A kinetic model for calculating total membrane fouling resistance in chemical cleaning process

Lei Hou; Kui Gao; Ping Li; Ximing Zhang; Zhan Wang; Peng Song; Wei Yao

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A kinetic model for calculating total membrane fouling resistance in chemical cleaning process

机译：一种用于计算化学清洗过程中总膜污垢抗性的动力学模型

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?A kinetic model with three variables for chemical cleaning was established.

?Good model prediction in total fouling resistance during chemical cleaning.

?Potential engineering tool to optimize chemical cleaning conditions.

Abstract

In this study, a kinetic model was developed based on Hom–Haas model to describe the total membrane fouling resistance (Rtf(t)) during the chemical cleaning process of 0.1μm PAN microfiltration (MF) membrane fouled with activated sludge suspension from submerged membrane bioreactors (SBR). The quantitative effects of different chemical cleaning conditions (temperature, TMP and stirring speed) on model parameters were determined. Results showed that the cleaning efficiency of NaOCl was superior compared to SDS and NaOH. Furthermore, the chemical cleaning activation energy and the surface free energy between the foulants and the membrane for NaOCl cleaning process was maximum. Meanwhile, the model played an excellent agreement (R2

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？建立了三个变量的动力学模型进行化学清洁。？化学清洁过程中总污垢抗性的良好模型预测。

？潜在的工程工具，用于优化化学清洁条件。

抽象

在本研究中，开发了一种动力学模型HOM-HAAS模型描述总膜污垢阻力（ R TF （ T ））在0.1μmPAN微滤（MF）膜的化学清洁过程中，膜与浸没式膜生物反应器的活性污泥悬浮液（SBR）污染。确定了不同化学清洗条件（温度，TMP和搅拌速度）对模型参数的定量效果。结果表明，与SDS和NaOH相比，NaoCl的清洁效率优异。此外，最大限度地，污垢清洁活化能量和污垢清洗过程中的膜之间的表面自由能。同时，该模型在不同条件下使用NaoCl / NaOH / SDS清洁过程发挥了很好的协议（R 2 ]]>

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来源
《Chemical Engineering Research & Design: Transactions of the Institution of Chemical Engineers》 |2017年第2017期|共14页
作者
Lei Hou; Kui Gao; Ping Li; Ximing Zhang; Zhan Wang; Peng Song; Wei Yao;
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作者单位

Beijing Key Laboratory for Green Catalysis and Separation Department of Chemistry and Chemical Engineering Beijing University of Technology;

Beijing Key Laboratory for Green Catalysis and Separation Department of Chemistry and Chemical Engineering Beijing University of Technology;

Beijing Key Laboratory for Green Catalysis and Separation Department of Chemistry and Chemical Engineering Beijing University of Technology;

Beijing Key Laboratory for Green Catalysis and Separation Department of Chemistry and Chemical Engineering Beijing University of Technology;

Beijing Key Laboratory for Green Catalysis and Separation Department of Chemistry and Chemical Engineering Beijing University of Technology;

Beijing Key Laboratory for Green Catalysis and Separation Department of Chemistry and Chemical Engineering Beijing University of Technology;

Beijing Key Laboratory for Green Catalysis and Separation Department of Chemistry and Chemical Engineering Beijing University of Technology;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
Membrane; Chemical cleaning; Kinetic model; Wastewater treatment;

机译：膜;化学清洗;动力学模型;废水处理;

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专利

1. A kinetic model for calculating total membrane fouling resistance in chemical cleaning process [J] . Lei Hou, Kui Gao, Ping Li, Chemical Engineering Research & Design: Transactions of the Institution of Chemical Engineers . 2017,第期

机译：一种用于计算化学清洗过程中总膜污垢抗性的动力学模型
2. Modelling tool to assess membrane regeneration by periodical hydraulic cleaning and fouling control in pressurized membrane process for surface water treatment [J] . Charfi Amine, Jang Hoseok, Kim Jeonghwan Environmental earth sciences . 2019,第1期

机译：用于通过加压水处理过程中的定期液压清洁和结垢控制评估膜再生的建模工具
3. Gas field produced/process water treatment using forward osmosis hollow fiber membrane: Membrane fouling and chemical cleaning [J] . Zhao Shanshan, Minier-Matar Joel, Chou Shuren, Desalination: The International Journal on the Science and Technology of Desalting and Water Purification . 2017,第期

机译：气田生产/工艺水处理使用前渗透中中空纤维膜：膜污垢和化学清洗
4. Characteristics of fouled and chemically cleaned membrane [C] . Junxia Liu, Bingzhi Dong, Weiwei Huang International Conference on Energy, Environment and Sustainable Development . 2015

机译：污垢和化学清洗膜的特性
5. Buckminsterfullerene (C60) nanoparticle fouling of microfiltration membanes in water reuse applications: Effects on membrane performance, fouling mechanism identifaction, and membrane cleaning evaluation. [D] . Henry, Coleman. 2011

机译：回用水中微滤膜的Buckminsterfullerene（C60）纳米颗粒结垢：对膜性能，结垢机理鉴定和膜清洁评估的影响。
6. Investigations of Alkaline and Enzymatic Membrane Cleaning of Ultrafiltration Membranes Fouled by Thermomechanical Pulping Process Water [O] . Gregor Rudolph, Herje Schagerlöf, Kristian B. Morkeberg Krogh, 1939

机译：热机械制浆工艺水污染的超滤膜的碱性和酶膜清洗研究
7. Mathematical modelling of flux recovery during chemical cleaning of tubular membrane fouled with whey proteins [O] . Marković Jelena Đ., Popović Svetlana S., Lukić Nataša Lj. 2009

机译：乳清蛋白污染管状膜化学清洗过程中通量恢复的数学模型

A kinetic model for calculating total membrane fouling resistance in chemical cleaning process

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