Integration of seeding- and heating-induced crystallization with membrane distillation for membrane gypsum scaling and wetting control

Although membrane distillation (MD) has great potential in treating high-salinity wastewater, continuous accumulation of inorganic salt due to increasing concentration inevitably causes supersaturation and subsequent membrane scaling. Crystallizer is an effective tool used for removal of salts; howe...

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Bibliographic Details
Published in:Desalination 2021-09, Vol.511, p.115115, Article 115115
Main Authors: Yan, Zhongsen, Lu, Zhenyu, Chen, Xiaolei, Fan, Gongduan, Qu, Fangshu, Pang, Heliang, Liang, Heng
Format: Article
Language:English
Subjects:
Gypsum scaling
Heating
Induced crystallization
Membrane distillation
Seeding
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Summary:Although membrane distillation (MD) has great potential in treating high-salinity wastewater, continuous accumulation of inorganic salt due to increasing concentration inevitably causes supersaturation and subsequent membrane scaling. Crystallizer is an effective tool used for removal of salts; however, it has been hardly applied for sparingly soluble salts. In this study, a simultaneous membrane distillation–crystallization (SMDC) system was developed for gypsum scaling control. Induced crystallization was adopted to retard the membrane scaling. The transmittance and ion concentration of the concentrate were measured to investigate the performance of the induced crystallization. The membrane scaling was characterized by both vapor flux measurements and scanning electron microscopy. Besides, the permeate conductivity was monitored to assess the membrane wetting during MD, and the energy evaluation was performed for the SMDC system during the reverse osmosis brine treatment. Results showed that the seeding of gypsum at dosage of 1 g L−1 effectively restricted the membrane scaling and wetting. Although the combination of seeding and heating showed better membrane scaling control performance, the energy consumption of the SMDC system increased by 4 times without considering heat recovery. Therefore, feed seeding alone is an efficient and economical measure to restrict gypsum scaling and wetting during the high-salinity wastewater treatment using MD. [Display omitted] •SMDCP was developed in sparingly soluble salt scaling control.•Seeding-induced crystallization efficiently inhibited the gypsum scaling.•Combination of seeding and heating enhanced membrane scaling control.•Induced crystallization retarded membrane scaling in RO brine treatment.
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2021.115115