Electric Coolant Pump Market Size, Share, Trends Analysis [2030]

Global Electric Coolant Pump Market Dynamics

Driver: Technical benefits of electric coolant pumps over mechanical pumps.

There is an increased demand for fuel-efficient technologies in light of stricter global emission regulations. Electric coolant pumps offer control over coolant flow requirements, which is one of the significant technical benefits of electric coolant pumps. This allows for reduced fuel consumption and exhaust emissions. Instead of a 2.0 kW rated input conventional water pump, an electric pump with 0.2 kW can be used in vehicles with up to 200 kW rated engines. The compatibility of electric coolant pumps for different engine capacity ranges to drive the electric coolant pump applications in various vehicle models.Other technical benefits like the faster response of the heater after a cold-engine start and added installation latitude (the pump can be installed anywhere in the engine compartment) are also driving the popularity of electric coolant pumps amongst automakers. Considering the shift towards powertrain electrification, the use of electrically driven coolant pumps for electric and hybrid vehicle technologies is expected to grow. Considering the mentioned advantages, the electric coolant pump market will likely witness significant growth in the coming years.Driver: Increasing sales of turbocharged enginesElectric coolant pumps play a crucial role in turbocharged engines due to the higher cooling performance requirement than conventional engines. With increasing stringency of emission norms worldwide, Turbocharged Gasoline Direct Injection (TGDI) engines are also gaining in demand due to reduced emissions and higher fuel efficiency. The increasing trend towards downsized turbocharged gasoline engines is driven by the need for improved fuel efficiency and reduced emissions without compromising performance. According to MarketsandMarkets analysis, North America accounted for ~15% of the total global gasoline passenger car market in . North America's gasoline passenger car market is expected to increase at a CAGR of 8.8%. The Asia Pacific region accounted for 62% of the turbocharged gasoline passenger car market in , with a projected CAGR of 6.6% between and . The availability of models with turbocharged engines is also expected to increase, subsequently driving the electric coolant pump market. The Mitsubishi Triton, also known as the Mitsubishi L200, is a pickup truck with a turbocharged gasoline engine. Turbocharged engines are often marketed as a premium driving experience due to their power, efficiency, and refinement; this has helped shift consumer perceptions towards turbocharged engines. Turbocharged engines are increasingly popular in mainstream passenger cars, SUVs, and light trucks. This growing popularity is expected to drive the market for electric coolant pumps.

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Restraint: Relatively high product cost and maintenance

The electric coolant pump comprises hydraulics, canned motors, and electronic components. The electric coolant pump operates via designed electronics that receive relevant information from the motor management system. The use of electronics and a complex pump design results in a more expensive coolant pump, which, in turn, increases the cost of the vehicle. Electric coolant pumps also need to be replaced every 60,000 miles as a preventive measure for the proper functioning of the vehicles. However, according to industry experts' insights, these pumps are rarely replaced. As per primary respondents, the replacement (including installation cost) of an electric coolant pump usually costs between USD 150 and 500, depending upon the model of the car. Due to the price-sensitive nature of various Asian economies, such as India and China, people opt for vehicles using mechanical water pumps with relatively lower costs.

Opportunities: Development of advanced electric coolant pump technology and strategic partnerships between OEMs

Automakers are constantly pressured to develop environmentally friendly technologies to comply with global emission norms. Companies continually introduce new thermal cooling products to reduce CO2 emissions, increase vehicle efficiency, and maintain competitiveness. For instance, in September , DENSO Corporation developed the "Every Cool" advanced cooling system, which provides comfort and energy efficiency when commercial vehicle engines are off. "Every Cool," the company's latest innovation, is a cooling system designed when a truck's engine is idle. Similarly, in February , Bosch launched ECP 160 for combustion engines. Strategic partnerships between major OEMs are also likely to drive the penetration of electric coolant pumps in vehicles. They are expected to create future opportunities for the electric coolant pump market. For instance, in January , Rheinmetall Automotive AG formed a supply agreement with a major OEM to supply pumps for electric vehicles for eight years.These strategic partnerships and developments are expected to increase the popularity of electric coolant pumps among OEMs, resulting in their increased adoption in various car models. Advancements in motor design, materials, and control mechanisms have led to the development of more advanced and less energy-consuming electric coolant pumps. Electric coolant pumps are increasingly integrated into vehicle control systems, providing seamless communication with other vehicle components. This integration allows for more coordinated operation and optimization of overall vehicle performance. Advancements in materials and manufacturing techniques have made the pumps lightweight and compact.Moreover, customization options for these pumps per OEM's requirement have led to a rise in demand. OEMs focus on electric pumps for their customization and the precise flow of coolants as and when required. Because of its variable speed control, electronic pump technology allows precise pumping rates according to real-time cooling demand.

