电动汽车热管理系统市场Research Report: Information, by System (Heating, Ventilation and Air Conditioning (HVAC), Powertrain Cooling, Fluid Transport and others), Component Type (Motor, Battery and Cabin Area), Technology (Active Transmission Warmup, Exhaust Gas Recirculation (EGR), Reduced HVAC System Loading and others), Application (Engine Cooling, Air Conditioning, Heated Steering, Waste Heat Recovery, Transmission System, Heated/Ventilated Seats and others), Vehicle Type (Battery Electric Vehicle (BEV), Hybrid Electric Vehicle (HEV), Plug-in Hybrid Electric Vehicles (PHEV)) and Region (North America, Europe, Asia-Pacific and the Rest of the World) - Forecast till 2030

电动汽车热管理系统市场概述：

Electric vehicles during the drive or charging tend to heat quickly that might lead to the failure of devices. Thermal management is integrated with electric vehicles to dissipate the heat generated. The thermal management system is utilized in various components like cabinet area, battery, steering, motor, and others. To obtain the wasted heat and utilizing them for other purposes is the key factor in the Electric Vehicle Thermal Management System.

Efficient consumption of fuel, increasing demand for electric cars, stringent regulations on emissions, technological advances are some of the major factors that propel the Electric Vehicle Thermal Management System market growth. Currently, the trends of integrating the wasted heat recovery system with the electric vehicle are augmenting the Electric Vehicle Thermal Management System Market size.

COVID 19 Analysis:

The COVID-19 outbreak has augmented the necessity of lowering the global temperature and carbon footprint in every industrial sector. Hence the key market players have funded the development of lithium-ion batteries to combat the battery issues like thermal performance, discharge rate which are crucial parameters in ensuring the long life of the electric vehicle.

The reduced workforce to perform simulation tests and manufacturing units has reduced the Electric Vehicle Thermal Management System Market value. Difficulty in sourcing the raw materials due to restrictions in several countries due to the severity of coronavirus cases. The majority of electric vehicle thermal management system manufacturers have shut down their production and other essential operations throughout the pandemic.

Market Dynamics:

Market Drivers:

The primary functions of the thermal management system are heat transfer, decreasing the thermal loads, recovering the wasted heat energy. This process helps in improving the passenger comfort while driving and enhanced the travel experience; additionally, this will protect the vehicle components from overheating issues and damages.

由于与智能功率模块集成的节能和电池动力设备的趋势越来越大，汽车热管理系统变得越来越流行。此外，制造商正在将汽车热管理系统与现有的电气热管理系统相结合，以获得效率。这些因素是电动汽车热管理系统行业的关键驱动因素。

Market Opportunities:

领先的车辆制造商专注于通过整合废热系统来提高车辆的价值。整合热管理系统的主要原因是增加车辆的燃油经济性。该系统将提高燃油效率3-4％。这方面增加了电动汽车热管理系统的市场价值。

Developed countries have showcased increased demand for luxury and comfort features concerning the automotive industry. The lifestyle change has stimulated the growth of electric vehicles across the globe. There are over 10 million electric cars on road in the year 2020 where china has the most number of cars over other countries accounting for over 4.5 million. This factor has propelled the Electric Vehicle Thermal Management System Market growth. Additionally, the strict emission norms imposed by governments of several counties and enhanced subsidies that support the electric vehicle infrastructure have gained momentum in recent years.

市场约束：

The requirement of high capital investment is restraining the growth of the thermal management system industries. The lack of protocols and lack of immersed coolants in electric vehicles have reduced the overall growth of the Electric Vehicle Thermal Management System Industry.

The safety factor is the most important one while choosing the electric vehicle. There are a few cases of Electric vehicles catching fire due to the usage of liquid electrolytes in the batteries. As these batteries produce hydrogen fluoride gas in the combustion process, such cases tend to occur in the rare scenario. This has reduced the market value of Electric cars which in turn affects the electric vehicle thermal management system market value.

Market Challenges:

In some situations, the battery of the Electric vehicle must expose to warmth and in some situations, it requires a reduction in temperature, the external temperature variation highly affects the internal system's temperature of the vehicle. Protecting the battery of the electric vehicle from thermal shock is considered a huge challenge for the manufacturers of Electric vehicle Thermal Management Systems. Currently, to combat the challenge, Insulating silicone layers are used to cover the battery packs.

The faster charging ability of the Electric Vehicles and there are emerging technologies to increase the charging speed, even more, to offer convenience to the drivers in the recent years. The amount of power fed to the battery during the fast-charging process is risking the thermal management system integrated with the battery.

Cumulative growth analysis:

The advancements in technology integrated with the electric vehicle and increased awareness in reducing environmental pollution due to conventional transportation have significantly impacted the overall growth of Electric Vehicles globally. Factors like fuel efficiency, higher performance, lower emission, and stringent norms imposed by the government have propelled the growth of the Electric vehicle market. This has therefore impacted the electric vehicle thermal management system market outlook.

