Inorganic Chemicals Industry >
Research progress of comprehensive development and efficient utilization of seawater
Received date: 2023-07-07
Online published: 2024-02-06
In addition to containing the vast majority of Earth′s water resources,the oceans also hold huge amounts of mineral resources.At present,the resources obtained from seawater are relatively single and prone to waste,while also having adverse effects on marine ecology.The main resources,development methods,and future development directions of concentrated seawater,a byproduct of seawater desalination were summarized and analyzed.The resource development processes and current status of sodium,potassium,magnesium,lithium,uranium,and bromine in concentrated seawater was focused,the development trends of related processes and technologies were analyzed and summarized,and the existing seawater comprehensive utilization projects in China were introduced.With the implementation of the development concept of circular economy and green marine economy in China,the effective utilization and development of mineral resources in concentrated seawater would inevitably become new source of various resources.
Key words: desalination; concentrated seawater; resource extraction; circular economy
PEI Hongchang , YUE Maowen , LIU Jianlu , LI Zhongfang , CHEN Xiaoyu . Research progress of comprehensive development and efficient utilization of seawater[J]. Inorganic Chemicals Industry, 2024 , 56(2) : 21 -29 . DOI: 10.19964/j.issn.1006-4990.2023-0355
| 1 | SHARKH B ABU, AL-AMOUDI A A, FAROOQUE M,et al.Seawater desalination concentrate:A new frontier for sustainable mining of valuable minerals[J].NPJ Clean Water,2022,5:9. |
| 2 | MISSIMER T M, MALIVA R G.Environmental issues in seawater reverse osmosis desalination:Intakes and outfalls[J].Desalination,2018,434:198-215. |
| 3 | LIN Saisai, ZHAO Haiyang, ZHU Liping,et al.Seawater desalination technology and engineering in China:A review[J].Desalination,2021,498:114728. |
| 4 | JOHNSON D J, HILAL N.Nanocomposite nanofiltration membranes:State of play and recent advances[J].Desalination,2022,524:115480. |
| 5 | ZHENG Qingzhu, WANG Peng, YANG Yanan,et al.The relationship between porosity and kinetics parameter of membrane formation in PSF ultrafiltration membrane[J].Journal of Membrane Science,2006,286(1/2):7-11. |
| 6 | OATLEY D L, LLENAS L, PéREZ R,et al.Review of the dielectric properties of nanofiltration membranes and verification of the single oriented layer approximation[J].Advances in Colloid and Interface Science,2012,173:1-11. |
| 7 | SHENVI S S, ISLOOR A M, ISMAIL A F.A review on RO membrane technology:Developments and challenges[J].Desalination,2015,368:10-26. |
| 8 | KIM D, AMY G L, KARANFIL T.Disinfection by-product formation during seawater desalination:A review[J].Water Research,2015,81:343-355. |
| 9 | SHAHMANSOURI A, MIN J, JIN Liyan,et al.Feasibility of extracting valuable minerals from desalination concentrate:A comprehensive literature review[J].Journal of Cleaner Production,2015,100:4-16. |
| 10 | KUMAR A, NAIDU G, FUKUDA H,et al.Metals recovery from seawater desalination brines:Technologies,opportunities,and challenges[J].ACS Sustainable Chemistry & Engineering,2021,9(23):7704-7712. |
| 11 | ZHOU Dong, ZHU Lijing, FU Yinyi,et al.Development of lower cost seawater desalination processes using nanofiltration technologies:A review[J].Desalination,2015,376:109-116. |
| 12 | HASSAN A M, AL-SOFI M A K, AL-AMOUDI A S,et al.A new approach to membrane and thermal seawater desalination processes using nanofiltration membranes(Part 1)[J].Desalination,1998,118(1/2/3):35-51. |
| 13 | CHEN Qingbai, WANG Jianyou, LIU Yu,et al.Sustainable disposal of seawater brine by novel hybrid electrodialysis system:Fine utilization of mixed salts[J].Water Research,2021,201:117335. |
| 14 | LIU Ying, WANG Jianyou.Preparation of anion exchange membrane by efficient functionalization of polysulfone for electrodialysis[J].Journal of Membrane Science,2020,596:117591. |
