纳米光催化还原去除水中铜离子

滕洪辉; 林沛钧; 李微微; 李龙龙; 彭海丽; 吴新兴; 任百祥

环境工程学报

纳米光催化还原去除水中铜离子

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滕洪辉, 林沛钧, 李微微, 李龙龙, 彭海丽, 吴新兴, 任百祥. 纳米光催化还原去除水中铜离子[J]. 环境工程学报, 2011, 5(10): 2257-2260.

引用本文:

滕洪辉, 林沛钧, 李微微, 李龙龙, 彭海丽, 吴新兴, 任百祥. 纳米光催化还原去除水中铜离子[J]. 环境工程学报, 2011, 5(10): 2257-2260.

Teng Honghui, Lin Peijun, Li Weiwei, Li Longlong, Peng Haili, Wu Xinxing, Ren Baixiang. Removal of Cu2+ from water by nano photocatalytic reduction[J]. Chinese Journal of Environmental Engineering, 2011, 5(10): 2257-2260.

Citation:

Teng Honghui, Lin Peijun, Li Weiwei, Li Longlong, Peng Haili, Wu Xinxing, Ren Baixiang. Removal of Cu2+ from water by nano photocatalytic reduction[J]. Chinese Journal of Environmental Engineering, 2011, 5(10): 2257-2260.

纳米光催化还原去除水中铜离子

1.
吉林师范大学环境工程学院，四平 136000
基金项目:
吉林省教育厅科学计划项目（2009023）

吉林省中小企业局资助项目

四平市科技发展计划项目（2007012）
中图分类号: X703.1

Removal of Cu2+ from water by nano photocatalytic reduction

1.
College of Environmental Engineering， Jilin Normal University， Siping 136000， China
Fund Project:

摘要: 基于纳米光催化还原技术，以纳米二氧化钛作为光催化剂，研究一种水体中重金属Cu2+去除方法。采用原子吸收评价水体中Cu2+去除效果，考察了水体pH值、不同光源及光照时间、催化剂添加量、Cu2+初始浓度以及乙醇加入量的影响。结果表明，Cu2+初始浓度在2~50 mg/L，pH为6.0~8.0，添加0.3 g/L纳米二氧化钛，紫外光照50 min，不加乙醇，Cu2+去除率可达到80%以上。
- 光催化还原 /
- 铜离子 /
- 原子吸收光谱法 /
- 二氧化钛
Abstract: A kind of method of removing Cu2+ was studied using titanium dioxide as a photocatalyst based on photocatalytic reduction techniques. The removal rate of Cu2+ was evaluated by atomic absorption spectrophotometry， pH values， different light sources and irradiation time， catalyst amount， Cu2+ initial concentration and the quantity of ethanol were investigated. The results showed that when Cu2+ initial concentration was 2~50 mg/L， pH was 6.0~8.0， 0.3 g/L of titanium dioxide was added， UV irradiation time was 50 minutes， and without ethanol， Cu2+ removal rate could reach 80%.
- photocatalytic reduction /
- copper(Ⅱ) /
- atomic absorption spectrometry /
- titanium dioxide

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滕洪辉, 林沛钧, 李微微, 李龙龙, 彭海丽, 吴新兴, 任百祥. 纳米光催化还原去除水中铜离子[J]. 环境工程学报, 2011, 5(10): 2257-2260.

引用本文:

滕洪辉, 林沛钧, 李微微, 李龙龙, 彭海丽, 吴新兴, 任百祥. 纳米光催化还原去除水中铜离子[J]. 环境工程学报, 2011, 5(10): 2257-2260.

Citation:

纳米光催化还原去除水中铜离子

1. 吉林师范大学环境工程学院，四平 136000

基金项目:

吉林省教育厅科学计划项目（2009023）

吉林省中小企业局资助项目

四平市科技发展计划项目（2007012）

关键词:

摘要: 基于纳米光催化还原技术，以纳米二氧化钛作为光催化剂，研究一种水体中重金属Cu2+去除方法。采用原子吸收评价水体中Cu2+去除效果，考察了水体pH值、不同光源及光照时间、催化剂添加量、Cu2+初始浓度以及乙醇加入量的影响。结果表明，Cu2+初始浓度在2~50 mg/L，pH为6.0~8.0，添加0.3 g/L纳米二氧化钛，紫外光照50 min，不加乙醇，Cu2+去除率可达到80%以上。

English Abstract

Removal of Cu2+ from water by nano photocatalytic reduction

1. College of Environmental Engineering， Jilin Normal University， Siping 136000， China

Fund Project:

Keywords:

Abstract: A kind of method of removing Cu2+ was studied using titanium dioxide as a photocatalyst based on photocatalytic reduction techniques. The removal rate of Cu2+ was evaluated by atomic absorption spectrophotometry， pH values， different light sources and irradiation time， catalyst amount， Cu2+ initial concentration and the quantity of ethanol were investigated. The results showed that when Cu2+ initial concentration was 2~50 mg/L， pH was 6.0~8.0， 0.3 g/L of titanium dioxide was added， UV irradiation time was 50 minutes， and without ethanol， Cu2+ removal rate could reach 80%.

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纳米光催化还原去除水中铜离子

Removal of Cu2+ from water by nano photocatalytic reduction

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纳米光催化还原去除水中铜离子

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Removal of Cu2+ from water by nano photocatalytic reduction

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