Performance Analysis of a Membrane-based Ionic Liquid Desiccant (ILD) Dehumidifier

Lingshi Wang, Xiaobing Liu, Bamdad Bahar

Research output: Contribution to journalConference articlepeer-review

Abstract

Air dehumidification through cooling is an energy-intensive process, which consumes about 20-40% of the overall energy for air-conditioning. Liquid desiccant dehumidification can separate dehumidification from space cooling and has potential to improve the cooling efficiency and reduce the overall energy consumption for airconditioning. However, the drawbacks such as liquid carryover and corrosion, membrane contamination and blocking, limit its application. To eliminate these problems, a new dehumidifier using nonporous membrane and ionic liquid desiccant (ILD) was developed. The dehumidification performance of the new dehumidifier was characterized through a series of lab tests. Test results indicate that the new dehumidifier can achieve a moisture removal rate up to 180.3 g/h and a dehumidification effectiveness up to 12.7%. A parametric study found that the dehumidification performance is sensitive to the flowrates of the air and the ILD solution. A higher mass flow ratio between the ILD solution and the air could result in better dehumidification performance.

Original languageEnglish
JournalEnergy Proceedings
Volume8
DOIs
StatePublished - 2020
EventApplied Energy Symposium: MIT A+B, AEAB 2020 - Cambridge, United States
Duration: May 17 2020May 19 2020

Keywords

  • dehumidifier
  • experimental study
  • ionic liquid desiccant
  • moisture removal rate
  • nonporous membrane

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