Chicago, April 24, 2024 (GLOBE NEWSWIRE) -- Electric Coolant Pump Market is projected to grow from USD 1.9 billion in 2024 to USD 3.9 billion by 2030 at a CAGR of 12.8% during the forecast period, according to a new report by MarketsandMarkets™.
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Report Attributes | Details |
Market size value in 2024: | USD 1.9 billion |
Projected to reach 2030: | USD 3.9 billion |
CAGR: | 12.8% |
Base Year Considered: | 2023 |
Forecast Period: | 2024-2030 |
Largest Market: | Asia Pacific |
Region Covered: | Asia Pacific, Europe, North America, and Rest of the World |
Segments Covered: | By Application, Voltage Type, By Type, Sealless by Type, Electric Vehicle Type, Electric Vehicle Use, ICE Vehicle Type, Wattage Range, Communication Interface and region |
Companies Covered: | Continental AG (Germany), Aisin Seiki Co., Ltd. (Japan), Robert Bosch GmbH (Germany), Rheinmetall AG(Germany), MAHLE GmbH (Germany), Denso Corporation (Japan), Hanon Systems (South Korea), and Schaeffler AG (Germany). |
The growth of the electric coolant pump industry is influenced by factors such as growing stringency in emission regulations with decreased emission limits, where electric coolant pumps can help reduce engine load and lower emissions. Factors such as the increase in hybrid and plug-in hybrid electric vehicles and powerful GDI engines installed with gasoline turbochargers are also estimated to boost the market for electric coolant pumps. These factors fuel continuous developments in pump specifications like power output, and increasing collaborations between electric coolant manufacturers and OEMs drive its growing popularity. Therefore, the electric coolant pump market is expected to witness significant growth in the future.
“12 V electric coolant pumps hold the largest share of electric coolant pumps during the forecast period.”
Most electric and hybrid passenger and light commercial vehicles have lower voltage and power requirements. They are usually fitted with a 12V electrical system for main and auxiliary applications such as batteries, inverters, power electronics, lighting, etc. This makes the 12 V electric coolant pumps lead the global electric coolant pumps market. The compact design of the 12V electric coolant pump allows for flexible placement within the vehicle's powertrain, enabling efficient packaging and integration with other vehicle systems. It also offers higher efficiency with less energy consumption, and components required to support a 12V electric coolant pump are widely available and relatively inexpensive compared to higher voltage systems. Thus, it is considered a cost-effective solution for vehicle thermal management.
Moreover, technical benefits such as reduced contact erosion faults are expected to continuously push automakers and tier-1 suppliers to develop 12V electric coolant pumps with sophisticated technologies. For instance, Robert Bosch developed an electric coolant pump named PCE 2.0 which is 12 V that has a robust design that is suitable to absorb high vibrations and temperature resistance up to 140 degrees Celsius and applies to hybrid, electric vehicles, and internal combustion engines. A 12V coolant pump configuration fulfils the power demand of light-duty vehicles effectively and is sufficient for the cooling needs of key components; hence, it will continue to be considered a cost-effective solution for vehicle thermal management in the future.
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“Local Interconnect Network (LIN) is expected to be largest and fastest growing communication interface market by 2030.”
LIN is one of the recent communication interfaces developed to create a standard for low-cost communication in the automotive sector. It is a popular choice in electric vehicles due to its simple architecture, small size, and features like real-time feedback and diagnosis. In the LIN interface, the cost per node is two to three times lower than CAN, and increased use of electronics like switches and sensors has further paved the way for the usage of this communication interface. Additionally, LIN allows the control unit to receive diagnostic information from the coolant pump, such as fault codes or error messages indicating issues with pump operation or system performance, thus enabling early detection of faults and timely troubleshooting. Most OEMs use a 150 W LIN interface in their passenger car models. The LIN interface is suitable for the coolant flow rate used in passenger cars and is also a low-cost communication interface. LIN uses lower bandwidth and is sufficient for transferring the coolants through circuits, making them a suitable choice over the CAN interface. LIN’s simple protocol and lower data rates make implementing and integrating into electric coolant pump systems easier. This simplicity can reduce the development time and effort compared to CAN. As LIN operates at a lower data rate, it requires lower power consumption compared to CAN, and this is crucial for electric vehicles as less power consumption extends the battery life and overall vehicle efficiency. LIN allows for the connection of multiple sensors and actuators within a localized network, making it suitable for integrating additional features into the coolant pump system in the future.
In addition to this, most of the electric coolant pumps offered by major suppliers, such as Robert Bosch GmbH, Continental AG, Denso Corporation, and Rheinmetall, among others, are regulated by the LIN interface. They are applicable for cooling the battery, powertrain, and other auxiliary applications. Thus, with the growing advanced functionality of electric coolant pumps, the enablement of the LIN interface may witness significant growth in the coming years.
“Asia Pacific will be the leading electric coolant pump market over the forecast period.”
The Asia Pacific region emerges as the primary market for electric coolant pumps, led by China, a global hub, and Japan, a key automotive center, both holding substantial market shares. China's electric coolant pump market is poised for significant growth due to the increasing popularity of BEVs and hybrid turbocharged engines. For instance, according to the Electric Vehicle World Sales Database, China accounted for 65% of global EV sales in 2023. In addition to this, China exported around 900,000 EVs in 2023. Further, in India, implementing BS VI emission norms is a pivotal factor expected to propel market growth in the foreseeable future. The demand for 12 V electric coolant pumps with a power wattage range <150 W is higher in the Asia Pacific due to higher demand for economy electric vehicles requiring low-powered electric coolant pumps. Most of the OEMs from the Asia Pacific region use 12 V and <150 W electric coolant pumps in their electric vehicle models, which creates the opportunity for electric coolant pump suppliers such as Denso Corporation (Japan), Aisin Seiki Co., Ltd. (Japan), and Hanon Systems (South Korea) who are mainly developing 12 V electric coolant pumps.
In addition, E-trucks and buses have higher demands in countries like China, where the use of 24 V electric coolant pumps is high. For instance, according to PRI (Public Radio International), China constitutes about 99% of the world’s electric bus fleet. Thus, with growing sales of electric buses and commercial vehicles, the demand for 24 V electric coolant pumps is also expected to grow at a significant CAGR during the forecast period.
Moreover, the participation of major players such as Aisin Seiki Co., Ltd (Japan), Denso Corporation (Japan), Hanon Systems (South Korea), and GMB Corporation (Japan) is anticipated to create favorable opportunities in the electric coolant pump sector.
Key Market Players:
The Electric Coolant Pump Companies are Robert Bosch GmbH (Germany), Continental AG (Germany), Rheinmetall AG (Germany), Mahle GmbH (Germany), Denso Corporation (Japan), Aisin Seiki., Co. Ltd. (Japan), Concentric AB (Sweden), Schaeffler AG (Germany), and Hella GmbH & Co. KgAa (Germany).
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