Published
2025-04-30
Section
Articles
How to Cite
膜蒸馏技术在页岩气废水处理中的研究进展
刘 杰
四川大学水利水电学院
孟 玉川
四川大学水利水电学院,四川大学水力学与山区河流开发保护国家重点实验室
DOI: https://doi.org/10.59429/hjfz.v7i3.9747
Keywords: 页岩气废水;膜蒸馏;膜污染
Abstract
页岩气通常通过水力压裂技术开采,使用水力压裂技术的同时会产生大量的页岩气废水。这种废水由于时 空地域的差别,成分各有差异。这些废水通常成分复杂,含有高浓度的盐分、有机物和重金属等污染物,如何处理 这些废水是页岩气开采面临的一大挑战。膜蒸馏技术作为一种新兴的水处理方法,因其高效去除污染物和适应高盐 废水的能力,成为解决页岩气废水处理问题的一种潜在技术。论文综述了膜蒸馏技术在页岩气废水处理中的应用现状, 重点分析了膜污染和水质下降等技术挑战,并探讨了通过开发新型膜材料和优化能源利用来解决这些问题的可能性。 研究表明,膜蒸馏技术的进一步发展有望为页岩气废水的可持续处理提供有效解决方案。
References
[1] CHANG H, LI T, LIU B, et al. Potential and implemented membranebased technologies for the treatment and reuse of flowback and produced water from shale gas and oil plays: A review[J]. Desalination,2019(455):34-57.
[2] CHANG H, LIU B, CRITTENDEN J C, et al. Resource Recovery and Reuse for Hydraulic Fracturing Wastewater in Unconventional Shale Gas and Oil Extraction[J]. Environmental Science & Technology,2019,53(23):13547-13548.
[3] LAWSON K W, LLOYD D R. Membrane distillation[J]. Journal of Membrane Science,1997,124(1):1-25.
[4] PANGARKAR B L, DESHMUKH S K, SAPKAL V S, et al. Review of membrane distillation process for water purification[J]. Desalination and Water Treatment,2016,57(7):2959-2981.
[5] CHANG H, ZHU Y, HUANG L, et al. Mineral scaling induced membrane wetting in membrane distillation for water treatment: Fundamental mechanism and mitigation strategies[J]. Water Research,2023(247).
[6] 董刚,陈锐.页岩气压裂返排液处理技术研究进展[J].化学工程师,2023,37(4):73-78.
[7] GREGORY K B, VIDIC R D, DZOMBAK D A. Water Management Challenges Associated with the Production of Shale Gas by Hydraulic Fracturing[J]. Elements,2011,7(3):181-186.
[8] GU S, QU F, QU D, et al. Improving membrane distillation performance by Fe(II) activated sodium percarbonate oxidation during the treatment of shale gas produced water[J]. Water Research,2024(262):122139.
[9] CHO H, CHOI Y, LEE S, et al. Membrane distillation of high salinity wastewater from shale gas extraction: effect of antiscalants[J]. Desalination and Water Treatment,2016,57(55):26718-26729.
[10] HSIEH I M, THAKUR A K, MALMALI M. Comparative analysis of various pretreatments to mitigate fouling and scaling in membrane distillation[J]. Desalination,2021(509).
[11] ROBBINS C A, YIN Y, HANSON A J, et al. Mitigating membrane wetting in the treatment of unconventional oil and gas wastewater by membrane distillation: A comparison of pretreatment with omniphobic membrane[J]. Journal of Membrane Science,2022(645).
[12] LU M, CHANG H, YAN Z, et al. Water quality of shale gas produced water greatly influences the performance of membrane distillation[J]. Separation and Purification Technology,2024(341):126927.
[13] ALKHUDHIRI A, DARWISH N, HILAL N. Produced water treatment: Application of Air Gap Membrane Distillation[J]. Desalination,2013(309):46-51.
[14] CAO Y, MALMALI M, QIAN X, et al. Continuous electrocoagulationmembrane distillation unit for treating hydraulic fracturing produced water[J]. Journal of Water Process Engineering,2022(50).
[15] JEBUR M, CH IAO Y-H, THOMAS K, et al. Combined electrocoagulation-microfiltration-membrane distillation for treatment
of hydraulic fracturing produced water[J]. Desalination,2021(500).
[16] SARDARI K, FYFE P, LINCICOME D, et al. Combined electrocoagulation and membrane distillation for treating high salinity
produced waters[J]. Journal of Membrane Science,2018(564):82-96.
[17] JI Z, WANG J, YAN Z, et al. Gravity-driven membrane integrated with membrane distillation for efficient shale gas produced water treatment[J]. Water Research,2024(266):122332.