Fluid Transfer System For Electric And Hybrid Vehicle Market Global Market Synopsis

The Fluid Transfer System for the Electric and Hybrid Vehicle market estimated at USD 20.37 Billion in the year 2023, is projected to reach a revised size of USD 34.71 Billion by 2032, growing at a CAGR of 6.1% over the analysis period 2024-2032

• The hydraulic systems of hybrid electric vehicles are designed to control the flow of fluids including coolant, hydraulic fluid, and transmission oil in the vehicle. This is done in order to ensure proper temperature control as well as the efficiency of sub-systems which would increase productivity and efficiency using technologies such as electric pumps and electro-hydraulic valves.
• A steady growth of the global market for fluid transfer systems in electric and hybrid cars can be attributed to the expanding use of electric and hybrid cars all around the world. These systems are the backbone of all these operations, providing cooling for the batteries, electric motors, and power electronics among others. The growth of environmental awareness and stricter emission regulations result in automakers investing more in electric and hybrid vehicles consequently paving the way for the growing demand of fluid transfer systems.
• The technological progress in fluid transport, including lightweight materials and enhanced thermal management, is one of the major driving forces of this market. Apart from that, it is expected that the expanding electric vehicle infrastructure and government incentives for electric vehicle adopting will propel the market in the coming years. Nevertheless, the significant initial costs and the lack of reliability of fluid transfer mechanisms could hamper the market growth to a limited extent.
• The fluid transfer systems market for fully electric and hybrid vehicles is experiencing a switch towards the use of more energy-efficient and eco-friendly solutions. The manufacturers are increasingly putting a focus on R&D to produce fluid transfer technologies that help enhance vehicle performance while minimizing the environmental footprint. These can be exemplified by the creation leak-proof and corrosion-resistant materials, as well as the inclusion of smart sensors and controls for real-time monitoring and optimum fluid flow.
• The partnerships of automakers and fluid transfer system suppliers are fostering new products and standards across the industry, including a common shipment of vehicle models and components. Seeing as the demand for electric and hybrid cars is on the rise, which is driven by environmental sustainability issues and air quality concerns, the fluid transfer system market is heading towards expansion. On the other hand, the market vendors should face the issues of cost-effectiveness and scalability in order to exploit the available opportunities in this constantly shifting sector.

Fluid Transfer System For Electric And Hybrid Vehicle Market Trend Analysis

Increased Adoption of Lightweight Materials

• The main trend in this market is related to the use of lightweight materials in fluid transfer systems for electric and hybrid vehicles due to the need for higher performance and efficiency. Lighter materials such as aluminum, titanium, and a vast range of composites have benefits which include reduction of the overall vehicle weight, improved fuel efficiency, and increased range for electric vehicles.
• · The materials used display excellent corrosion resistance and durability with lifespan reliability of the fluid transfer systems in automobiles. The tendency of the automotive sector in achieving sustainability and emission reduction is going to lead to an increase in demand for electric and hybrid vehicles, which will in turn promote the use of lightweight materials in the fluid systems to maintain the tough regulatory requirements and consumer tastes. The change testifies to a radical change in automotive design and manufacturing towards more modern and green alternatives.

Integrated Fluid Management Systems with the Design and Maintenance Made Easy

• Implementing integrated fluid management systems provides a comprehensive solution to the fluid design and maintenance issues arising in electric and hybrid vehicles. Through combining different fluids into one system manufacturers can simplify designing and maintenance needs. This integrated approach increase the efficiency while reduce the complexity as well as the risk of possible failures or leaks. With the electric and hybrid vehicle market on the fast track, where lightness and compactness are the key issues, the integrated fluid management systems have an attractive edge. These sophisticated systems allow for better vehicles performance and reliability but also follow the strict safety and governmental regulations of the automotive industry.
• These systems are not only useful for streamlining the design and maintenance but they offer great benefits in terms of performance and sustainability in the electric and hybrid vehicles market. This integrated system of fluid components including cooling, lubricating, and power steering systems, maximizes the available space in the vehicle design. This is especially important for electric and hybrid vehicles in which every gram of weight and cubic centimeter of space matters to extend the range and enhance efficiency in total.
• The consolidating of fluid systems reduces the number of possible failure points, thus increases vehicle reliability and safety. In addition, integrated fluid management systems will simplify upgrades and modifications, thus providing manufacturers with the capacity to react to technological advancements and customers' preferences more quickly. The evolution of fluid management systems will keep pace with the rise in demand for electric and hybrid vehicles and will increasingly drive innovation while pushing the sustainability of transportation forward..

