典型文献
Phosphate removal by a La(OH)3 loaded magnetic MAPTAC-based cationic hydrogel:Enhanced surface charge density and Donnan membrane effect
文献摘要:
Cationic hydrogels have received great attention to control eutrophication and recycle phos-phate.In this study,a type of La(OH)3 loaded magnetic MAPTAC-based cationic hydro-gel (La(OH)3@MMCH) was developed as a potential adsorbent for enhanced phosphate re-moval from aqueous environment.La(OH)3@MMCH exhibited high adsorption capacity of 105.72±-5.99 mg P/g,and reached equilibrium within 2 hn La(OH)3@MMCH could perform ef-fectively in a wide pH range from 3.0 to 9.0 and in the presence of coexisting ions (including SO42-,Cl-,NO3-,HCO3-,SiO44-and HA).The adsorption-desorption experiment indicated that La(OH)3@MMCH could be easily regenerated by using NaOH-NaCl as the desorption agent,and 73.3% adsorption capacity remained after five cycles.Moreover,La(OH)3@MMCH was employed to treat surface water with phosphate concentration of 1.90 mg/L and showed great removal efficiency of 95.21%.Actually,MMCH showed high surface charge density of 34.38-59.38 meq/kg in the pH range from 3.0 to 11.0 and great swelling ratio of 3014.57%within 24 h,indicating that MMGH could produce the enhanced Donnan membrane effect to pre-perrneate phosphate.Furthermore,the bifunctional structure of La(OH)3@MMCH en-abled it to capture phosphate through electrostatic attraction and ligand exchange.All the results prove that La(OH)3@MMCH is a promising adsorbent for eutrophication control and phosphate recovery.
文献关键词:
中图分类号:
作者姓名:
Yanqing Zhou;Yili Wang;Shuoxun Dong;Haotian Hao;Junyi Li;Chenyang Liu;Xiaolin Li;Yao Tong
作者机构:
College of Environmental Science and Engineering,Beijing Key Lab for Source Control Technology of Water Pollution,Beijing Forestry University,Beijing 100083,China;Center for Water and Ecology,State Key Joint Laboratory of Environment Simulation and Pollution Control,School of Environment,Tsinghua University,Beijing 100083,China;State Key Laboratory of Environmental Aquatic Chemistry,Research Center for Eco-Environmental Sciences,Chinese Academy of Sciences,Beijing 100085,China
文献出处:
引用格式:
[1]Yanqing Zhou;Yili Wang;Shuoxun Dong;Haotian Hao;Junyi Li;Chenyang Liu;Xiaolin Li;Yao Tong-.Phosphate removal by a La(OH)3 loaded magnetic MAPTAC-based cationic hydrogel:Enhanced surface charge density and Donnan membrane effect)[J].环境科学学报(英文版),2022(03):26-39
A类:
MMCH,MMGH,perrneate,abled
B类:
Phosphate,removal,by,La,loaded,magnetic,MAPTAC,cationic,Enhanced,surface,charge,density,Donnan,membrane,effect,Cationic,hydrogels,have,received,great,attention,control,eutrophication,recycle,In,this,study,type,was,developed,potential,adsorbent,enhanced,phosphate,from,aqueous,environment,exhibited,high,adsorption,capacity,reached,equilibrium,within,hn,could,perform,fectively,wide,range,presence,coexisting,ions,including,SO42,NO3,HCO3,SiO44,HA,desorption,experiment,indicated,that,easily,regenerated,using,NaOH,NaCl,agent,remained,after,five,cycles,Moreover,employed,treat,water,concentration,showed,efficiency,Actually,meq,swelling,indicating,produce,Furthermore,bifunctional,structure,capture,through,electrostatic,attraction,ligand,exchange,All,results,prove,promising,recovery
AB值:
0.484954
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