Particle size distribution of a waste sand from a waste water treatment plant with use of Rosin–Rammler and Gates–Gaudin–Schumann mathematical model

Vítěz Tomá?; Trávní?ek Petr

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Particle size distribution of a waste sand from a waste water treatment plant with use of Rosin–Rammler and Gates–Gaudin–Schumann mathematical model

机译：使用Rosin–Rammler和Gates–Gaudin–Schumann数学模型的废水处理厂废砂的粒度分布

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Particle size distribution of the sample of waste sand from waste water treatment plant have been determined with two commonly used methods of mathematical models by Rosin-Rammler (RR model) and by Gates-Gaudin-Schuhmann (GGS model). On the basis of network analysis distribution function, iF/i(id/i) (mass fraction) and density function, if/i(id/i) (number of particles captured between two screens) have been obtained. Experimental data have been evaluated using the RR model and GGS model, both models have been compared. Better results were achieved with GGS model, which leads to a more accurate separation of the different particle sizes in order to obtain a better industrial profit of the material.

机译：用Rosin-Rammler（RR模型）和Gates-Gaudin-Schuhmann（GGS模型）两种常用的数学模型方法确定了废水处理厂废砂样品的粒径分布。根据网络分析分布函数 F （ d ）（质量分数）和密度函数 f （ d ）（两个屏幕之间捕获的粒子数）。使用RR模型和GGS模型对实验数据进行了评估，并对这两种模型进行了比较。使用GGS模型可获得更好的结果，这可以更精确地分离不同的粒度，从而获得更高的材料工业利润。

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《Acta Universitatis Agriculturae et Silviculturae Mendelianae Brunensis》 |2011年第3期|共6页
作者
Vítěz Tomá?; Trávní?ek Petr;
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中图分类农业科学;
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waste sandparticle size distributionswaste water treatment plantmodelling;

机译：废砂粒径分布废水处理厂模型;

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2. A modified Nukiyama-Tanasawa distribution function and a Rosin-Rammler model for the particle-size-distribution analysis [J] . P.Gonzalez-Tello, F.Camacho, J.M.Vicaria Powder Technology: An International Journal on the Science and Technology of Wet and Dry Particulate Systems . 2008,第3期

机译：改进的Nukiyama-Tanasawa分布函数和Rosin-Rammler模型用于粒度分布分析
3. Mathematical modelling and optimisation of a waste water treatment plant by combined oxygen electrode and biological waste water treatment model [J] . Mario Novak, Predrag Horvat Applied Mathematical Modelling . 2012,第8期

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4. Transport characteristics of single-species slurries having Rosin-Rammler particle size distribution [C] . P. V. Skudarnov, C. X. Lin, M. A. Ebadian, International Conference on HYDROTRANSPORT . 2002

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Particle size distribution of a waste sand from a waste water treatment plant with use of Rosin–Rammler and Gates–Gaudin–Schumann mathematical model

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