ZHENGXin-yi,WUXin-yi,LIWei,et al.Efficiency and Mechanism of Manganese Removal from Water Using Chlorine Coupled with Powdered Activated Carbon[J].China Water & Wastewater,2024,40(23):1-6.
氯耦合粉末活性炭去除水中锰的效能及机理
- Title:
- Efficiency and Mechanism of Manganese Removal from Water Using Chlorine Coupled with Powdered Activated Carbon
- 摘要:
- 采用氯/粉末活性炭耦合技术(Cl2/PAC)去除水中的锰,研究其除锰效能与机理,并考察地下水中常见无机离子和天然有机物(NOM)对除锰效率的影响。在溶液pH为7的条件下,1 mg/L氯耦合10 mg/L木质PAC,在30 min内即可将1 mg/L Mn(Ⅱ)降低至国家标准限值0.1 mg/L以下。在Cl2/PAC体系中,PAC表面首先会生成MnO2,然后进一步催化氧化Mn(Ⅱ)形成新的锰氧化物,从而实现了Mn(Ⅱ)的高效去除。水中Ca2+、Mg2+、SO42-、SiO32-、PO43-等无机离子对Cl2/PAC去除Mn(Ⅱ)影响较小,但Fe2+、NH4+和NOM会显著抑制Mn(Ⅱ)的去除,其对自由氯的竞争是导致除Mn(Ⅱ)效率下降的主要原因。在此基础上,提出将有效氯浓度提升至1 mg/L+补偿原水中离子或NOM耗氯量的方法来消除本底物质的影响,该方法能够在30 min内将不同地下水样品中的Mn(Ⅱ)浓度降至0.1 mg/L以下。
- Abstract:
- Chlorine coupled with powdered activated carbon (Cl2/PAC) was employed to remove manganese from water. This study investigated the efficiency and mechanism of manganese removal, as well as the impact of common inorganic ions and natural organic matter (NOM) found in groundwater on manganese removal efficiency. Experimental results showed that under a solution pH of 7, 1 mg/L chlorine coupled with 10 mg/L wood-based PAC could reduce 1 mg/L Mn(Ⅱ) to below the standard limit of 0.1 mg/L within 30 minutes. In the Cl2/PAC system, MnO2 was initially generated on the PAC surface, which further catalyzed the oxidation of Mn(Ⅱ) to form new manganese oxide, thereby achieving efficient removal of Mn(Ⅱ). Inorganic ions such as Ca2+, Mg2+, SO42-, SiO32- and PO43- had little impact on the Mn(Ⅱ) removal efficiency of Cl2/PAC, but Fe2+, NH4+ and NOM significantly inhibited the Mn(Ⅱ) removal. Competition with free chlorine was identified as the main reason for the reduced Mn(Ⅱ) removal efficiency. Based on these findings, a method was proposed to increase the effective chlorine concentration to 1 mg/L and compensate for the chlorine demand from ions or NOM in raw water to eliminate matrix effects. This method successfully reduced Mn(Ⅱ) concentration to below 0.1 mg/L in groundwater samples with different matrices within 30 minutes.
相似文献/References:
[1]陈祺,鲁智礼,李贵伟,等.南方某市锰致规模性“黄水”发生规律及应对[J].中国给水排水,2023,39(9):39.
CHENQi,LUZhi-li,LIGui-wei,et al.Occurrence of and Response to Large?scale Manganese-caused “Yellow Water” Events in a Southern City[J].China Water & Wastewater,2023,39(23):39.
[2]刘志娟.炭吸附机械搅拌澄清池用于深度处理去除有机物[J].中国给水排水,2023,39(14):109.
LIU Zhi-juan.Application of Carbon Adsorption Accelerator in Wastewater Advanced Treatment for Organics Removal[J].China Water & Wastewater,2023,39(23):109.
[3]苏晓,韩宏大,胡建坤,等.预氧化联合PAC强化混凝沉淀去除引滦水中2-MIB[J].中国给水排水,2023,39(21):27.
SUXiao,HANHong-da,HUJian-kun,et al.Pre-oxidation Combined with Powdered Activated Carbon Enhanced Coagulation-Sedimentation for Removal of 2-Methylisoborneol in Water from Luanhe Diversion Project[J].China Water & Wastewater,2023,39(23):27.
[4]余梁,蒋旭,金晶,等.超长咸潮期间松浦取水应急支援青草沙原水系统[J].中国给水排水,2024,40(12):89.
YULiang,JIANGXu,JINJing,et al.Practice of Songpu Water Intake Emergency Support for Qingcaosha Reservoir during the Extraordinary Saline Tide[J].China Water & Wastewater,2024,40(23):89.
[5]王亚军,徐衍超,张四永,等.曝气协同粉末活性炭调控MBR运行[J].中国给水排水,2024,40(17):71.
WANGYa-jun,XUYan-chao,ZHANGSi-yong,et al.Membrane Bioreactor Operation Regulation Based on Aeration and Powdered Activated Carbon Coupling[J].China Water & Wastewater,2024,40(23):71.
[6]李学荣,徐琳怡,夏炜,等.某水厂出厂水色度升高应急处理实例[J].中国给水排水,2024,40(19):64.
LIXue-rong,XULin-yi,XIAWei,et al.An Instance of Emergency Handling for Increasing Chroma in Effluent from a Water Treatment Plant[J].China Water & Wastewater,2024,40(23):64.
[7]郑效旭,邵志平,邢朝阳,等.某工业水厂用水端反渗透膜堵塞原因及对策[J].中国给水排水,2024,40(21):67.
ZHENG Xiao-xu,SHAO Zhi-ping,XING Zhao-yang,et al.Reasons and Countermeasures for Reverse Osmosis Membrane Fouling at Water End of an Industrial Water Plant[J].China Water & Wastewater,2024,40(23):67.