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电絮凝流场及泥沙沉降效果特性与控制因素

刘伊丰柏文文吴淼魏加华

水力发电学报2024，Vol.43Issue(12)：77-88,12.

水力发电学报2024，Vol.43Issue(12)：77-88,12.DOI:10.11660/slfdxb.20241208

电絮凝流场及泥沙沉降效果特性与控制因素

Characteristics of flows and sediment settlement under electrocoagulation and their control factors

刘伊丰 ¹柏文文 ¹吴淼 ¹魏加华²

作者信息

1. 青海大学土木水利学院,西宁 810016||青海大学黄河上游生态保护与高质量发展实验室,西宁 810016||青海大学水利部江河源区水生态治理与保护重点实验室,西宁 810016||青海大学三江源生态与高原农牧业国家重点实验室,西宁 810016
2. 青海大学土木水利学院,西宁 810016||青海大学黄河上游生态保护与高质量发展实验室,西宁 810016||青海大学水利部江河源区水生态治理与保护重点实验室,西宁 810016||青海大学三江源生态与高原农牧业国家重点实验室,西宁 810016||清华大学水圈科学与水利工程全国重点实验室,北京 100084||清华大学水利水电工程系,北京 100084
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摘要

Abstract

Sediment flocculation in water significantly impacts river dredging and water environment improvement;accelerating sediment flocculation through artificial interventions is of great importance for water treatment and environmental enhancement.This study focuses on the characteristics of bubble motion during electrocoagulation and its effects on sediment flocculation.We design a laboratory experiment and use the particle image velocimetry(PIV)technology to continuously observe the movement of bubbles under 9 different current densities,collecting 5,500 image frames.Sediment particle size and solution turbidity are observed under various conditions,with 4,860 particle size data and 162 turbidity data collected.Comparative analysis is made on sediment particle size variations and solution turbidity evolution under different conditions.The results indicate bubble-driven convection is a crucial mechanism for flow field evolution and flocculation during electrocoagulation.At low electric current densities(e.g.,10 A/m2),the bubble generation rate is relatively low,resulting in a stable flow field that favors floc stability.However,excessively high current densities(e.g.,50 A/m2)can enhance flow field turbulence,disrupting the flocs formed previously and reducing flocculation efficiency.The number and distribution of vortices significantly influence the formation and growth of flocs.The ratio D/V is demonstrated to be an important indicator of flocculation effectiveness,with both D/V and removal efficiency reaching their peaks at a current density of 40 A/m2.Flotation and flocculation settling are the main factors for turbidity reduction,with a critical particle size of 37.2 μm.This study reveals the impact of flow field disturbances caused by bubble motion on flocculation efficiency,laying a basis for further optimizing electrocoagulation performance.

关键词

泥沙絮凝/电絮凝/气泡运动/粒子图像测速(PIV)/粒径/浊度/絮凝效果

Key words

sediment flocculation/electrocoagulation/bubble motion/particle image velocimetry(PIV)/particle size/turbidity/flocculation effect

分类

水利科学

引用本文复制引用

刘伊丰,柏文文,吴淼,魏加华..电絮凝流场及泥沙沉降效果特性与控制因素[J].水力发电学报,2024,43(12):77-88,12.

基金项目

国家自然科学基金(52209092) （52209092）

水力发电学报

OA北大核心CSTPCD

ISSN：1003-1243

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