Pilot study on treatment and near zero discharge of gallium arsenide wafer processing wastewater

Pilot study on treatment and near zero discharge of gallium arsenide wafer processing wastewater

In the process of gallium arsenide wafer, a large number of toxic and harmful organic wastewater with arsenic was produced. In this paper, the process of “arsenic removal pretreatment+biochemical treatment+advanced treatment” was used to achieve the standard treatment of gallium arsenide wafer proce...

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Bibliographic Details
Main Authors: LI Weichao, YANG Jun, CHANG Hai, GENG Tianchi, WU Yuchong, LIU Jingjing, WANG Yuyu, WU Yun, CHEN Yingbo
Format: Article
Language:zho
Published: Editorial Office of Industrial Water Treatment 2025-03-01
Series:Gongye shui chuli
Subjects:
gallium arsenide wafer
arsenic-containing wastewater
near-zero discharge
double-membrane technology
evaporation and crystallization
Online Access:https://www.iwt.cn/CN/rich_html/10.19965/j.cnki.iwt.2024-0123
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Summary:In the process of gallium arsenide wafer, a large number of toxic and harmful organic wastewater with arsenic was produced. In this paper, the process of “arsenic removal pretreatment+biochemical treatment+advanced treatment” was used to achieve the standard treatment of gallium arsenide wafer processing wastewater and near-zero discharge. The arsenic removal was achieved by the pretreatment process of “two-stage coagulation+ion exchange resin”. The arsenic removal rate reached more than (99.998±0.003)%, and the arsenic content in the effluent reached the discharge standard. Biochemical treatment adopted the process of “O3 oxidation+hydrolytic acidification+biological contact oxidation”, the COD removal rate was (95.7±0.3)%, and the effluent could meet local emission standards. The advanced treatment adopted “ultrafiltration+two-stage reverse osmosis+triple-effect evaporation and crystallization” to realize the reuse of wastewater and resource recovery. By calculation, the cost of treating arsenic-containing organic wastewater was about 36.11 yuan/m3. This pilot study verified the feasibility of resource recovery and near-zero discharge of gallium arsenide wafer processing wastewater, and provided reliable and effective technical support for the standard discharge, resource recovery and utilization of arsenic-containing wastewater in the industry.
ISSN:1005-829X

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