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Preparation and Thermal Performance Enhancement of
The thermal performance of Na₂SO₄10H₂O⁻5 wt.% KCl composite phase change materials (CPCMs) with varying contents of EG was explored. The results showed that EG could improve the thermal conductivity effectively and that the mass fraction of EG should be no more than 3%, otherwise the crystallization value and supercooling would deteriorate.
Effect of melting temperature and amount of the phase
Thermal management of the electronic devices who work intermittently with the method of latent heat storage is regarded as one of the most prospective alternative passive thermal management solutions. In this paper, the thermal management performance of the hybrid heat sink with the bottom of the fins immersed in the phase change material (PCM) is studied experimentally. The effect of the
Research Progress of Phase Change Storage Material on Power Battery Thermal Management
Research Progress of Phase Change Storage Material on Power Battery Thermal Energy Technology ( IF 3.404) Pub Date : 2021-02-12, DOI: 10.1002/ente.202000940 Xiangwei Lin, Xuelai Zhang With the rapid development of electric vehicles (EVs), thermal safety issues have become increasingly prominent.
Design of battery thermal management system based on phase change material and heat pipe,Applied Thermal
In this paper, the performance of battery thermal management system (BTMS) with phase change material (PCM) and heat pipe (HP) is studied. The performance of the BTMS is compared to that of the one with solely HP, find that PCM can effectively reduce the
Modeling and Analysis of Phase Change Materials for Efficient Thermal Management
Modeling and Analysis of Phase Change Materials for Efficient Thermal Management Fulya Kaplan y, Charlie De Vivero, Howes, Manish Arorax, Houman Homayounz, Wayne Burleson, Dean Tullsenxand Ayse K. Coskuny yECE Department, Boston University, Boston, MA – ffkaplan3, devivero, showes, acoskungbu.edu
PhD proposal (M/F) Thermal management of phase
Optimizing the performance of battery thermal management systems requires to control the heat exchange conditions in cooling systems with internal two-phase flow. To optimally design these milli heat exchangers, the development of accurate modeling approach will be undertaken based on CFD software (StarCCM+) for various geometrical and operating conditions.
Thermal Management of Batteries in Advanced Vehicles Using Phase
Thermal Performance Comparison under Different Ambient Conditions at 40 o C ambient phase change PCM Module Compact Pack Air Cooled at 25 o C ambient no phase change Evaluation of Use in Intermittent Discharge – 40A single discharge for 9
Effect of melting temperature and amount of the phase
Thermal management of the electronic devices who work intermittently with the method of latent heat storage is regarded as one of the most prospective alternative passive thermal management solutions. In this paper, the thermal management performance of the hybrid heat sink with the bottom of the fins immersed in the phase change material (PCM) is studied experimentally. The effect of the
Experimental study of a novel strategy to construct the
Experimental investigation of the thermal performance of heat pipe assisted phase change material for battery thermal management system Appl. Therm. Eng., 141 ( 2018 ), pp. 1092 - 1100 Article Download PDF View Record in Scopus Google Scholar
Thermal Management of a Soft Starter: Transient Thermal Impedance Model and Performance Enhancements using Phase Change
Thermal Management of a Soft Starter: Transient Thermal Impedance Model and Performance Enhancements using Phase Change Materials Fabien Volle, Suresh V. Garimella, and Mark A. Juds Abstract Adverse effects of starting-torque transients and high in
Phase Change Material Thermal Properties
2005/5/1The volume change between solid and liquid states limits their packaging density. References O'Conner, J., and Weber, R., "Thermal Management of Electronic Packages Using Solid-to-Liquid Phase Change Materials", ISPS Proceedings, pp. 72 – 80, 1997.
Investigation on the thermal performance of phase
Investigation on the thermal performance of phase change material/porous medium‐based battery thermal management in pore scale Yutao Huo School of Electrical and Power Engineering, China University of Mining and Technology, Xuzhou, 221116 China
Thermal management of conventional photovoltaic
2018/8/31Keywords Phase change material, photovoltaic with phase change material, thermal management, energy storage, photovoltaic cooling Introduction and background The efficiency of the silicon photovoltaic (PV) module is adversely affected due to the rise in its operating temperature (
Experimental study of a novel strategy to construct the
Experimental investigation of the thermal performance of heat pipe assisted phase change material for battery thermal management system Appl. Therm. Eng., 141 ( 2018 ), pp. 1092 - 1100 Article Download PDF View Record in Scopus Google Scholar
Experimental study of thermal conductivity and phase
2009/2/28A new sort of nanofluids phase change materials (PCMs) is developed by suspending small amount of TiO2 nanoparticles in saturated BaCl2 aqueous solution. The resulting nanofluids PCMs possess remarkably high thermal conductivities compared to the base material. Cool storage/supply experiments conducted in a small apparatus have shown the excellent phase change performance
All
Phase change thermal management has the ability to store heat at a lower temperature and dissipate it slowly over time, therefore minimizing oversized radiator designs. A typical system includes a phase change material (PCM) that stores heat at constant temperatures in the transition from solid to liquid and then releases that heat upon resolidifying.