Fluid Transfer System for Electric and Hybrid Vehicle Market  Market Segment Analysis:

Fluid Transfer System for Electric and Hybrid Vehicle Market Segmented based on System, Vehicle Type and Battery.

By  System , Transmission Oil Cooling Lines  segment is expected to dominate the market during the forecast period

• Air Suspension Lines: These lines are part of the air suspension system that helps to control vehicle height through control of air pressure in the suspension components.
• Brake Lines: Hydraulic brake lines are responsible for transmitting pressure from the brake master cylinder to the brake calipers or wheel cylinders, which ultimately lead in to proper braking.
• AC Lines: AC lines are responsible to make refrigerant transfer from the AC system components including the compressor, condenser, evaporator, and expansion valve.
• Transmission Oil Cooling Lines: These lines are the transmission cooling system part and assist in controlling the temperature of the transmission fluid to avoid overheating and to guarantee the transmission operation is smooth.
• Coolant Lines: Cooling lines carry coolant throughout the engine including the radiator, heater core, and other parts to moderate engine temperature and avoid overheating.
• Other: In this category are included many other fluid transfer parts for example power steering lines, fuel lines, washer fluid lines, etc. which depend on the design and configuration of the vehicle.

By  Vehicle Type, Battery Electric Vehicle (BEV)  segment is expected to dominate the market during the forecast period

• Plug-in Hybrid Vehicle (PHEV): PHEVs feature an internal combustion engine, electric motor and battery pack all in one. The PCU in PHEVs needs to balance the power flow among the engine, electric motor, and battery system while maximizing efficiency and performance. Demand for PCUs in PHEVs is affected by factors including the government regulations, consumers’ desire for the hybrid technology, and charging infrastructure availability.
• Battery Electric Vehicle (BEV): BEVs are the vehicles that are solely dependent on electric power which is stored in a battery pack, for propulsion. The PCU in BEVs performs a significant function in the activity of power distribution, motor control and energy regeneration. The BEV PCU must have high efficiency in order to maximize the driving range and performance, and thus the power electronics and thermal management advances are indispensable.
• Hybrid Electric Vehicle (HEV): HEVs employ both the internal combustion engine and the electric motor, yet unlike the PHEVs, they do not plug in for recharging. The PCUs in HEVs are the components that ensure a smooth shift from electric to combustion modes, thus maximizing the efficiency in terms of fuel consumption and emissions levels. HEV PCUs nearly always strive for lightweight design and small size in order to accommodate performance requirements and limited space.

Fluid Transfer System for Electric and Hybrid Vehicle Market Regional Insights:

Asia Pacific is the largest marketplace for fluid transfer systems in electric and hybrid vehicles.

• The Asia Pacific region has been a driving force behind the market for fluid transfer systems in electrical and hybrid vehicles. As a result of the combination of advanced technology, robust manufacturing capabilities and a developing automotive industry, countries in the region are at the cutting edge of the design and production sector in automotive. Nations such as Japan, South Korea, and China have emerged as key market players due to major automotive manufacturers investing heavily in research and development, focusing on improving the effectiveness and performance of fluid transfer systems. This monopoly has its base on the sustainable mobility solution promotion by the region leading to adoption of electric and hybrid vehicles which in turn generate demand for the related parts. While the global automotive industry veers towards electrification, the Asia Pacific region's position in the field of fluid transfer systems is in no danger of changing. This evolution of automotive technology will shape the world's sustainability in the future.
• Technological competitiveness and production capacity are crucial factors for the Asia-Pacific region, which is supported by a conducive ecosystem comprising government initiatives, favorable policies, and strategic partnerships. Governments are implementing the stringent emission regulations and providing incentives to encourage the utilization of electric and hybrid vehicles. Consequently, investors are attracted to related technologies such as fluid transfer systems.

