Coupled Cooling Method and Application of Latent Heat Thermal Energy Storage Combined with Pre-cooling of Envelope: Optimization of Pre-cooling with Intermittent Mode

Xiangkui Gao, Yanping Yuan, Hongwei Wu, Xiaoling Cao, Xudong Zhao

Research output: Contribution to journalArticlepeer-review

11 Citations (Scopus)
42 Downloads (Pure)

Abstract

The coupled cooling method combining latent heat thermal energy storage and pre-cooling of the envelope (PE) is a new free-cooling method that is suitable for exposure to high temperatures and other types of harsh environments. PE plays the most critical role in the coupled cooling method. Long-term, continuous PE cannot only reduce energy storage capacity, but it also causes numerous energy waste. Thus, an intermittent operational mode is firstly proposed to improve the heat transfer performance and reduce energy consumption. A simplified numerical model of intermittent thermal storage is established, and the subsequent effects of intermittent ratio (IR) and intermittent period (IP) on cold storage performance have been systematically investigated. Furthermore, the operational period is divided into a cold storage period (CSP) and a cold preservation period (CPP), each with their own respective evaluation indices. Long-term intermittent PE is optimized, and an interchanging continuous/intermittent cold storage strategy is proposed. Under the current operating conditions, as compared with the conventional continuous mode, the duration of CSP is extended by 0–26%, yielding an annual cold storage energy consumption reduction of 68–78%. Thus, the current study demonstrates the significant potential of intermittent operational mode application in underground thermal energy storage systems.

Original languageEnglish
Pages (from-to)370-381
Number of pages12
JournalSustainable Cities and Society
Volume38
Early online date10 Jan 2018
DOIs
Publication statusPublished - 1 Apr 2018

Keywords

  • Cavern envelope
  • Intermittent operation
  • Mine refuge chamber
  • Optimization
  • Thermal energy storage
  • Underground space

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