Challenges: Complex Design with Different Electronics Leads to Failure of Electric Coolant Pump Many Times

Due to its complex design with electronics, the electric coolant pump is prone to failure, which may be caused by an electronics failure or a worn-out auxiliary pump motor. Overheating of the ICE can also lead to the failure of the electric coolant pump, as the circuit boards are prone to short circuits and may lead to engine fire. It can also lead to shaft seal breakage due to increased cooling system pressure. In , BMW of North America recalled 48,000 vehicles due to overheating the electric auxiliary water pumps. Similar incidents were reported in and in BMW cars. For instance, in , BMW reported that vehicles experienced engine compartment fires due to circuit board degradation of the auxiliary water pump. Electric coolant pumps may require higher speeds to maintain the desired flow rate, which can lead to increased power consumption. This increased power consumption generates significant heat, which must also be dissipated. The high power consumption decreases the efficiency of the electric pump and the vehicle. These challenges associated with electric coolant pumps may hinder their mass adoption, impacting market growth potential.market ecosystemThe ecosystem analysis highlights various players in the electric coolant pump market ecosystem, primarily represented by manufacturers, component manufacturers (tier-I)/technology providers, and dealers & distributors.

The study involved four major activities in estimating the current size of the electric coolant pump market—exhaustive secondary research collected information on the market, peer, and parent markets. The next step was to validate these findings and assumptions and size them with industry experts across value chains through primary research. The bottom-up and top-down approaches were employed to estimate the complete market size. After that, market breakdown and data triangulation processes were used to estimate the market size of segments and subsegments.

Secondary Research

In the secondary research process, various secondary sources such as company annual reports/presentations, press releases, industry association publications [such as publications of vehicle production, OEMs, EEA (European Energy Agency), German Association of the Automotive Industry or VDA, ACEA (European Automobile Manufacturers Association), Society of Automobile Engineers (SAE), country-level automotive associations and trade organizations], related magazine articles, directories, technical handbooks, World Economic Outlook, trade websites, and technical articles have been used to identify and collect information useful for an extensive commercial study of the electric coolant pump market.

Primary Research

In the primary research process, various primary sources from both the supply and demand sides were interviewed to obtain qualitative and quantitative information on the market. Primary interviews have been conducted to gather insights such as electric coolant pump demand per vehicle type, future technology trends, and upcoming material level changes in the electric coolant pumps. The primary sources from the supply side included various industry experts, such as CXOs, vice presidents, directors from business development, marketing, product development/innovation teams, and related key executives from various key companies. Below is the breakdown of primary respondents:

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Market Size Estimation

The bottom-up and top-down approaches were used to estimate and validate the total market size. These methods were also used extensively to estimate the size of various sub-segments in the market. The research methodology used to estimate the market size includes the following:

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• The key players in the industry and markets have been identified through extensive secondary research.
• The industry’s supply chain and market size, in terms of value, have been determined through primary and secondary research processes.
• All percentage shares, splits, and breakdowns have been determined using secondary sources and verified through primary sources.

Bottom-Up Approach For Electric Cars, By Vehicle Type And Vehicle Use

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The top-down approach was used to estimate and validate the size of the electric coolant pump market by application in terms of value and volume. The market by application segment, by volume, was further multiplied by the average OE price of electric coolant pumps used in respective applications, giving the market, by application, in terms of value at the regional level. The regional-level markets were then applied to the global market.

