Experimental study of jet impingement heat transfer with microencapsulated phase change material slurry

Zhang, J.J.; Yang, C.H.; Jin, Z.G.; Ma, Suxia; Zhang, J.S.; Pang, Xiaodong

doi:10.1016/j.applthermaleng.2021.116588

Cited by 19 publications

(4 citation statements)

References 30 publications

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“…Regarding encapsulated phase change slurries, several applications were proposed: surface casing cementing, in deep-water regions or permafrost [50,72], photovoltaic thermal systems [48], microchannel heat sinks [73], double-pipe heat exchanger [74], jet impingement heat [75] and for cold energy storage [76]. Many other areas will benefit from the use of EPCMS, among them the most outstanding is the automobile industry, with the important and necessary improvement in lithium battery cooling systems [77,78].…”

Section: Discussionmentioning

confidence: 99%

Phase Change Slurries for Cooling and Storage: An Overview of Research Trends and Gaps

Borri

Sciacovelli

et al. 2022

Energies

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Phase change slurries (PCSs) have great potential as both a heat transfer fluid and an energy storage medium for cooling processes, cold energy storage, and cold energy transportation due to desirable thermophysical properties. One of the major benefits of PCSs compared to pure phase change materials is their fluidity, thus making them cooled or heated by a heat exchanger, pumped through pipes, discharged, and stored directly in a thermal energy storage tank. The use of encapsulated phase change slurries and gas hydrate slurry has thus attracted considerable interest as reflected in the literature with a rising number of publications and institutions involved in the area. The use of bibliometric techniques has found a recent interest in the literature to define the progress of different scientific topics and inspire researchers to identify novelties. In this paper, bibliometric analysis and a detailed systematic review are carried out to show the state-of-the-art development of PCSs for cooling applications. Research gaps and hotspots are identified to help define future perspectives on this topic.

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Section: Discussionmentioning

confidence: 99%

Phase Change Slurries for Cooling and Storage: An Overview of Research Trends and Gaps

Borri

Sciacovelli

et al. 2022

Energies

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“…These are most commonly used in electronics cooling applications. Zhang et al [67] experimentally studied the heat transfer of micro-encapsulated PCM slurry as the impinging fluid compared to water. It was shown that the latent heat of the PCM increased the heat transfer compared to water.…”

Section: Jet Impingementmentioning

confidence: 99%

A Review on Active Heat Transfer Enhancement Techniques within Latent Heat Thermal Energy Storage Systems

Shank

Tiari

2023

Energies

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Renewable energy resources require energy storage techniques to curb problems with intermittency. One potential solution is the use of phase change materials (PCMs) in latent heat thermal energy storage (LHTES) systems. Despite the high energy storage density of PCMs, their thermal response rate is restricted by low thermal conductivity. The topic of heat transfer enhancement techniques for increasing thermal performance of LHTES systems has mainly focused on passive heat transfer enhancement techniques with less attention towards active methods. Active heat transfer enhancement techniques require external power supplied to the system. In this paper, recent advances in active heat transfer enhancement techniques within LHTES systems are reviewed, including mechanical aids, vibration, jet impingement, injection, and external fields. The pertinent findings related to the field are summarized in relation to the charging and discharging processes of PCMs. Suggestions for future research are proposed, and the importance of additional energy input for storage is discussed.

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“…Although the high viscosity increases the pumping power required for pipe flow, the required flow rate is reduced, the pump energy can be reduced by more than 60% (Chen et al, 2008). However, with the continuous increase of Re, insufficient time for phase transition of PCM is observed, and the heat absorption capacity of PCMS is weakened (Zhang et al, 2018;Zhang et al, 2021).…”

Section: Flow In Pipementioning

confidence: 99%

Opinions on Fabrication of Phase Change Microcapsule Slurry and Its Application in Electronic Cooling

Cao

Yao

2022

Front. Energy Res.

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Experimental study of jet impingement heat transfer with microencapsulated phase change material slurry

Cited by 19 publications

References 30 publications

Phase Change Slurries for Cooling and Storage: An Overview of Research Trends and Gaps

Phase Change Slurries for Cooling and Storage: An Overview of Research Trends and Gaps

A Review on Active Heat Transfer Enhancement Techniques within Latent Heat Thermal Energy Storage Systems

Opinions on Fabrication of Phase Change Microcapsule Slurry and Its Application in Electronic Cooling

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