 Active Key Players in the Fluid Transfer System for Electric and Hybrid Vehicle Market Market  

• AKWEL
• Castello Italia SpA
• ContiTech AG
• Cooper Standard
• Gates Corporation
• Hutchinson SA
• Kongsberg Automotive
• Lander Automotive LTD
• TI Fluid Systems
• Continental AG
• Robert Bosch GmbH
• Dana Incorporated
• Delphi Technologies
• Eaton Corporation
• Aptiv PLC
• BorgWarner Inc.
• Magna International Inc.
• Mahle GmbH
• Schaeffler AG
• Valeo SA
• Yazaki Corporation
• Freudenberg Sealing Technologies
• Saint-Gobain
• Trelleborg AB
• Sumitomo Riko Company Limited
• Tristone Flowtech Holding SA
• Other key player

Key Industry Developments in the Electric Vehicle Power Control Unit  Market:

• In August 2023, Lander Tubular Products entered into a strategic partnership with In-Comm Training Services Ltd. (UK). The relationship will cover all recruitment and selection, advice on tapping into funding, and induction process and training, with In-Comm trainers and assessors set to be permanently based at Lander Tubular Products’ internal academy at its Woodgate Business Park factory in Birmingham.
• In March 2023, Kongsberg Automotive secured a contract to supply a fluid transfer system to a Tier 1 automotive supplier in North America. The company’s FTS unit will supply the Fluoro-Comp hoses and stainless-steel braided polytetrafluoroethylene brake lines over 4 years.

Chapter 1: Introduction

 1.1 Research Objectives

 1.2 Research Methodology

 1.3 Research Process

 1.4 Scope and Coverage

  1.4.1 Market Definition

  1.4.2 Key Questions Answered

 1.5 Market Segmentation

Chapter 2: Executive Summary

Chapter 3: Growth Opportunities by Segment

 3.1 By System

 3.2 By Vehicle Type

Chapter 4: Market Landscape

 4.1 Porter's Five Forces Analysis

  4.1.1 Bargaining Power of Supplier

  4.1.2 Threat of New Entrants

  4.1.3 Threat of Substitutes

  4.1.4 Competitive Rivalry

  4.1.5 Bargaining Power Among Buyers

 4.2 Industry Value Chain Analysis

 4.3 Market Dynamics

  4.3.1 Drivers

  4.3.2 Restraints

  4.3.3 Opportunities

  4.5.4 Challenges

 4.4 Pestle Analysis

 4.5 Technological Roadmap

 4.6 Regulatory Landscape

 4.7 SWOT Analysis

 4.8 Price Trend Analysis

 4.9 Patent Analysis

 4.10 Analysis of the Impact of Covid-19

  4.10.1 Impact on the Overall Market

  4.10.2 Impact on the Supply Chain

  4.10.3 Impact on the Key Manufacturers

  4.10.4 Impact on the Pricing

Chapter 5: Fluid Transfer System for Electric and Hybrid Vehicle Market by System

 5.1 Fluid Transfer System for Electric and Hybrid Vehicle Market Overview Snapshot and Growth Engine

 5.2 Fluid Transfer System for Electric and Hybrid Vehicle Market Overview

 5.3 Air Suspension Lines

  5.3.1 Introduction and Market Overview

  5.3.2 Historic and Forecasted Market Size (2017-2032F)

  5.3.3 Key Market Trends, Growth Factors and Opportunities

  5.3.4 Air Suspension Lines: Geographic Segmentation

 5.4 Brake Lines

  5.4.1 Introduction and Market Overview

  5.4.2 Historic and Forecasted Market Size (2017-2032F)

  5.4.3 Key Market Trends, Growth Factors and Opportunities

  5.4.4 Brake Lines: Geographic Segmentation

 5.5 AC Lines

  5.5.1 Introduction and Market Overview

  5.5.2 Historic and Forecasted Market Size (2017-2032F)

  5.5.3 Key Market Trends, Growth Factors and Opportunities

  5.5.4 AC Lines: Geographic Segmentation

 5.6 Transmission Oil Cooling Lines

  5.6.1 Introduction and Market Overview

  5.6.2 Historic and Forecasted Market Size (2017-2032F)

  5.6.3 Key Market Trends, Growth Factors and Opportunities

  5.6.4 Transmission Oil Cooling Lines: Geographic Segmentation

 5.7 Coolant Lines

  5.7.1 Introduction and Market Overview

  5.7.2 Historic and Forecasted Market Size (2017-2032F)

  5.7.3 Key Market Trends, Growth Factors and Opportunities

  5.7.4 Coolant Lines: Geographic Segmentation

 5.8 Other

  5.8.1 Introduction and Market Overview

  5.8.2 Historic and Forecasted Market Size (2017-2032F)

  5.8.3 Key Market Trends, Growth Factors and Opportunities

  5.8.4 Other: Geographic Segmentation

Chapter 6: Fluid Transfer System for Electric and Hybrid Vehicle Market by Vehicle Type

