Article
Thermodynamics
Sangwook Lee, Yoong Chung, Yoo Il Lee, Yeonwoo Jeong, Min Soo Kim
Summary: When an energy storage system (ESS) operates in cold conditions, the power and capacity of the battery decrease, and an appropriate battery thermal management strategy (BTMS) is crucial to prevent driving range loss. This study evaluated the trade-off between ESS heating performance enhancement and additional energy consumption. Three BTMSs combined with a secondary heat pump were suggested and analyzed: self-heating, active heating, and heat recovery. The results showed that active heating significantly improved the driving range, while heat recovery reduced the state-of-charge decrease. Battery preheating with the heat pump consumed less power compared to conventional electric heater preheating.
Article
Thermodynamics
Yousif M. Alkhulaifi, Naef A. A. Qasem, Syed M. Zubair
Summary: This paper compares the performance of an ejector-based battery thermal management system (BTMS) to a basic system from thermal and exergoeconomic perspectives. The results show that the ejector-based system has a lower total cost rate and energy consumption, demonstrating its technical and economic feasibility for thermal management in electric and hybrid electric vehicles.
Article
Green & Sustainable Science & Technology
T. Zhang, Y. F. Zhang, Z. R. Shi, Q. F. Li, J. Y. Cai
Summary: A hybrid PV/T collector/evaporator was designed and a hybrid system named PV-SAHP/GHP was proposed. Outdoor experiments were conducted to compare the operating characteristics of different modes. The results showed that the GHP-PV/T mode had satisfactory energy-saving effect while the PV-SAHP mode met the temperature demand but had unsatisfactory energy conservation effect. It is recommended to operate the GHP-PV/T mode during intense radiation and the PV-SAHP mode otherwise to balance the thermal performance and energy-saving benefits.
Article
Green & Sustainable Science & Technology
Anci Wang, Xiang Yin, Fan Jia, Feng Cao, Yuxuan Liu, Xiaolin Wang
Summary: This study focuses on improving the driving range of electric vehicles (EVs) by using CO2 heat pumps instead of PTC heaters. The research found that frost might lead to a rapid decrease in driving range. To address this issue, a new global performance improvement control method was proposed, which could enhance the driving range by up to 10%. It is recommended to implement this method in regions with low temperatures and high humidity.
JOURNAL OF CLEANER PRODUCTION
(2023)
Article
Thermodynamics
Hussein Mbulu, Yossapong Laoonual, Somchai Wongwises
Summary: This study designed and experimented a heat pipe-based battery thermal management system under high input power, showing that the system could effectively control the battery temperature within an acceptable range and had a high heat transfer efficiency.
CASE STUDIES IN THERMAL ENGINEERING
(2021)
Review
Energy & Fuels
Andhy M. Fathoni, Nandy Putra, T. M. Indra Mahlia
Summary: Heat pipes are widely used in the thermal management systems of electric vehicle batteries to control the working temperature and reduce the risk of thermal runaway. Besides traditional heat pipes, hybrid thermal management systems based on heat pipes are also worth exploring and researching.
JOURNAL OF ENERGY STORAGE
(2023)
Article
Energy & Fuels
Alex Wray, Kambiz Ebrahimi
Summary: The vehicle thermal management system is a limiting factor for electric vehicle range and battery life. Tesla's waste heat recovery (WHR) thermal management system, the 'Octovalve', significantly reduces energy consumption and battery load during warm-up, but at the cost of overall warm-up time.
Article
Energy & Fuels
Vinayak Kulkarni, Gautam Ghaisas, Shankar Krishnan
Summary: Introducing battery electric vehicles quickly to the market can lead to errors and recalls, which can be avoided by simulating BEVs in an integrated manner. By developing a drivetrain model integrated with cabin, battery, and power electronics models, key system-level outputs are obtained to identify simple energy-conscious actions and quantify energy savings. The integrated model is validated at both component and system levels.
JOURNAL OF ENERGY STORAGE
(2022)
Article
Thermodynamics
Kang Li, Hongming Chen, Dingyu Xia, Hanqi Zhang, Binlin Dou, Hua Zhang, Ni Liu, Lin Su, Xuejin Zhou, Ran Tu
Summary: This study designs a multi-mode thermal management system for electric vehicles to adapt to environmental changes. The system has advantages such as low cost, fewer components, wide adaptability, safety, and comfort. Experimental verification demonstrates the feasibility of the system and shows that waste heat utilization vapor compression heat pump system can effectively improve the mileage of electric vehicles.
ENERGY CONVERSION AND MANAGEMENT
(2023)
Article
Energy & Fuels
Henrique Naim Finianos Feliciano, Fernando Fusco Rovai, Carlos Eduardo Keutenedjian Mady
Summary: This article focuses on the thermodynamic concept of exergy, which evaluates the quality of energy and its irreversibilities in machines. It presents simulations of passenger vehicles to understand the exergy destruction in internal combustion engine vehicles (ICEVs) and battery electric vehicles (BEVs), considering different energy mixes. The results show that BEVs have a higher exergy efficiency compared to ICEVs, but EVs in Europe produce more GHG than ethanol-fueled ICE vehicles in Brazil.
Article
Energy & Fuels
Zhangmiaoge Liu, Zhouxiao Liu, Jianzhao Liu, Ning Wang
Summary: In this study, an optimized fuzzy proportional-integral-differential (Fuzzy PID) algorithm is proposed for a rapid temperature control system in automotive batteries. The algorithm is used to build an intelligent thermal management system with temperature feedback mechanism, employing switchable thermoelectric (TE) devices that offer both heating and cooling capabilities. The battery pack temperature is quickly regulated with the assistance of liquid cooling optimization. Experimental results demonstrate a significant reduction in temperature control time compared to traditional liquid cooling methods.
Review
Chemistry, Physical
Shurong Lei, Song Xin, Shangxiao Liu
Summary: This paper comprehensively reviews the recent development of separate thermal management solutions for electric vehicles (EVs) and discusses in-depth the state-of-the-art integrated solutions. The benefits and drawbacks of each solution are critically commented, and the challenges faced by EV thermal management solutions and their development trends are presented.
JOURNAL OF POWER SOURCES
(2022)
Article
Chemistry, Physical
Shibo Wang, Hui Wang, Min Chang, Jiakuan Xu, Jiuzhou Wang, Xueying Yang, Junqiang Bai
Summary: This study proposes a lightweight and portable directional heat transfer structure for battery heat dissipation in UAVs. Experimental results show that this structure can significantly reduce the maximum temperature in the battery and extend the cruise time of UAVs. The findings provide guidance for designing efficient battery cooling devices for UAVs.
JOURNAL OF POWER SOURCES
(2023)
Review
Energy & Fuels
Kittinan Boonma, Napol Patimaporntap, Hussein Mbulu, Piyatida Trinuruk, Kitchanon Ruangjirakit, Yossapong Laoonual, Somchai Wongwises
Summary: This study surveys various parameters that enhance the performance of a heat pipe-based battery thermal management system for cooling lithium-ion batteries, aiming to achieve optimum performance of electric vehicle batteries at high charge/discharge rates.
Article
Energy & Fuels
Volkan Tugan, Ugurcan Yardimci
Summary: In order to ensure the safe and efficient operation of electric vehicle battery systems, a battery thermal management system is needed to remove the heat generated in the batteries. This study focuses on improving the battery thermal management system by investigating different battery module designs and air velocities. Results showed that increasing the air inlet velocity decreased the maximum temperature and maximum temperature difference in the batteries.
JOURNAL OF ENERGY STORAGE
(2023)