Study on the desalination efficiency of hydrate phase by a pressure-driven filtration method

Yiwei Wu; Zhenbin Xu; Xiaohui Wang; Jin Cai; Tenghua Zhang; Peng Xiao; Changyu Sun; Guangjin Chen

doi:10.1016/j.cjche.2025.03.010

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Study on the desalination efficiency of hydrate phase by a pressure-driven filtration method

Updated：2026-01-06

- Study on the desalination efficiency of hydrate phase by a pressure-driven filtration method
- Chinese Journal of Chemical Engineering Vol. 85, Issue 9, Pages: 66-75(2025)
- Affiliations：
  
  State Key Laboratory of Heavy Oil Processing, China University of Petroleum,Beijing,China,102249
- Author bio：
- Funds：
- DOI：10.1016/j.cjche.2025.03.010
  CLC：
- Published：2025
- Accepted：
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Yiwei Wu, Zhenbin Xu, Xiaohui Wang, Jin Cai, Tenghua Zhang, Peng Xiao, Changyu Sun, Guangjin Chen. Study on the desalination efficiency of hydrate phase by a pressure-driven filtration method[J]. Chinese Journal of Chemical Engineering, 2025, 85(9): 66-75.
DOI：

Yiwei Wu, Zhenbin Xu, Xiaohui Wang, Jin Cai, Tenghua Zhang, Peng Xiao, Changyu Sun, Guangjin Chen. Study on the desalination efficiency of hydrate phase by a pressure-driven filtration method[J]. Chinese Journal of Chemical Engineering, 2025, 85(9): 66-75. DOI： 10.1016/j.cjche.2025.03.010.

摘要

Abstract

The mechanism of hydrate-based desalination is that water molecules would transfer to the hydrate phase during gas hydrate formation process

while the salt ions would be conversely concentrated in the unreacted saltwater. However

the salt concentration of hydrate decomposed water and the desalination degree of hydrate phase are still unclear. The biggest challenge is how to effectively separate the hydrate phase and the remaining unreacted salt water

and then decompose the hydrate phase to measure the salt concentration of hydrate melt water. This work developed an apparatus and pressure-driven filtration method to efficiently separate the hydrate phase and the remaining unreacted saltwater. On this basis

the single hydrate phase was obtained

then it was dissociated and the salt concentration of hydrate melt water was measured. The experimental results demonstrate that when the initial salt mass concentration is 0.3% to 8.0%

the salt removal efficiency for NaCl solution is 15.9% to 29.8% by forming CO

hydrate

while for CaCl

solution is 28.9% to 45.5%. The solute CaCl

is easier to be removed than solute NaCl. In addition

the salt removal efficiency for forming CO

hydrate is higher than that for forming methane hydrate. The multi-stage desalination can continuously decrease the salt concentration of hydrate dissociated water

and the salt removal efficiency per stage is around 20%.

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Related Institution

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