 6.1 Fluid Transfer System for Electric and Hybrid Vehicle Market Overview Snapshot and Growth Engine

 6.2 Fluid Transfer System for Electric and Hybrid Vehicle Market Overview

 6.3 Plug-in Hybrid Vehicle (PHEV)

  6.3.1 Introduction and Market Overview

  6.3.2 Historic and Forecasted Market Size (2017-2032F)

  6.3.3 Key Market Trends, Growth Factors and Opportunities

  6.3.4 Plug-in Hybrid Vehicle (PHEV): Geographic Segmentation

 6.4 Battery Electric Vehicle (BEV)

  6.4.1 Introduction and Market Overview

  6.4.2 Historic and Forecasted Market Size (2017-2032F)

  6.4.3 Key Market Trends, Growth Factors and Opportunities

  6.4.4 Battery Electric Vehicle (BEV): Geographic Segmentation

 6.5 Hybrid Electric Vehicle (HEV)

  6.5.1 Introduction and Market Overview

  6.5.2 Historic and Forecasted Market Size (2017-2032F)

  6.5.3 Key Market Trends, Growth Factors and Opportunities

  6.5.4 Hybrid Electric Vehicle (HEV): Geographic Segmentation

Chapter 7: Company Profiles and Competitive Analysis

 7.1 Competitive Landscape

  7.1.1 Competitive Positioning

  7.1.2 Fluid Transfer System for Electric and Hybrid Vehicle Sales and Market Share By Players

  7.1.3 Industry BCG Matrix

  7.1.4 Heat Map Analysis

  7.1.5 Fluid Transfer System for Electric and Hybrid Vehicle Industry Concentration Ratio (CR5 and HHI)

  7.1.6 Top 5 Fluid Transfer System for Electric and Hybrid Vehicle Players Market Share

  7.1.7 Mergers and Acquisitions

  7.1.8 Business Strategies By Top Players

 7.2 AKWEL

  7.2.1 Company Overview

  7.2.2 Key Executives

  7.2.3 Company Snapshot

  7.2.4 Operating Business Segments

  7.2.5 Product Portfolio

  7.2.6 Business Performance

  7.2.7 Key Strategic Moves and Recent Developments

  7.2.8 SWOT Analysis

 7.3 CASTELLO ITALIA SPA

 7.4 CONTITECH AG

 7.5 COOPER STANDARD

 7.6 GATES CORPORATION

 7.7 HUTCHINSON SA

 7.8 KONGSBERG AUTOMOTIVE

 7.9 LANDER AUTOMOTIVE LTD

 7.10 TI FLUID SYSTEMS

 7.11 TRISTONE FLOWTECH HOLDING SAS

 7.12 OTHER MAJOR PLAYERS

Chapter 8: Global Fluid Transfer System for Electric and Hybrid Vehicle Market Analysis, Insights and Forecast, 2016-2028

 8.1 Market Overview

 8.2 Historic and Forecasted Market Size By System

  8.2.1 Air Suspension Lines

  8.2.2 Brake Lines

  8.2.3 AC Lines

  8.2.4 Transmission Oil Cooling Lines

  8.2.5 Coolant Lines

  8.2.6 Other

 8.3 Historic and Forecasted Market Size By Vehicle Type

  8.3.1 Plug-in Hybrid Vehicle (PHEV)

  8.3.2 Battery Electric Vehicle (BEV)

  8.3.3 Hybrid Electric Vehicle (HEV)

Chapter 9: North America Fluid Transfer System for Electric and Hybrid Vehicle Market Analysis, Insights and Forecast, 2016-2028

