Battery thermal management systems: Recent progress and challenges

Olabi, Abdul Ghani; Maghrabie, Hussein M.; Adhari, Ohood Hameed Kadhim; Sayed, Enas Taha; Yousef, Bashria A.A.; Salamah, Tareq; Kamil, Mohammed; Abdelkareem, Mohammad Ali

doi:10.1016/j.ijft.2022.100171

Cited by 111 publications

(50 citation statements)

References 245 publications

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“…The benefits of battery energy storage include increased renewable energy production, cost savings, and sustainability due to reduced consumption. The typical lifespan of energy battery storage devices is 5 -15 years [86].…”

Section: Energy Storage Systems (Ess)mentioning

confidence: 99%

Concentrating solar power (CSP) technologies: Status and analysis

Alami¹,

Olabi²,

Rezk³

et al. 2023

International Journal of Thermofluids

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Section: Energy Storage Systems (Ess)mentioning

confidence: 99%

Concentrating solar power (CSP) technologies: Status and analysis

Alami¹,

Olabi²,

Rezk³

et al. 2023

International Journal of Thermofluids

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“…These include setting appropriate current and voltage limits on the cell during operation and using thermal management systems to maintain the cell within a stable temperature. 152 Note that the thermal management system will have influences on the device-level metrics, which are out of scope with the cell-level metrics that are the focus of this perspective.…”

Section: Safetymentioning

confidence: 99%

From material properties to device metrics: a data-driven guide to battery design

et al. 2023

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“…Canada will sell only zero-emission vehicles and trucks after 2035, and China has proposed a carbon neutrality policy. However, the energy density, reliability, and cycle life of the power battery of electric vehicles cannot meet the requirements of BEV, which restricts the development of electric vehicles . A very important factor causing this problem is the development of thermal management systems .…”

Section: Introductionmentioning

confidence: 99%

Review on Thermal Management of Lithium-Ion Batteries for Electric Vehicles: Advances, Challenges, and Outlook

Jing

et al. 2023

Energy Fuels

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Due to strict regulations and the requirement to reduce greenhouse gas emissions, electric vehicles (BEVs) are a promising mode of transportation. The lithium battery is the most important power source for an electric vehicle, but its performance and life are greatly restricted by temperature. To ensure the safety of automobile operation and alleviate mileage anxiety, it is urgent to understand the current situation and predict the development and challenge of battery thermal management system. This work reviews the existing thermal management research in five areas, including cooling and heating methods, modeling optimization, control methods, and thermal management system integration for lithium batteries. Battery thermal management types include air-based, liquid-based, PCM-based, heatpipe-based, and direct cooling. Designing a better battery thermal management system not only needs to be optimized using algorithms on the model but also it uses intelligent algorithms for precise control to achieve safety and reduce energy consumption. This work also reviews the differences in thermal management systems between square and cylindrical batteries and summarizes the development trend of modularity in battery thermal management systems.

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Battery thermal management systems: Recent progress and challenges

Cited by 111 publications

References 245 publications

Concentrating solar power (CSP) technologies: Status and analysis

Concentrating solar power (CSP) technologies: Status and analysis

From material properties to device metrics: a data-driven guide to battery design

Review on Thermal Management of Lithium-Ion Batteries for Electric Vehicles: Advances, Challenges, and Outlook

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