バッテリー熱管理システムの市場シェアと業界展望2034

This report provides an in-depth analysis of the global battery thermal management systems market , focusing on market size, future growth, and overall industry direction. It explains how the increasing adoption of electric vehicles and the need for safe battery performance are supporting demand. The study includes a market assessment through 2026, growth forecasts through 2034, and compound annual growth rate (CAGR) analysis. It also focuses on the competitive landscape, regional trends, and technological advancements to help you gain a clear understanding of how the global battery thermal management systems market will evolve over the forecast period.

Market size and forecast

The battery thermal management systems market  was valued at USD 4.23 billion in 2025. The market size is expected to expand from USD 4.78 billion in 2026 to USD 12.64 billion by 2034, registering a compound annual growth rate (CAGR) of 12.93% during the forecast period. This growth is driven by the increasing production of electric vehicles, growing focus on battery safety, and the need to maintain battery efficiency under all operating conditions.

This report provides insights into market growth patterns, competitive positioning, and regional performance. It explains how technological advancements and industry investments are shaping demand. It also highlights the long-term opportunities and challenges that will impact market expansion.

Market Segmentation

The market is segmented based on propulsion method, technology, vehicle type, and battery type. These segments help explain how different vehicle platforms and battery technologies impact the demand for thermal management systems.

By propulsion

This segment will highlight the need for effective temperature control to ensure battery performance and safety in various electric propulsion systems.

• Battery Electric Vehicles (BEVs) :
  BEVs are completely reliant on batteries, so thermal management is essential to maintain driving range, charging efficiency, and battery life under a variety of conditions.
• Plug-in Hybrid Electric Vehicles (PHEVs):
  PHEVs use both electrical and fuel systems, so balanced thermal control is required to manage battery performance during mixed driving modes.
• Fuel Cell Electric Vehicles (FCEVs):
  These vehicles require thermal systems to manage the temperature of the battery and fuel cell for stable and reliable operation.

By Technology

This segment discusses the various system designs used to regulate battery temperature.

• Active Systems:
  Active systems use components such as liquid cooling and air conditioning to actively control the battery's temperature and improve performance.
• Passive Systems:
  Passive systems use natural heat dissipation and insulation to manage temperature while reducing system complexity.

By vehicle type

The vehicle category influences the size, complexity, and performance requirements of the system.

• Passenger Cars:
  Passenger car thermal systems focus on safety, driving range and user comfort.
• Commercial vehicles:
  These vehicles require durable thermal solutions that can withstand heavy use and long hours of operation.
• Other:
  This includes specialty and off-road vehicles where battery protection is still important.

By battery type

Different battery chemistries require customized thermal management approaches.

• Lithium-ion batteries:
  Widely used due to their high energy density, but require precise temperature control for safety and longevity.
• Nickel-metal hydride batteries:
  These batteries require stable thermal control to maintain efficiency and reliability.
• Lead-acid batteries:
  Thermal management helps improve performance and reduce degradation under harsh conditions.
• Solid-state batteries:
  A new type of battery that requires advanced thermal solutions for optimal operation.

Key Players

The market is moderately competitive, with companies focusing on technology improvements and system integration.

• Robert Bosch GmbH:
  Develops advanced thermal solutions integrated into vehicle systems.
• Hanon Systems:
  Specializes in vehicle thermal and energy management technology.
• Gentherm:
  Focuses on thermal systems that enhance battery performance and safety.
• Mahle GmbH:
  Provides thermal management solutions designed for electric vehicles.
• Valeo:
  Developing efficient and scalable battery cooling and heating technologies.

Companies are actively investing in innovation and partnerships to strengthen their market position.

Regional Insights

Supported by the increasing adoption of electric vehicles, the market is showing steady growth across major regions.

• North America:
  Growth is supported by robust EV demand and technological developments.
• Europe:
  Regulatory support for clean mobility will encourage the deployment of advanced thermal systems.
• Asia Pacific:
  High vehicle production and battery manufacturing are supporting market expansion.
• Latin America:
  The gradual introduction of EVs is contributing to the steady growth of the market.
• Middle East and Africa:
  Growing awareness of electric vehicles is supporting new demand.

Source:
https://www.valuemarketresearch.com/report/battery-thermal-management-system-btms-market