 9.1 Key Market Trends, Growth Factors and Opportunities

 9.2 Impact of Covid-19

 9.3 Key Players

 9.4 Key Market Trends, Growth Factors and Opportunities

 9.4 Historic and Forecasted Market Size By System

  9.4.1 Air Suspension Lines

  9.4.2 Brake Lines

  9.4.3 AC Lines

  9.4.4 Transmission Oil Cooling Lines

  9.4.5 Coolant Lines

  9.4.6 Other

 9.5 Historic and Forecasted Market Size By Vehicle Type

  9.5.1 Plug-in Hybrid Vehicle (PHEV)

  9.5.2 Battery Electric Vehicle (BEV)

  9.5.3 Hybrid Electric Vehicle (HEV)

 9.6 Historic and Forecast Market Size by Country

  9.6.1 U.S.

  9.6.2 Canada

  9.6.3 Mexico

Chapter 10: Europe Fluid Transfer System for Electric and Hybrid Vehicle Market Analysis, Insights and Forecast, 2016-2028

 10.1 Key Market Trends, Growth Factors and Opportunities

 10.2 Impact of Covid-19

 10.3 Key Players

 10.4 Key Market Trends, Growth Factors and Opportunities

 10.4 Historic and Forecasted Market Size By System

  10.4.1 Air Suspension Lines

  10.4.2 Brake Lines

  10.4.3 AC Lines

  10.4.4 Transmission Oil Cooling Lines

  10.4.5 Coolant Lines

  10.4.6 Other

 10.5 Historic and Forecasted Market Size By Vehicle Type

  10.5.1 Plug-in Hybrid Vehicle (PHEV)

  10.5.2 Battery Electric Vehicle (BEV)

  10.5.3 Hybrid Electric Vehicle (HEV)

 10.6 Historic and Forecast Market Size by Country

  10.6.1 Germany

  10.6.2 U.K.

  10.6.3 France

  10.6.4 Italy

  10.6.5 Russia

  10.6.6 Spain

  10.6.7 Rest of Europe

Chapter 11: Asia-Pacific Fluid Transfer System for Electric and Hybrid Vehicle Market Analysis, Insights and Forecast, 2016-2028

 11.1 Key Market Trends, Growth Factors and Opportunities

 11.2 Impact of Covid-19

 11.3 Key Players

 11.4 Key Market Trends, Growth Factors and Opportunities

 11.4 Historic and Forecasted Market Size By System

  11.4.1 Air Suspension Lines

  11.4.2 Brake Lines

  11.4.3 AC Lines

  11.4.4 Transmission Oil Cooling Lines

  11.4.5 Coolant Lines

  11.4.6 Other

 11.5 Historic and Forecasted Market Size By Vehicle Type

  11.5.1 Plug-in Hybrid Vehicle (PHEV)

  11.5.2 Battery Electric Vehicle (BEV)

  11.5.3 Hybrid Electric Vehicle (HEV)

 11.6 Historic and Forecast Market Size by Country

  11.6.1 China

  11.6.2 India

  11.6.3 Japan

  11.6.4 Singapore

  11.6.5 Australia

  11.6.6 New Zealand

  11.6.7 Rest of APAC

Chapter 12: Middle East & Africa Fluid Transfer System for Electric and Hybrid Vehicle Market Analysis, Insights and Forecast, 2016-2028

 12.1 Key Market Trends, Growth Factors and Opportunities

 12.2 Impact of Covid-19

 12.3 Key Players

 12.4 Key Market Trends, Growth Factors and Opportunities

 12.4 Historic and Forecasted Market Size By System

  12.4.1 Air Suspension Lines

  12.4.2 Brake Lines

  12.4.3 AC Lines

  12.4.4 Transmission Oil Cooling Lines

  12.4.5 Coolant Lines

  12.4.6 Other

 12.5 Historic and Forecasted Market Size By Vehicle Type

  12.5.1 Plug-in Hybrid Vehicle (PHEV)

  12.5.2 Battery Electric Vehicle (BEV)

  12.5.3 Hybrid Electric Vehicle (HEV)

 12.6 Historic and Forecast Market Size by Country

  12.6.1 Turkey

  12.6.2 Saudi Arabia

  12.6.3 Iran

  12.6.4 UAE

  12.6.5 Africa

  12.6.6 Rest of MEA

Chapter 13: South America Fluid Transfer System for Electric and Hybrid Vehicle Market Analysis, Insights and Forecast, 2016-2028

