Effect of the Mixed Oleophilic Fibrous Coalescer Geometry and the Operating Conditions on Oily Wastewater Separation

Lu Hao; Yang Qiang; Xu Xiao; Wang Hua-Lin

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Effect of the Mixed Oleophilic Fibrous Coalescer Geometry and the Operating Conditions on Oily Wastewater Separation

机译：混合亲油性纤维聚结器的几何形状和运行条件对含油废水分离的影响

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Fibrous-bed coalescers are commonly used to separate oil-in-water emulsions, and some factors significantly affect the separation performance. To achieve a fundamental understanding of the colloidal physical phenomenon and to predict the coalescence efficiency are challenging tasks because of the complex interplay among the governing parameters. Here, two types of commercial oleophilic fibers were employed to study the influence of critical factors on the separation performance, including the packing density, the specific surface area, the bed depth, the superficial velocity, and the inlet oil content. An industrial-scale experiment was also carried out on an offshore platform. The collected industrial data will be useful to further the application of the oleophilic-fiber bed in oily wastewater treatment.

机译：纤维床聚结器通常用于分离水包油乳液，某些因素会显着影响分离性能。由于控制参数之间复杂的相互作用，因此要获得对胶体物理现象的基本理解并预测聚结效率是一项艰巨的任务。在这里，使用两种类型的商业亲油纤维来研究关键因素对分离性能的影响，包括堆积密度，比表面积，床层深度，表观速度和入口含油量。还在海上平台上进行了工业规模的实验。收集的工业数据将有助于进一步将亲油性纤维床应用在含油废水处理中。

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《Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology》 |2016年第2期|共8页
作者
Lu Hao; Yang Qiang; Xu Xiao; Wang Hua-Lin;
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正文语种 eng
中图分类化学工业;
关键词
Deep deoiling; Fibrous-bed coalescer; Offshore platform; Oily wastewater;

机译：深层除油;纤维床聚结器;海上平台;含油废水;

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专利

1. Effect of the Mixed Oleophilic Fibrous Coalescer Geometry and the Operating Conditions on Oily Wastewater Separation [J] . Lu Hao, Yang Qiang, Xu Xiao, Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology . 2016,第2期

机译：混合亲油性纤维聚结器的几何形状和运行条件对含油废水分离的影响
2. Efficient separation of oily wastewater using polyethersulfone mixed matrix membrane incorporated with halloysite nanotube-hydrous ferric oxide nanoparticle [J] . Ikhsan Syarifah Nazirah Wan, Yusof Norhaniza, Aziz Farhana, Separation and Purification Technology . 2018,第期

机译：使用聚醚砜混合基质膜的油性废水的高效分离掺入Holloysite纳米管液态氢氧化铁纳米粒子
3. Formation of Mg(OH)_2 dynamic membranes for oily water separation:effects of operating conditions [J] . Yijiang Zhao, Yi Tan, Fook-Sin Wong, Desalination: The International Journal on the Science and Technology of Desalting and Water Purification . 2006,第1a3期

机译：用于油水分离的Mg（OH）_2动态膜的形成：操作条件的影响
4. Application of Fibrous Coalescer in the Treatment of Oily Wastewater [C] . Hongliang Zhao, Guoyi Li International Conference on Environmental Science and Information Application Technology . 2013

机译：纤维聚结器在油性废水处理中的应用
5. Ceramic membrane technology applied to oily wastewater separation. [D] . Hua, Feng Lin. 2007

机译：陶瓷膜技术应用于含油废水的分离。
6. Process Design of Ammonia Separation for NitrificationControl in Aeration Basins at an IKORC’s Oily Wastewater Treatment Unit [O] . Majid Bahrami, Samyar Zabihi, Mahdi Gougol, 2020

机译：氨氨氨分离的工艺设计IKORC油性废水处理单元的曝气盆中控制
7. Application of Fibrous Coalescer in the Treatment of Oily Wastewater [O] . Zhao Hongliang, Li Guoyi 2011

机译：纤维聚结剂在含油废水处理中的应用
8. Novel Nonporous Fouling-Resistant Composite Nanofiltration Membrane and Membrane Separation systems for Wastewater Treatment Important for CPSON5/ PPSON1: Minimization of Oily and Non-Oily Wastewater. [R] . Freeman, B. D. 2001

机译：用于废水处理的新型无孔污垢复合纳滤膜和膜分离系统对CpsON5 / ppsON1的重要性：油性和非油性废水的最小化。

Effect of the Mixed Oleophilic Fibrous Coalescer Geometry and the Operating Conditions on Oily Wastewater Separation

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