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市场调查报告书
商品编码
1569762
到 2030 年电动车电池组冷却系统市场预测:按车辆类型、推进类型、系统类型和地区分析EV Battery Pack Cooling System Market Forecasts to 2030 - Global Analysis By Vehicle Type, Propulsion Type, System Type and by Geography |
根据Stratistics MRC的数据,2024年全球电动车电池组冷却系统市场规模为35亿美元,预计在预测期内将以17.39%的复合年增长率成长,到2030年达到91.6亿美元。
电动车 (EV) 电池组的冷却系统对于保持最佳性能和安全性至关重要。锂离子电池在充电和放电时会产生热量,因此需要有效的温度控管以避免过热并确保使用寿命。液体冷却因其卓越的传热能力而成为最有效的冷却形式,其次是空气冷却和相变材料 (PCM)。液体冷却系统有两种类型:直接和间接。直接冷却还允许电池单元透过将其浸入冷却液中来立即吸收热量。
根据国际能源总署(IEA)预测,2023年全球电动车销量将达到近1,400万辆。预计到2024年终,电动车销量将达到约1700万辆。
电动车 (EV) 需求不断增长
对能源独立的需求、不断上涨的燃料成本和环境问题正在推动世界转向电动车。随着越来越多的企业和消费者选择电动车 (EV),对有效电池冷却系统的需求也增加。有效的冷却解决方案对于保持电池在理想温度范围内运作、提高效能、寿命和安全性至关重要。此外,电池技术的改进可提高能量密度,从而推动了对更好温度控管的需求,进一步加剧了这一趋势。
初始价格高
先进的冷却系统需要大量的前期投资。使用主动冷却解决方案(例如液体冷却系统)会因为感测器、泵浦和热交换器等复杂组件而增加製造成本。此外,高昂的初始支出可能会阻碍汽车製造商实施此类系统,特别是在消费者可能更重视经济型汽车而非最尖端科技的市场。
冷却技术开发
只要冷却技术不断进步,市场相关人员将面临巨大的机会。透过相变材料、改进的液体冷却系统和巧妙的温度控管技术等创新,可以大大提高电池性能和寿命。此外,随着该行业的发展,投资研发以生产更经济、更有效的冷却系统的公司将更有能力获得市场占有率。
来自替代技术的威胁
随着电池技术的进步,温度控管系统可能会取代传统的冷却系统。例如,随着固态电池的发展,它们在运行过程中产生的热量更少,这可能会消除对大型冷却系统的需求。此外,如果替代技术被证明更经济或更高效,这可能会扰乱市场并减少对当前冷却技术的需求。
COVID-19 大流行对电动车电池组冷却系统市场产生了重大影响,对许多行业造成了巨大的破坏。疫情最初严重扰乱了全球供应链,导致封锁、旅行限制和工厂关闭,使电池冷却系统关键部件的生产和分销变得复杂。随后的延误和短缺严重影响了製造商无法满足需求。此外,由于疫情造成的经济不确定性,对电动车及其相关冷却系统的需求下降,这也导致消费者支出减少和汽车销售下降。
预计乘用车市场在预测期内将是最大的市场
由于消费者的兴趣和采用率高于商用车,乘用车领域在电动车电池组冷却系统市场占据主导地位。目前正在进行大量研究和开发,以提高电动乘用车的性能、经济性和续航里程,这有利于该细分市场。此外,电动乘用车越来越受欢迎,由于成本意识、环保意识和政府奖励等因素,汽车製造商正在专注于生产电动乘用车。
插电式混合动力汽车产业预计在预测期内复合年增长率最高
在电动车电池组冷却系统市场中,插电式混合动力汽车(PHEV)细分市场预计将以最高的复合年增长率成长。为了控制引擎和电池组产生的热量,插电式混合电动车 (PHEV) 将内燃机与马达和二次电池结合在一起。此外,对插电式混合电动车(PHEV) 的需求不断增长,以及对确保其最佳性能和安全性的先进冷却技术的需求,推动了电动车电池组冷却系统这一细分市场的快速扩张。
由于强大的基础设施和政府对电动车发展的良好支持,电动车电池组冷却系统市场在北美占据最大份额。我们在该领域的研究和开发工作已开发出专门针对电动车的更有效的冷却解决方案。美国和加拿大的大力激励和补贴推动了电动车的采用,推动了对尖端电池冷却技术的需求。此外,随着消费者对电动车兴趣的增加,对可靠的温度控管系统以确保安全性和最佳电池性能的需求变得越来越重要。
由于欧洲地区主要製造商的存在以及政府鼓励使用电动车的倡议,电动车电池组冷却系统市场预计将以最高的复合年增长率成长。研发方面的大量投资正在推动电池冷却技术的创新,从而提高效率和性能,使欧洲市场受益。此外,该地区的电动车市场正在扩大,支持性法规旨在增加再生能源来源的使用和减少碳排放。
According to Stratistics MRC, the Global EV Battery Pack Cooling System Market is accounted for $3.50 billion in 2024 and is expected to reach $9.16 billion by 2030 growing at a CAGR of 17.39% during the forecast period. The cooling system for electric vehicle (EV) battery packs is crucial for maintaining optimal performance and safety. Effective thermal management is necessary to avoid overheating and guarantee longevity because lithium-ion batteries produce heat during charging and discharging. Liquid cooling is the most efficient form of cooling, owing to its superior heat transfer capabilities, followed by air cooling and phase change materials (PCM). There are direct and indirect types of liquid cooling systems. Moreover, direct cooling allows battery cells to immediately absorb heat due to their immersion in a coolant.