 13.1 Key Market Trends, Growth Factors and Opportunities

 13.2 Impact of Covid-19

 13.3 Key Players

 13.4 Key Market Trends, Growth Factors and Opportunities

 13.4 Historic and Forecasted Market Size By System

  13.4.1 Air Suspension Lines

  13.4.2 Brake Lines

  13.4.3 AC Lines

  13.4.4 Transmission Oil Cooling Lines

  13.4.5 Coolant Lines

  13.4.6 Other

 13.5 Historic and Forecasted Market Size By Vehicle Type

  13.5.1 Plug-in Hybrid Vehicle (PHEV)

  13.5.2 Battery Electric Vehicle (BEV)

  13.5.3 Hybrid Electric Vehicle (HEV)

 13.6 Historic and Forecast Market Size by Country

  13.6.1 Brazil

  13.6.2 Argentina

  13.6.3 Rest of SA

Chapter 14 Investment Analysis

Chapter 15 Analyst Viewpoint and Conclusion

LIST OF TABLES

TABLE 001. EXECUTIVE SUMMARY
TABLE 002. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET BARGAINING POWER OF SUPPLIERS
TABLE 003. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET BARGAINING POWER OF CUSTOMERS
TABLE 004. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET COMPETITIVE RIVALRY
TABLE 005. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET THREAT OF NEW ENTRANTS
TABLE 006. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET THREAT OF SUBSTITUTES
TABLE 007. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET BY SYSTEM
TABLE 008. AIR SUSPENSION LINES MARKET OVERVIEW (2016-2028)
TABLE 009. BRAKE LINES MARKET OVERVIEW (2016-2028)
TABLE 010. AC LINES MARKET OVERVIEW (2016-2028)
TABLE 011. TRANSMISSION OIL COOLING LINES MARKET OVERVIEW (2016-2028)
TABLE 012. COOLANT LINES MARKET OVERVIEW (2016-2028)
TABLE 013. OTHER MARKET OVERVIEW (2016-2028)
TABLE 014. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET BY VEHICLE TYPE
TABLE 015. PLUG-IN HYBRID VEHICLE (PHEV) MARKET OVERVIEW (2016-2028)
TABLE 016. BATTERY ELECTRIC VEHICLE (BEV) MARKET OVERVIEW (2016-2028)
TABLE 017. HYBRID ELECTRIC VEHICLE (HEV) MARKET OVERVIEW (2016-2028)
TABLE 018. NORTH AMERICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY SYSTEM (2016-2028)
TABLE 019. NORTH AMERICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY VEHICLE TYPE (2016-2028)
TABLE 020. N FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY COUNTRY (2016-2028)
TABLE 021. EUROPE FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY SYSTEM (2016-2028)
TABLE 022. EUROPE FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY VEHICLE TYPE (2016-2028)
TABLE 023. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY COUNTRY (2016-2028)
TABLE 024. ASIA PACIFIC FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY SYSTEM (2016-2028)
TABLE 025. ASIA PACIFIC FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY VEHICLE TYPE (2016-2028)
TABLE 026. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY COUNTRY (2016-2028)
TABLE 027. MIDDLE EAST & AFRICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY SYSTEM (2016-2028)
TABLE 028. MIDDLE EAST & AFRICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY VEHICLE TYPE (2016-2028)
TABLE 029. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY COUNTRY (2016-2028)
TABLE 030. SOUTH AMERICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY SYSTEM (2016-2028)
TABLE 031. SOUTH AMERICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY VEHICLE TYPE (2016-2028)
TABLE 032. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET, BY COUNTRY (2016-2028)
TABLE 033. AKWEL: SNAPSHOT
TABLE 034. AKWEL: BUSINESS PERFORMANCE
TABLE 035. AKWEL: PRODUCT PORTFOLIO
TABLE 036. AKWEL: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 036. CASTELLO ITALIA SPA: SNAPSHOT
TABLE 037. CASTELLO ITALIA SPA: BUSINESS PERFORMANCE
TABLE 038. CASTELLO ITALIA SPA: PRODUCT PORTFOLIO
TABLE 039. CASTELLO ITALIA SPA: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 039. CONTITECH AG: SNAPSHOT
TABLE 040. CONTITECH AG: BUSINESS PERFORMANCE
TABLE 041. CONTITECH AG: PRODUCT PORTFOLIO
TABLE 042. CONTITECH AG: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 042. COOPER STANDARD: SNAPSHOT
TABLE 043. COOPER STANDARD: BUSINESS PERFORMANCE
TABLE 044. COOPER STANDARD: PRODUCT PORTFOLIO
TABLE 045. COOPER STANDARD: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 045. GATES CORPORATION: SNAPSHOT
TABLE 046. GATES CORPORATION: BUSINESS PERFORMANCE
TABLE 047. GATES CORPORATION: PRODUCT PORTFOLIO
TABLE 048. GATES CORPORATION: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 048. HUTCHINSON SA: SNAPSHOT
TABLE 049. HUTCHINSON SA: BUSINESS PERFORMANCE
TABLE 050. HUTCHINSON SA: PRODUCT PORTFOLIO
TABLE 051. HUTCHINSON SA: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 051. KONGSBERG AUTOMOTIVE: SNAPSHOT
TABLE 052. KONGSBERG AUTOMOTIVE: BUSINESS PERFORMANCE
TABLE 053. KONGSBERG AUTOMOTIVE: PRODUCT PORTFOLIO
TABLE 054. KONGSBERG AUTOMOTIVE: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 054. LANDER AUTOMOTIVE LTD: SNAPSHOT
TABLE 055. LANDER AUTOMOTIVE LTD: BUSINESS PERFORMANCE
TABLE 056. LANDER AUTOMOTIVE LTD: PRODUCT PORTFOLIO
TABLE 057. LANDER AUTOMOTIVE LTD: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 057. TI FLUID SYSTEMS: SNAPSHOT
TABLE 058. TI FLUID SYSTEMS: BUSINESS PERFORMANCE
TABLE 059. TI FLUID SYSTEMS: PRODUCT PORTFOLIO
TABLE 060. TI FLUID SYSTEMS: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 060. TRISTONE FLOWTECH HOLDING SAS: SNAPSHOT
TABLE 061. TRISTONE FLOWTECH HOLDING SAS: BUSINESS PERFORMANCE
TABLE 062. TRISTONE FLOWTECH HOLDING SAS: PRODUCT PORTFOLIO
TABLE 063. TRISTONE FLOWTECH HOLDING SAS: KEY STRATEGIC MOVES AND DEVELOPMENTS
TABLE 063. OTHER MAJOR PLAYERS: SNAPSHOT
TABLE 064. OTHER MAJOR PLAYERS: BUSINESS PERFORMANCE
TABLE 065. OTHER MAJOR PLAYERS: PRODUCT PORTFOLIO
TABLE 066. OTHER MAJOR PLAYERS: KEY STRATEGIC MOVES AND DEVELOPMENTS