电动汽车热管理系统的市场价值在2019年为493亿美元，估计到2029年到2029年的总价值超过750亿美元，登记为18.9％的18.9％，巨大的运输商，由于频繁和长途旅行的燃料，- 有效的车辆。一辆电动汽车从电网上转换了50％的电能以供电车轮，但只需要汽油的17-20％的能量。现有的电池热管理系统与电动热管理系统的整合以较低的成本提供了更高的效率，进步导致了有助于集成的电动汽车的尺寸。

Value Chain Analysis:

The automotive industry is currently looking for solutions to integratewaste heat recovery systems使用重型商用车并减少温室排放。由于人口增加的能源需求不断增长，因此能源效率是多家汽车行业的主要关注点。此外，与运输相关的二氧化碳排放量的增加会造成严重的环境危害。国际能源机构最近进行的一项研究指出，到2040年，汽车数量将翻了一番。令人震惊的研究报告使政府在减少温室气体时施加了严格的法规。

我最近的发展由印度公司ncorporated thermoelectric waste heat recovery systems which promise to offer over 5% increment in fuel economy. Growing environmental concerns and depletion of nonrenewable sources have propelled the automotive industry to promote fuel efficiency in their production. The role of thermoelectric generators possesses greater potential in converting the wasted energy to run auxiliaries like air-conditioning, lightings, and others. The overall popularity of automated systems in the automotive industry also has a greater impact on electric vehicle thermal management system market size.

Competitive landscape:

• Robert Bosch GmbH (Germany)


• Borgwarner Inc.（美国）


• 达纳有限公司（美国）


• 沃斯汽车GmbH(德国)


• Modine Manufacturing Company (US)


• Denso Corporation（日本）


• Mahle Gmbh（德国）


• Valeo（法国）


• Gentherm (US), and


• Hanon Systems (South Korea)

区域分析：

The electric vehicle thermal management system is highly influenced by the electric vehicle market. In that case, Asia Pacific is the highest revenue holder account over USD 88 billion currently and is projected to cross over USD 360 billion by 2027. The rapid growth and increasing investment in the market have stimulated the necessity of Electric car cooling systems. The increased investment aids the development of power inventors and dual chargers are also accompanied by safety equipment.

欧洲不断促进每个工业部门的环境友好型的重要性。因此，该地区为电动汽车热管理系统市场增长提供了利润丰厚的机会。此外，像宝马，大众汽车，戴姆勒这样的主要市场参与者的存在推动了电动汽车热管理系统的市场增长。该行业利用诸如冷板，热界面材料之类的设备来确保在传热期间的热量损失最小，从而增加了市场的整体增长。

近期发展：

A Taiwan-based company has introduced a modular battery system that has an immersion coolant in which the battery pack is immersed. The coolant is a non-conducting liquid but has a high boiling point which makes it compatible with power train solutions.

热电冷却：

Another advanced technology in the thermal management system is Thermoelectric cooling (TEC). This technology enables the user to control the temperature by adjusting the voltage supply. The design incorporates the liquid cooling material to remove heat from the batteries and is known to be most successful in the simulated trials.

报告概述：

该报告涵盖了：

• Market overview


• COVID 19 Analysis


• 市场动态


• Cumulative growth analysis


• 价值链分析


• Segment overview


• Regional analysis


• Competitive landscape


• 近期发展

Segmentation Table:

By System:

• 加热，通风和空调


• 动力火车冷却


• Fluid transport


• Others

By component type:

• 发动机


• Battery


• Cabin area

通过技术：

• Active transmission warmup


• 废气再循环


• Reduced HVAC system loading


• Others

By application:

• Engine cooling


• Air conditioning


• 加热转向


• 废热恢复


• Transmission system


• 加热/通风的座椅


• Others

按车辆类型：

• Battery electric vehicle


• 混合动力汽车


• Plug-in hybrid electric vehicle

Report Scope:

Report Attribute/Metric	Details
Market Size	2030：显着价值
CAGR	9％CAGR（2022-2030）
Base Year	2021
Forecast Period	2022-2030
Historical Data	2019 & 2020
预测单元	Value (USD Million)
Report Coverage	Revenue Forecast, Competitive Landscape, Growth Factors, and Trends
Segments Covered	系统，组件类型，技术，应用，车辆类型，区域
Geographies Covered	North America, Europe, Asia-Pacific, and Rest of the World (RoW)
Key Vendors	Borgwarner Inc.（美国）, Robert Bosch GmbH (Germany), Dana Limited (US), VOSS Automotive GmbH (Germany), Modine Manufacturing Company (US), Denso Corporation (Japan), MAHLE GmbH (Germany), Valeo (France), Gentherm (US), and Hanon Systems (South Korea)
Key Market Opportunities	Increasing production and sales of electric cars globally Increase in the production of e-vehicles and electric car battery cooling system Increasing investments by public and private players to develop Increased government backing and support
Key Market Drivers	Growing demand for energy-efficient battery-powered devices Growing adoption of power modules including intelligent power module (IPM) 人口增长，改善发展中国家的经济

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