4.7 Article

Experimental and numerical investigation of a hybrid battery thermal management system based on copper foam-paraffin composite phase material and

APPLIED THERMAL ENGINEERING (2023)

Related references

Note: Only part of the references are listed.
Article Engineering, Environmental

Composite phase change material with room-temperature-flexibility for battery thermal management

Weifeng Wu et al.

Summary: This study successfully prepared a flexible composite phase change material with well-retained flexibility in a wide temperature range by carefully selecting a specific copolyester thermoplastic elastomer. The material demonstrated outstanding applicability and cooling performance in various battery cells and modules, significantly lowering the maximum temperature and improving thermal management efficiency.

CHEMICAL ENGINEERING JOURNAL (2022)

Add to Collection
Article Green & Sustainable Science & Technology

Effects analysis on heat dissipation characteristics of lithium-ion battery thermal management system under the synergism of phase change material and liquid cooling method

Feng Yi et al.

Summary: The study investigated the impact of parameters such as spacing, material content, battery direction, coolant flow rate, and pipe diameter on the performance of the composite cooling system, revealing that proper parameter configuration can effectively enhance the thermal performance of the system.

RENEWABLE ENERGY (2022)

Add to Collection
Article Thermodynamics

Upgrade strategy of commercial liquid-cooled battery thermal management system using electric insulating flexible composite phase change materials

Jiahao Cao et al.

Summary: This study introduces a hybrid cooling system combining a commercial liquid cooling system and a novel phase change material, ensuring the safety and high performance of Lithium-ion batteries under harsh conditions. Experimental results show that the hybrid cooling system outperforms the standalone liquid cooling system in cooling efficiency under high temperature and high-rate discharge scenarios.

APPLIED THERMAL ENGINEERING (2021)

Add to Collection
Article Thermodynamics

Comparison of lumped and 1D electrochemical models for prismatic 20Ah LiFePO4 battery sandwiched between minichannel cold-plates

Sandeep Dattu Chitta et al.

Summary: This paper provides a detailed comparison study on the prediction accuracy of two different and simplified battery models, revealing that while the Lumped model closely matches the Li-ion model at lower discharge rates, there is a significant difference at higher discharge rates due to the non-consideration of chemical reactions. It is suggested to use the Lumped model for preliminary studies in designing the BTMS system.

APPLIED THERMAL ENGINEERING (2021)

Add to Collection
Article Thermodynamics

A novel liquid cooling plate concept for thermal management of lithium-ion batteries in electric vehicles

Mohsen Akbarzadeh et al.

Summary: This paper presents an innovative liquid cooling plate (LCP) embedded with phase change material (PCM) for thermal management of electric vehicle (EV) batteries. The hybrid LCP, combining active and passive cooling methods, is 36% lighter than traditional aluminum LCP and provides heating solution to slow temperature loss. Experimental and computational analyses show that the hybrid LCP reduces energy consumption and improves temperature uniformity, making it a promising thermal management solution for EVs.

ENERGY CONVERSION AND MANAGEMENT (2021)

Add to Collection
Review Green & Sustainable Science & Technology

A review on hybrid thermal management of battery packs and it's cooling performance by enhanced PCM

G. Murali et al.

Summary: Power batteries in electric vehicles release a significant amount of heat during charging and discharging, necessitating the use of a Battery Thermal Management System (BTMS) to regulate temperature rise and distribution for improved battery lifespan, efficiency, and safety. Among various BTMS options, Phase Change Material (PCM) stands out for its appealing features such as low parasitic power, low weight, and uniform temperature distribution. The study introduces a Hybrid Thermal Management System with PCM for enhanced cooling, and summarizes techniques to enhance thermal conductivity of PCM. Additionally, it reviews research on key parameters affecting system performance and proposes conclusions based on previous studies on PCM cooling.

RENEWABLE & SUSTAINABLE ENERGY REVIEWS (2021)

Add to Collection
Article Energy & Fuels

Numerical investigation on thermal behaviour of 5 x 5 cell configured battery pack using phase change material and fin structure layout

V. G. Choudhari et al.

Summary: This study evaluates the thermal performance of lithium-ion battery modules using phase change material cooling and proposes different fin structure layouts to minimize internal heat accumulation. By investigating rest time, convection effect, and fin structure, it is possible to reduce maximum temperature, recover melting fraction, and optimize the thermal performance of the battery pack.

JOURNAL OF ENERGY STORAGE (2021)

Add to Collection
Article Energy & Fuels

Performance of a liquid cooling-based battery thermal management system with a composite phase change material

Yanqi Zhao et al.