Top-Down Approach: Electric Coolant Pump Market, By Application

Data Triangulation

After arriving at the overall market size, the market was split into several segments and sub-segments—using the market size estimation processes as explained above. Data triangulation and market breakdown procedures were employed to complete the overall market engineering process and arrive at each market segment's and subsegment's statistics. The data was triangulated by studying various factors and trends from both the demand and supply sides.

Market Definition

The electric coolant pump market for vehicles includes the manufacturing, distributing, and selling of pumps specifically designed to circulate coolant within vehicle cooling systems using electric power. These pumps are primarily utilized in various vehicles, including internal combustion engines (ICE), hybrid cars, and electric vehicles (EVs), to regulate engine temperature and ensure optimal operating conditions.

List of key Stakeholders

• Automobile OEMs
• Automotive Components Manufacturers
• Automotive Electronics Council (AEC)
• Autonomous Vehicle Technology Providers
• Association of European Automotive and Industrial Battery Manufacturers (EUROBAT)
• Country-level Automotive Associations
• Country-level Electric Vehicle Associations and Trade Organizations
• Databases such as Factiva and Bloomberg
• Department of Transportation (DoT)
• Electric Auto Association
• European Alternative Fuels Observatory (EAFO)
• Electric Vehicle Association of Asia Pacific (EVAAP)
• Energy Efficiency and Renewable Energy (EERE)
• Environmental Protection Agency (EPA)
• European Automobile Manufacturers' Association (ACEA)
• Federal Communications Commission (FCC)
• Government and Research Organizations
• Heavy-duty Manufacturers Association (HDMA)
• International Energy Agency (IEA)
• Institute of Electrical and Electronics Engineers (IEEE)
• International Council on Clean Transportation (ICCT)
• International Electrotechnical Commission (IEC)
• International Organization of Motor Vehicle Manufacturers (OICA)
• Investor presentations and annual reports of key market players
• Investor Presentations and Annual Reports of Key Market Players
• National Highway Traffic Safety Administration (NHTSA)
• Other Component Manufacturer Associations
• Ridesharing Service Providers
• Society of Manufacturers of Electric Vehicles (SMEV)
• Wiring Harness Manufacturer's Association (WHMA)
• World Electric Vehicle Association (WEVA)

Report Objectives

• To analyze and forecast ( to ) the market size, in terms of volume (‘000 units) and value (USD million/billion), for the electric coolant pump market
• To define, describe, and forecast the market size by application, type, sealless type,  electric vehicle type, electric vehicle use, ICE vehicle type, voltage type, power output, communication interface, and region
• To understand the market dynamics (drivers, restraints, opportunities, and challenges) of the market
• To analyze the regional-level market ranking of key players operating in the market
• To analyze the global market share analysis of key players operating in the market
• To understand the dynamics of the market competitors and distinguish them into visionary leaders, innovators, emerging companies, and dynamic differentiators according to the strength of their product portfolio and business strategies
• To analyze recent developments, alliances, joint ventures, mergers & acquisitions, new product launches, and other activities carried out by key industry players in the electric coolant pump market

Available Customizations

With the given market data, MarketsandMarkets offers customizations based on the company’s specific needs.

The following customization options are available for the report:

Electric Coolant Pump Market For Electric Passenger Cars By Vehicle Type

• BEVs
• PHEVs

Note: The electric coolant pump market for electric passenger cars, by vehicle type, will be further offered at the regional level for regions: Asia Pacific, Europe, North America, and the Rest of the World.

Electric Coolant Pump Market For Electric Commercial Vehicles, By Vehicle Type

• BEVs
• PHEVs

Note: The electric coolant pump Market for electric commercial vehicles, by vehicle type, will be provided at the regional level for regions: Asia Pacific, Europe, North America, and the Rest of the World.

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Electric Coolant Pump Market For By 48v Passenger Cars By Region

• Asia Pacific
• Europe
• North America
• Rest of the World