower to the upper level, which affects the distribution of ammonia in the pig space. The simulation results were compared to air velocities and ammonia concentrations measured within an experimental HRHB. The turbulent flow model more closely matched measured ammonia values at locations in the HRHB than the laminar flow model. Using the turbulent flow model, ammonia concentration in the pig space would be below 25 ppm, and the NH ₃ emission factor for the HRHB during winter (low ventilation) conditions would be 4.6 kg pig -1 yr -1 . Although limited by the representation of real building geometry and processes, the two-dimensional CFD models allowed rapid simulation of airflow and species gradients in the HRHB

机译：开发了高层 TM 猪建筑（HRHB）的计算流体力学（CFD）模型，以模拟最低通风条件下建筑物内的空气速度和氨分布。由于建筑物中同时存在层流/瞬态和湍流条件，因此使用了两种不同的流量模拟。来自湍流模型和层流模型的空气速度剖面表明，一些空气从较低水平移动到较高水平，这会影响猪空间中氨的分布。将模拟结果与实验HRHB内测得的空气流速和氨浓度进行了比较。与层流模型相比，湍流模型与HRHB中的位置处测得的氨值更紧密匹配。使用湍流模型，猪空间中的氨浓度将低于25 ppm，而冬季（低通风）条件下HRHB的NH _{3 排放因子将为4.6 kg猪- 1 年 -1 。尽管受到实际建筑物几何形状和过程表示的限制，但二维CFD模型可以快速模拟HRHB中的气流和物种梯度}

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来源
《Transactions of the ASAE》 |2002年第5期|p.1559-1568|共10页
作者
H. Sun; R. R. Stowell; H. M. Keener; F. C. Michel; Jr.;
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作者单位

Huawei Sun , ASAE Member , Graduate Student, Harold M. Keener , ASAE Member Engineer , Associate Professor, and Frederick C. Michel, Jr. , ASAE Member Engineer , Assistant Professor, Department of Food, Agricultural, and Biological Engineering, Ohio Agriculture Research and Development Center, Ohio State University, Wooster, Ohio;

and Richard R. Stowell , ASAE Member Engineer , Assistant Professor, Biological Systems Engineering, University of Nebraska, Lincoln, Nebraska. Corresponding author: Frederick C. Michel, Jr., Agricultural Engineering Building, OARDC, 1680 Madison Ave., Wooster, OH 44691;

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Air velocity; Swine manure; compost; Ammonia; High-Rise TM hog building; Computational fluid dynamic model; Fluent ®;

机译：风速猪粪;堆肥;氨;高层 TM / sup养猪场;计算流体动力学模型;流利®;

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TWODIMENSIONAL COMPUTATIONAL FLUID DYNAMICS (CFD) MODELING OF AIR VELOCITY AND AMMONIA DISTRIBUTION IN A HIGHRISETM HOG BUILDING 4050.

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TWODIMENSIONAL COMPUTATIONAL FLUID DYNAMICS (CFD) MODELING OF AIR VELOCITY AND AMMONIA DISTRIBUTION IN A HIGHRISETM HOG BUILDING 4050.