INTERNATIONAL JOURNAL OF ENERGY RESEARCH (2020)

Add to Collection
Article Thermodynamics

Expanded graphite - Paraffin composite phase change materials: Effect of particle size on the composite structure and properties

Yanqi Zhao et al.

APPLIED THERMAL ENGINEERING (2020)

Add to Collection
Article Chemistry, Physical

A novel thermal management structure using serpentine phase change material coupled with forced air convection for cylindrical battery modules

Youfu Lv et al.

JOURNAL OF POWER SOURCES (2020)

Add to Collection
Article Thermodynamics

Durability of phase-change-material module and its relieving effect on battery deterioration during long-term cycles

Youfu Lv et al.

APPLIED THERMAL ENGINEERING (2020)

Add to Collection
Proceedings Paper Energy & Fuels

Active cooling based battery thermal management using composite phase change materials

Yanqi Zhao et al.

INNOVATIVE SOLUTIONS FOR ENERGY TRANSITIONS (2019)

Add to Collection
Article Thermodynamics

Melting and solidification of PCM embedded in porous metal foam in horizontal multi-tube heat storage system

Mehdi Esapour et al.

ENERGY CONVERSION AND MANAGEMENT (2018)

Add to Collection
Article Thermodynamics

Thermal performance enhancement of composite phase change materials (PCM) using graphene and carbon nanotubes as additives for the potential application in lithium-ion power battery

Deqiu Zou et al.

INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER (2018)

Add to Collection
Article Thermodynamics

Thermal management of lithium ion batteries using graphene coated nickel foam saturated with phase change materials

Abid Hussain et al.

INTERNATIONAL JOURNAL OF THERMAL SCIENCES (2018)

Add to Collection
Article Electrochemistry

Towards Understanding Heat Generation Characteristics of Li-Ion Batteries by Calorimetry, Impedance, and Potentiometry Studies

Balasundaram Manikandan et al.

JOURNAL OF THE ELECTROCHEMICAL SOCIETY (2017)

Add to Collection
Article Energy & Fuels

Graphene or h-BN paraffin composite structures for the thermal management of Li-ion batteries: A multiscale investigation

Bohayra Mortazavi et al.

APPLIED ENERGY (2017)

Add to Collection
Article Thermodynamics

Thermal optimization of composite phase change material/expanded graphite for Li-ion battery thermal management

Guiwen Jiang et al.

APPLIED THERMAL ENGINEERING (2016)

Add to Collection
Article Thermodynamics

Experimental investigation of a passive thermal management system for high-powered lithium ion batteries using nickel foam-paraffin composite

Abid Hussain et al.

ENERGY (2016)

Add to Collection
Article Green & Sustainable Science & Technology

Heat transfer performance of thermal energy storage components containing composite phase change materials

Bo Zhao et al.

IET RENEWABLE POWER GENERATION (2016)

Add to Collection
Editorial Material Energy & Fuels

A solid future for battery development

Juergen Janek et al.

NATURE ENERGY (2016)

Add to Collection
Article Energy & Fuels

Thermal energy charging behaviour of a heat exchange device with a zigzag plate configuration containing multi-phase-change-materials (m-PCMs)

Peilun Wang et al.

APPLIED ENERGY (2015)

Add to Collection
Article Chemistry, Physical

Non-isothermal electrochemical model for lithium-ion cells with composite cathodes

Suman Basu et al.

JOURNAL OF POWER SOURCES (2015)

Add to Collection
Article Chemistry, Physical

Experimental study of a passive thermal management system for high-powered lithium ion batteries using porous metal foam saturated with phase change materials

W. Q. Li et al.

JOURNAL OF POWER SOURCES (2014)

Add to Collection
Article Energy & Fuels

Numerical modeling for solid-liquid phase change phenomena in porous media: Shell-and-tube type latent heat thermal energy storage

Zhenyu Liu et al.

APPLIED ENERGY (2013)

Add to Collection
Article Energy & Fuels

Heat transfer enhancement for thermal energy storage using metal foams embedded within phase change materials (PCMs)

C. Y. Zhao et al.

SOLAR ENERGY (2010)

Add to Collection
Article Thermodynamics

Thermal conductivity enhancement of phase change materials using a graphite matrix

Andrew Mills et al.

APPLIED THERMAL ENGINEERING (2006)

Add to Collection
Webinars Posters Questions Hubs Funding Journals Papers Connect Collections Reviewers About Us FAQs Mobile App Privacy Policy Terms of Use
© Peeref 2019-2024. All rights reserved.