According to the International Energy Agency (IEA), global electric car sales reached nearly 14 million in 2023. Electric car sales are projected to reach around 17 million by the end of 2024.
Growing electric vehicle (EV) demand
The need for energy independence, growing fuel costs, and environmental concerns are driving the global shift to electric vehicles. The need for effective battery cooling systems increases in tandem with the number of businesses and consumers choosing electric vehicles (EVs). In order to keep batteries operating within ideal temperature ranges and thereby improve their performance, longevity, and safety, effective cooling solutions are essential. Additionally, improvements in battery technology, which enable higher energy densities and thus call for better thermal management, further reinforce this trend.
High starting prices
A substantial upfront investment is needed for advanced cooling systems. The use of active cooling solutions, such as liquid cooling systems, raises manufacturing costs because of the complex components, such as sensors, pumps, and heat exchangers. Furthermore, the substantial initial outlay may discourage automakers from implementing these systems, particularly in markets where consumers may place a higher value on affordable cars than cutting-edge technology.
Technological developments in cooling
The market players have a significant opportunity as long as cooling technologies continue to advance. Battery performance and lifespan can be greatly increased by innovations like phase-change materials, improved liquid cooling systems, and clever thermal management techniques. Moreover, businesses that make R&D investments to produce more economical and effective cooling systems will be in a strong position to gain market share as the sector develops.
Threats from alternative technologies
Alternatives to conventional cooling systems for thermal management may surface as battery technology advances. Developments in solid-state batteries, for example, may result in less heat being produced while the battery is operating, which would eliminate the need for large cooling systems. Additionally, the market may be disrupted and demand for current cooling technologies reduced if these alternatives turn out to be more economical or efficient.
The COVID-19 pandemic had a major effect on the market for EV battery pack cooling systems and caused extensive disruptions in a number of industries. Lockdowns, travel restrictions, and factory closures were some of the ways that the pandemic initially severely disrupted global supply chains, making it more difficult to produce and distribute critical parts for battery cooling systems. The inability of manufacturers to meet demand was severely impacted by the delays and shortages that followed. Furthermore, lowering demand for electric cars and the cooling systems that go along with them was the economic uncertainty brought on by the pandemic, which also resulted in lower consumer spending and a drop in car sales.
The Passenger Vehicle segment is expected to be the largest during the forecast period
Due to greater consumer interest and adoption rates than commercial vehicles, the passenger vehicle segment dominates the EV battery pack cooling system market. Significant research and development efforts are made to improve the performance, economy, and range of electric passenger cars, which benefits this market segment. Moreover, electric passenger cars are becoming more and more popular, and automakers are putting a lot of effort into producing them due to factors like cost consciousness, environmental consciousness, and government incentives.
The Plug-in Hybrid Electric Vehicle segment is expected to have the highest CAGR during the forecast period
In the market for EV battery pack cooling systems, the Plug-in Hybrid Electric Vehicle (PHEV) segment is anticipated to grow at the highest CAGR. In order to control the heat produced by the engine and the battery pack, plug-in hybrid electric vehicles (PHEVs) combine an internal combustion engine with an electric motor and a rechargeable battery. Additionally, this market segment for EV battery pack cooling systems is expanding at a rapid pace due to the rising demand for plug-in hybrid electric vehicles (PHEVs) and the requirement for sophisticated cooling technologies to guarantee their optimal performance and safety.
The market for EV battery pack cooling systems has largest market share in North America, because of the region's strong infrastructure for the development of electric vehicles and substantial government support. The focus on research and development in this area has resulted in the development of more effective cooling solutions specifically designed for electric vehicles. The adoption of electric vehicles has been encouraged by significant incentives and subsidies from the U.S. and Canada, which has increased demand for cutting-edge battery cooling technologies. Moreover, as consumer interest in electric vehicles grows, the requirement for dependable thermal management systems grows in importance in order to guarantee both safety and optimal battery performance.
The market for EV battery pack cooling systems is anticipated to grow at the highest CAGR in the Europe region due to the presence of major manufacturers there and government initiatives that encourage the use of electric vehicles. Large investments in R&D benefit the European market by fostering innovations in battery cooling technologies that improve efficiency and performance. Additionally, the EV market is expanding in this region due in part to supportive regulations that aim to increase the use of renewable energy sources and reduce carbon emissions.
Key players in the market
Some of the key players in EV Battery Pack Cooling System market include MAHLE GmbH, TotalEnergies SA, Dana Incorporated, Kreisel Electric, Modine Manufacturing Company, E-MERSIV, RIGID HVAC CO., LTD, Miba Group, Boyd Corporation, Valeo, XING Mobility, VOSS Automotive, Inc., Hanon Systems, Webasto Group and Vikas Group.
In April 2024, MAHLE Behr GmbH & Co. KGand HELLA GmbH & Co. KGaA successfully completed the sale of their respective 50 percent stake in the joint venture Behr-Hella Thermocontrol ("BHTC") to AUO Corporation. The parties had signed an agreement to sell the shares on 2 October 2023; the transaction has now been approved by the relevant authorities.
In March 2024, TotalEnergies has signed, together with its partner QatarEnergy, an agreement to acquire participating interests in Block 3B/4B, offshore South Africa, from Africa Oil South Africa, Azinam (a wholly owned subsidiary of Eco Atlantic Oil and Gas) and Ricocure.
In February 2024, Dana Incorporated announced the company has entered into a definitive agreement to sell its European hydraulics business to HPI Group, a hydraulics business jointly held by Apogee Group and EiM Capital. The move is part of an ongoing evaluation of its operations and product portfolio.