Flow Characteristics in a Honeycomb Structure to Design Nanobubble Generating Apparatus

Noda Nao-Aki; Zhai Hongfang; Takata Kakeru; Sano Yoshikazu; Takase Yasushi; Ren Fei; Kawano Ryo; Umekaga Toshihiko; Yonezawa Yuji; Tanaka Hiroyuki

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Flow Characteristics in a Honeycomb Structure to Design Nanobubble Generating Apparatus

机译：蜂窝结构中的流动特性设计纳米柔臼发电装置

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摘要

A nanobubble generator with honeycomb structures producing a large amount of water including large nanobubble density in a short time is described. The nanobubble-generating performance is investigated for large and small apparatus having different honeycomb cell dimensions by applying computational fluid dynamics (CFD) coupled with a population balance model (PBM). The CFD simulation shows that a significant pressure drop and shear stress occur in the bubbly flow in the honeycomb cell. The numerical model is based on the Eulerian multiphase model and the PBM is used to calculate the bubble size distribution. The obtained CFD-PBM results are compared with the experimental results for large and small apparatus. Bubble size distributions in the honeycomb structure under different inlet absolute pressure can be predicted by the PBM. The maximum shear stress is determined as the main controlling factor for nanobubble generation.

机译：描述了一种纳米柔臼发生器，其具有在短时间内产生大量水的蜂窝结构，包括大量的纳米柔臼密度。通过施加与群体平衡模型（PBM）耦合的计算流体动力学（CFD）来研究具有不同蜂窝电池尺寸的大型和小型装置的纳米柔臼产生性能。 CFD仿真表明，在蜂窝电池中的泡泡流中发生显着的压降和剪切应力。数值模型基于Eulerian多相模型，PBM用于计算气泡尺寸分布。将获得的CFD-PBM结果与大型和小型设备的实验结果进行比较。在不同的入口绝对压力下蜂窝结构中的泡沫尺寸分布可以通过PBM预测。最大剪切应力被确定为纳米柔臼生成的主要控制因子。

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来源
《Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology 》 |2020年第6期| 共10页
作者
Noda Nao-Aki; Zhai Hongfang; Takata Kakeru; Sano Yoshikazu; Takase Yasushi; Ren Fei; Kawano Ryo; Umekaga Toshihiko; Yonezawa Yuji; Tanaka Hiroyuki;
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作者单位

Kyushu Inst Technol Mech Engn Dept Tobata Ku Sensui Cho 1-1 Kitakyushu Fukuoka 8048550 Japan;

Kyushu Inst Technol Mech Engn Dept Tobata Ku Sensui Cho 1-1 Kitakyushu Fukuoka 8048550 Japan;

Kyushu Inst Technol Mech Engn Dept Tobata Ku Sensui Cho 1-1 Kitakyushu Fukuoka 8048550 Japan;

Kyushu Inst Technol Mech Engn Dept Tobata Ku Sensui Cho 1-1 Kitakyushu Fukuoka 8048550 Japan;

Kyushu Inst Technol Mech Engn Dept Tobata Ku Sensui Cho 1-1 Kitakyushu Fukuoka 8048550 Japan;

Qilu Univ Technol Sch Mech &

Automot Engn 3501 Daxue Rd Jinan Shandong Peoples R China;

Kyushu Inst Technol Mech Engn Dept Tobata Ku Sensui Cho 1-1 Kitakyushu Fukuoka 8048550 Japan;

Kyushu Inst Technol Mech Engn Dept Tobata Ku Sensui Cho 1-1 Kitakyushu Fukuoka 8048550 Japan;

Marufukusuisan Corp Ltd Kokurakita Ku Nisimoinato Cho Kitakyushu Fukuoka Japan;

Kyushu Inst Technol Mech Engn Dept Tobata Ku Sensui Cho 1-1 Kitakyushu Fukuoka 8048550 Japan;

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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
Computational fluid dynamics; Honeycomb structure; Nanobubbles; Population balance method;

机译：计算流体动力学;蜂窝结构;纳米博尔斯;人口平衡方法;

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专利

1. Flow Characteristics in a Honeycomb Structure to Design Nanobubble Generating Apparatus [J] . Noda Nao-Aki, Zhai Hongfang, Takata Kakeru, Chemical Engineering & Technology: Industrial Chemistry -Plant Equipment -Process Engineering -Biotechnology . 2020 ,第6期

机译：蜂窝结构中的流动特性设计纳米柔臼发电装置
2. Research on Flow and Heat Transfer Characteristics Inside Spiral Pile-honeycomb Structures with Different Shapes [J] . HAN Peng-fei, WANG Zheng-fang, LIU Zhao-ying 国际设备工程与管理（英文版） . 2017 ,第002期

机译：不同形状的螺旋桩-蜂窝结构内部的流动和传热特性研究
3. Experimental Investigations of Cold Flow Mass Distribution and PressureDrop Characteristics in a Structured Honeycomb Monolith Bed [J] . MingmingMao, YongqiLiu, RuixiangLiu, The Open Mechanical Engineering Journal . 2015 ,第1期

机译：结构蜂窝整体床冷流质量分布和压降特性的实验研究
4. Design and performance of honeycomb structure for nanobubbles generating apparatus having different cell dimensions [C] . T Ueda, H F Zhai, F Ren International Conference on Material Strength and Applied Mechanics . 2018

机译：具有不同电池尺寸的纳米晶体生成装置的蜂窝结构的设计与性能
5. Experimental study of acoustical characteristics of honeycomb sandwich structures [D] . Peters, Portia Renee 2009

机译：蜂窝夹层结构声学特性的实验研究
6. Plasmonic Nanobubbles as Transient Vapor Nanobubbles Generated Around Plasmonic Nanoparticles [O] . Ekaterina Lukianova-Hleb, Ying Hu, Loredana Latterini, -1

机译：等离子体纳米博布尔作为瞬态蒸气纳米杆状物在等离子体纳米粒子周围产生
7. Elucidation of Flow Characteristics in Honeycomb Structure for Nanobubble Generating Apparatus [O] . Nao-Aki NODA, Kakeru TAKATA, Ryo KAWANO, 2021

机译：纳米柔臼发电装置蜂窝结构中流动特性的阐明
8. Method and Apparatus for Casting Thin-Walled Honeycomb Structures [R] . Ayers, J. D. 1996

机译：铸造薄壁蜂窝结构的方法和设备

Flow Characteristics in a Honeycomb Structure to Design Nanobubble Generating Apparatus

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