| 15 | HONG J G, CHEN Yongsheng.Evaluation of electrochemical properties and reverse electrodialysis performance for porous cation exchange membranes with sulfate-functionalized iron oxide[J].Journal of Membrane Science,2015,473:210-217. |
| 16 | JIANG Chenxiao, WANG Yaoming, ZHANG Zenghui,et al.Electrodialysis of concentrated brine from RO plant to produce coarse salt and freshwater[J].Journal of Membrane Science,2014,450:323-330. |
| 17 | ZHANG Yang, GHYSELBRECHT K, VANHERPE R,et al.RO concentrate minimization by electrodialysis:Techno-economic analysis and environmental concerns[J].Journal of Environmental Management,2012,107:28-36. |
| 18 | 周进生,鲍荣华.全球原镁供需及趋势分析[J].中国矿业,2008,17(4):8-10. |
| ZHOU Jinsheng, BAO Ronghua.Analysis about supplies,demands & trends of world primary magnesium[J].China Mining Magazine,2008,17(4):8-10. | |
| 19 | FONTANA D, FORTE F, PIETRANTONIO M,et al.Magnesium recovery from seawater desalination brines:A technical review[J].Environment,Development and Sustainability,2023,25(12):13733-13754. |
| 20 | ZHANG Xin, ZHAO Wenyan, ZHANG Yang,et al.A review of resource recovery from seawater desalination brine[J].Reviews in Environmental Science and Bio/Technology,2021,20(2):333-361. |
| 21 | LA CORTE D, VASSALLO F, CIPOLLINA A,et al.A novel ionic exchange membrane crystallizer to recover magnesium hydroxide from seawater and industrial brines[J].Membranes,2020, 10(11):303. |
| 22 | JIANG Xiaobin, LU Dapeng, XIAO Wu,et al.Interface-based crystal particle autoselection via membrane crystallization:From scaling to process control[J].AIChE Journal,2019,65(2):723-733. |
| 23 | GUO Xiaofu, JI Zhiyong, YUAN Junsheng,et al.Recovery of K+ from concentrates from brackish and seawater desalination with modified clinoptilolite[J].Desalination and Water Treatment,2016,57(15):6829-6837. |
| 24 | AN Shasha, LIU Jie, WANG Jihong,et al.Synthesis and characterization of a plat sheet potassium ion sieve membrane and its performances for separation potassium[J].Separation and Purification Technology,2019,212:834-842. |
| 25 | 王木村.沸石法苦卤提取氯化钾工艺研究[D].天津:河北工业大学,2019. |
| WANG Mucun.Study on extration of potassium chioride from bittern with modified clionptilolite[D].Tianjin:Hebei University of Technology,2019. | |
| 26 | ?LAMPOVá A, KUBá? P, BO?EK P.Fine-tuning of electromembrane extraction selectivity using 18-crown-6 ethers as supported liquid membrane modifiers[J].Electrophoresis,2014,35(23):3317-3320. |
| 27 | YANG Sixie, ZHANG Fan, DING Huaiping,et al.Lithium metal extraction from seawater[J].Joule,2018,2(9):1648-1651. |
| 28 | XIONG Yuecheng, ZHOU Jingwen, LU Pengyi,et al.Electrochemical lithium extraction from aqueous sources[J].Matter,2022,5(6):1760-1791. |
| 29 | COTERILLO R, GALLART L E, FERNáNDEZ-ESCALANTE E,et al.Selective extraction of lithium from seawater desalination concentrates:Study of thermodynamic and equilibrium properties using Density Functional Theory(DFT)[J].Desalination,2022,532:115704. |
| 30 | 袁东,胡羽.一种从盐湖卤水中提锂的吸附塔及提锂方法:中国,111621640B[P].2021-09-14. |
| 31 | OROOJI Y, NEZAFAT Z, NASROLLAHZADEH M,et al.Recent advances in nanomaterial development for lithium ion-sieving technologies[J].Desalination,2022,529:115624. |
| 32 | ZHU Quanji, MA Xiaohua, PEI Hongchang,et al.A highly-efficient lithium adsorptive separation membrane derived from a polyimide-containing dibenzo-14-crown-4 moiety[J].Separation and Purification Technology,2020,247:116940. |
| 33 | KHALIL A, MOHAMMED S, HASHAIKEH R,et al.Lithium recovery from brine:Recent developments and challenges[J].Desalination,2022,528:115611. |
| 34 | SHOLL D S, LIVELY R P.Seven chemical separations to change the world[J].Nature,2016,532(7600):435-437. |
| 35 | WU You, XIE Yinghui, LIU Xiaolu,et al.Functional nanomaterials for selective uranium recovery from seawater:Material design,extraction properties and mechanisms[J].Coordination Chemistry Reviews,2023,483:215097. |
