EVOLUTION OF PARTICLE SIZE DISTRIBUTION IN AIR IN THE RAINFALL PROCESS VIA THE MOMENT METHOD

Fu-Jun GAN; Jian-Zhong LIN

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EVOLUTION OF PARTICLE SIZE DISTRIBUTION IN AIR IN THE RAINFALL PROCESS VIA THE MOMENT METHOD

机译：通过矩量法求出降雨过程中空气中粒径分布的演变

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摘要

Population balance equation is converted to three moment equations to describe the dynamical behavior of particle size distribution in air in the rainfall. The scavenging coefficient is expressed as a polynomial function of the particle diameter, the raindrop diameter and the raindrop velocity. The evolutions of particle size distribution are simulated numerically and the effects of the raindrop size distribution on particle size distribution are studied. The results show that the raindrops with smaller geometric mean diameter and geometric standard deviation of size remove particles much more efficiently. The particles which fall in the "greenfield gap" are the most difficult to be scavenged from the air.

机译：将人口平衡方程转换为三个矩方程，以描述降雨中空气中粒径分布的动力学行为。清除系数表示为粒径，雨滴直径和雨滴速度的多项式函数。数值模拟了粒径分布的演变，研究了雨滴粒径分布对粒径分布的影响。结果表明，具有较小几何平均直径和尺寸几何标准偏差的雨滴可以更有效地去除颗粒。落入“未开发的间隙”中的颗粒最难从空气中清除。

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来源
《Thermal science》 |2012年第5期|1372-1376|共5页
作者
Fu-Jun GAN; Jian-Zhong LIN;
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作者单位

Department of Mechanics, Zhejiang University, Hangzhou, China;

Department of Mechanics, Zhejiang University, Hangzhou, China,China Jiliang University, Hangzhou, China;

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原文格式 PDF
正文语种 eng
中图分类
关键词
particles in air in the rainfall process; scavenging coefficient; distribution of particle; numerical simulation;

机译：降雨过程中空气中的颗粒;清除系数;颗粒分布数值模拟;

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专利

1. Evolution of particle size distribution in air in the rainfall process via the moment method [J] . Gan Fu-Jun, Lin Jian-Zhong Thermal science . 2012,第5期

机译：矩量法在降雨过程中空气中粒径分布的演变
2. Part IV: Dynamic evolution of the particle size distribution in particulate processes. A comparative study between Monte Carlo and the generalized method of moments [J] . Meimaroglou D, Roussos AI, Kiparissides C Chemical Engineering Science . 2006,第17期

机译：第四部分：颗粒过程中粒径分布的动态演变。蒙特卡洛与广义矩方法的比较研究
3. Evolution of Aerosol Particles in the Rainfall Process via Method of Moments [J] . FangyangYuan, FujunGan Abstract and applied analysis . 2013,第4期

机译：矩量法在降雨过程中气溶胶颗粒的演化
4. Research of the Equipment Calibration Methods for Fertilizers Particles Distribution by Size Using Image Processing Measurement Method [C] . Andrius Laucka, Vaida Adaskeviciute, Algimantas Valinevicius, International Conference on Methods Models in Automation Robotics . 2018

机译：基于图像处理测量方法的肥料按粒度分布标定方法的研究
5. Modelling particle size distributions in condensing flows with the quadrature method of moments [D] . Mousavi, Seyyed Arash 2007

机译：用矩矩法对冷凝流中的粒径分布进行建模
6. Local generalised method of moments: an application to point process‐based rainfall models [O] . Jo M. Kaczmarska, Valerie S. Isham, Paul Northrop -1

机译：局部广义矩量法：基于点过程的降雨模型的应用
7. Evolution of particle size distribution in air in the rainfall process via the moment method [O] . Gan Fu-Jun, Lin Jian-Zhong 2012

机译：用矩量法演算降雨过程中空气中粒度分布
8. Final Report: Property Improvement in Czt Via Modeling and Processing Innovations – Te-Particles in Vertical Gradient Freeze CZT: Size and Spatial Distributions and Constitutional Super-Cooling. [R] . Henager, C. H., Alvine, K. J., Bliss, M., 2014

机译：最终报告：通过建模和加工创新改善Czt的性能 - 垂直梯度冷冻CZT中的Te-粒子：尺寸和空间分布以及结构超冷却。

EVOLUTION OF PARTICLE SIZE DISTRIBUTION IN AIR IN THE RAINFALL PROCESS VIA THE MOMENT METHOD

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