The global electric coolant pump market for passenger cars to grow at a CAGR of 14.80% during the period 2016-2020.
The report covers the present scenario and the growth prospects of the global electric coolant pump market for passenger cars for 2016-2020. To calculate the market size, the report considers the bottom-up approach where the volume of the vehicles is equipped with electric coolant pumps. The report also includes a discussion of the key vendors operating in this market.
Changes are also being made in the vehicles to support the self-driving features. There has been a trend where the self-parking is coming down from luxury cars to the economical cars. Cars equipped with adaptive cruise control have radar and laser systems installed to automate navigation. If the driver is not able to slow down the vehicles and there is a high probability of collision, then electronic brakes will get activated and will cause the vehicle to stop and prevent it from a possible collision. This is how the increase in electrification is playing a major role in improving the overall efficiency of the vehicle.
According to the report, growing concern for increased emission of GHG will be a key driver for market growth. Electricity production from fossil fuels is the major contributor for the emission of greenhouse gases. Around 30% of the total greenhouse gases produced in the US is produced from fossil fuels. The second major contributor to greenhouse gases is the automotive industry. Around 26% of the total emitted greenhouse gas is from transportation, which includes emission from cars, trucks, buses, ships, planes, and trains.
Further, the report states that installation of electric coolant pumps requires upgrading of the cooling system, which can be a big challenge for the electric coolant pump market. The radiator and the fan assembly needs to be upgraded to accommodate the electric coolant pump. Engines with larger radiators will have more heat dissipation, as the coolant provided to it will rapidly move around the radiator. In such cases, it will be required to improve the assembly of the radiator to accommodate the electric coolant pump. Also, during idle time, the time required for the electric coolant pump to dissipate the heat will increase, and in such cases a larger radiator would give more surface area to dissipate the heat.
Key Topics Covered:
Part 01: Executive summary
Part 02: Scope of the report
Part 03: Market research methodology
Part 04: Introduction
Part 05: Market landscape
Part 06: Market segmentation by engine capacity type
Part 07: Geographical segmentation
Part 08: Key leading countries
Part 09: Market drivers
Part 10: Impact of drivers
Part 11: Market challenges
Part 12: Impact of drivers and challenges
Part 13: Market trends
Part 14: Vendor landscape
Part 15: Key vendor analysis
Part 16: Appendix
For more information about this report visit http://www.researchandmarkets.com/research/tt9f7w/global_electric
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SOURCE Research and Markets