| 36 | KELLEY S P, BARBER P S, MULLINS P H K,et al.Structural clues to UO2 2+/VO2 + competition in seawater extraction using amidoxime-based extractants[J].Chemical Communications,2014,50(83):12504-12507. |
| 37 | ABNEY C W, MAYES R T, PIECHOWICZ M,et al.XAFS investigation of polyamidoxime-bound uranyl contests the paradigm from small molecule studies[J].Energy & Environmental Science,2016,9(2):448-453. |
| 38 | YU Qiuhan, YUAN Yihui, WEN Jun,et al.A universally applicable strategy for construction of anti-biofouling adsorbents for enhanced uranium recovery from seawater[J].Advanced Science,2019,6(13):1900002. |
| 39 | LI Nan, YANG Li, WANG Dong,et al.High-capacity amidoxime-functionalized β-cyclodextrin/graphene aerogel for selective uranium capture[J].Environmental Science & Technology,2021,55(13):9181-9188. |
| 40 | SUN Qi, AGUILA B, EARL L D,et al.Covalent organic frameworks as a decorating platform for utilization and affinity enhancement of chelating sites for radionuclide sequestration[J].Advanced Materials,2018,30(20):e1705479. |
| 41 | LI Zhangnan, MENG Qinghao, YANG Yajie,et al.Constructing amidoxime-modified porous adsorbents with open architecture for cost-effective and efficient uranium extraction[J].Chemical Science,2020,11(18):4747-4752. |
| 42 | YANG Linsen, XIAO Hongyan, QIAN Yongchao,et al.Bioinspired hierarchical porous membrane for efficient uranium extraction from seawater[J].Nature Sustainability,2022,5(1):71-80. |
| 43 | ZHANG Xiao, JI Zhiyong, LIU Fu,et al.Investigation of electrochemical oxidation technology for selective bromine extraction in comprehensive utilization of concentrated seawater[J].Separation and Purification Technology,2020,248:117108. |
| 44 | 林源,王浩宇,周亚蓉,等.海水提溴技术的发展与研究现状[J].无机盐工业,2012,44(9):5-7,10. |
| LIN Yuan, WANG Haoyu, ZHOU Yarong,et al.Research and development status of bromine extracting technique from sea water[J].Inorganic Chemicals Industry,2012,44(9):5-7,10. | |
| 45 | 张拿慧.201×7强碱性阴离子交换树脂吸附浓海水中溴的应用基础研究[D].杭州:浙江工业大学,2009. |
| ZHANG Nahui.Applied basic research on bromine adsorption from concentrated seawater by 201×7 strong-base anion-exchange resin[D].Hangzhou:Zhejiang University of Technology,2009. | |
| 46 | SIMA A.M.,MOHAMMADNEJAD, Effect of Operating Parameters on Bromine Extraction from Desalination Plant Discharge,Journal of Mining and Environment.13 (2022) 165–174. |
| 47 | 张云.聚四氟乙烯中空纤维气态膜吸收过程从浓海水中提取溴素[D].天津:天津大学,2015. |
| ZHANG Yun.PTFE hollow fiber gas membrane-absorption process for extraction of bromine from brine[D].Tianjin:Tianjin University,2015. | |
| 48 | SOYLUOGLU M, ERSAN M S, ATEIA M,et al.Removal of bromide from natural waters:Bromide-selective vs.conventional ion exchange resins[J].Chemosphere,2020,238:124583. |
| 49 | LI Jiao, WANG Manxiang, LIU Guicheng,et al.Enhanced iodide removal from water by nano-silver modified anion exchanger[J].Industrial & Engineering Chemistry Research,2018,57(51):17401-17408. |
| 50 | 潘玉强,吴中平,赵亮,等.纳滤技术处理地下卤水的研究及工程化应用[J].纯碱工业,2019(4):3-7. |
| PAN Yuqiang, WU Zhongping, ZHAO Liang,et al.Research and engineering application of nanofiltration technology for the underground brine treatment[J].Soda Industry,2019(4):3-7. | |
| 51 | 凌奇,张慧宇,魏强,等.地下卤水纳滤浓水的再利用技术研究[J].纯碱工业,2022(6):13-16. |
| LING Qi, ZHANG Huiyu, WEI Qiang,et al.Recycling technology of underground brine concentrated water after nanofiltration[J].Soda Industry,2022(6):13-16. | |
| 52 | 陈进斌,苗英霞,寇希元,等.海水淡化副产浓海水资源化利用研究进展[J].盐业与化工,2016,45(10):1-4. |
| CHEN Jinbin, MIAO Yingxia, KOU Xiyuan,et al.Research progress on resource utilization of concentrated seawater generated during desalination[J].Journal of Salt and Chemical Industry,2016,45(10):1-4. | |
| 53 | 高春娟,张雨山,黄西平,等.浓海水—钙法制取氢氧化镁工艺研究[J].盐业与化工,2011,40(1):5-7. |
| GAO Chunjuan, ZHANG Yushan, HUANG Xiping,et al.Study on producing magnesium hydroxide by concentrated seawater-calcium method[J].Journal of Salt and Chemical Industry,2011,40(1):5-7. |
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