Heat Transfer Performance Study of Composite Phase
2018/3/2Although paraffin waxes offer an excellent source of thermal storage, the typically low thermal conductivity presents a significant challenge in the design of thermal management systems. The good physical and chemical properties of graphite and silicon carbide foam reveal the possibility of using them as a thermal conductivity enhancer for the phase change materials.
Thermal Management of a Soft Starter: Transient Thermal Impedance Model and Performance Enhancements using Phase Change
Thermal Management of a Soft Starter: Transient Thermal Impedance Model and Performance Enhancements using Phase Change Materials Fabien Volle, Suresh V. Garimella, and Mark A. Juds Abstract Adverse effects of starting-torque transients and high in
Thermal management using phase change materials
Thermal management using phase change materials By Hong Min Huang, Chris Lee, Hyo Xi, Yaqun Liu, Liang Zeng, Linda Shen [Honeywell Electronic Materials] term device performance. The TIM needs to reliably fill air gaps and surface the heat sink so the
Performance investigation of a battery thermal management system with microencapsulated phase change material suspension,Applied Thermal
Performance investigation of a battery thermal management system with microencapsulated phase change material Applied Thermal Engineering ( IF 4.725) Pub Date : 2020-07-30, DOI: Hua Li, Xiangyu Xiao, Yanan Wang, Chen Lian, Qingfeng Li, Zhengkun Wang
Heat Transfer Performance Study of Composite Phase
2018/3/2Although paraffin waxes offer an excellent source of thermal storage, the typically low thermal conductivity presents a significant challenge in the design of thermal management systems. The good physical and chemical properties of graphite and silicon carbide foam reveal the possibility of using them as a thermal conductivity enhancer for the phase change materials.
Performance of a liquid cooling‐based battery thermal
Nianben Zheng, Ruijin Fan, Zhiqiang Sun, Tian Zhou, Thermal management performance of a fin‐enhanced phase change material system for the lithium‐ion battery, International Journal of Energy Research, 10.1002/er.5494, 44, 9, (7617-7629), (2020).
Enhanced Thermal
The applications of phase change materials (PCMs) in some practical circumstances are currently limited due to the constant strong rigidity, poor thermal conductivity, and low photoabsorption property. Therefore, the design of flexibility-enhanced, highly efficient PCMs is greatly desirable and challenging. In this work, novel PCM composites (CPmG-x) with stable forms and thermally induced
PAPER OPEN ACCESS Numerical simulation analysis on the thermal performance of a building walls incorporating Phase Change
Numerical simulation analysis on the thermal performance of a building walls incorporating Phase Change Material (PCM) for thermal management To cite this article: H Hamdani et al 2018 IOP Conf. Ser.: Mater. Sci. Eng. 434 012186 View the article online for
Thermal management performance of phase change
2018/2/1Thermal management performance of two composite phase change materials (PCMs)—a highly thermally conductive 60 wt% RT44HC/expanded graphite (EG) composite and a 60 wt% RT44HC/fumed silica composite with a lower thermal conductivity—is studied for
Experimental study of a novel strategy to construct the
Experimental investigation of the thermal performance of heat pipe assisted phase change material for battery thermal management system Appl. Therm. Eng., 141 ( 2018 ), pp. 1092 - 1100 Article Download PDF View Record in Scopus Google Scholar
Experimental study of a novel strategy to construct the
Experimental investigation of the thermal performance of heat pipe assisted phase change material for battery thermal management system Appl. Therm. Eng., 141 ( 2018 ), pp. 1092 - 1100 Article Download PDF View Record in Scopus Google Scholar
Effects of different phase change material thermal
The phase change material (PCM) based battery thermal management system (BTMS) is an effective cooling system for ensuring the reliability, safety, lifespan and performance of li-ion batteries. The kinds of PCM-based BTMS include the pure PCM, composite PCM and hybrid PCM-based BTMS. This work focuses on the review of the research progress in the PCM-based BTMS to propose its prospects and
Thermal management performance of a fin‐enhanced
A fin‐enhanced phase change material (PCM) system was introduced for cylindrical lithium‐ion batteries. Experiments were performed to explore the performance of the systems during discharging. The working time of the PCM‐Fin system is improved by 75%, 68%, and 61% compared to that of the system without fins under the heat production rate of 10, 12.5, and 15 W, accordingly.
Experimental study of a novel strategy to construct the
Experimental investigation of the thermal performance of heat pipe assisted phase change material for battery thermal management system Appl. Therm. Eng., 141 ( 2018 ), pp. 1092 - 1100 Article Download PDF View Record in Scopus Google Scholar
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