LIST OF FIGURES

FIGURE 001. YEARS CONSIDERED FOR ANALYSIS
FIGURE 002. SCOPE OF THE STUDY
FIGURE 003. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET OVERVIEW BY REGIONS
FIGURE 004. PORTER'S FIVE FORCES ANALYSIS
FIGURE 005. BARGAINING POWER OF SUPPLIERS
FIGURE 006. COMPETITIVE RIVALRYFIGURE 007. THREAT OF NEW ENTRANTS
FIGURE 008. THREAT OF SUBSTITUTES
FIGURE 009. VALUE CHAIN ANALYSIS
FIGURE 010. PESTLE ANALYSIS
FIGURE 011. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET OVERVIEW BY SYSTEM
FIGURE 012. AIR SUSPENSION LINES MARKET OVERVIEW (2016-2028)
FIGURE 013. BRAKE LINES MARKET OVERVIEW (2016-2028)
FIGURE 014. AC LINES MARKET OVERVIEW (2016-2028)
FIGURE 015. TRANSMISSION OIL COOLING LINES MARKET OVERVIEW (2016-2028)
FIGURE 016. COOLANT LINES MARKET OVERVIEW (2016-2028)
FIGURE 017. OTHER MARKET OVERVIEW (2016-2028)
FIGURE 018. FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET OVERVIEW BY VEHICLE TYPE
FIGURE 019. PLUG-IN HYBRID VEHICLE (PHEV) MARKET OVERVIEW (2016-2028)
FIGURE 020. BATTERY ELECTRIC VEHICLE (BEV) MARKET OVERVIEW (2016-2028)
FIGURE 021. HYBRID ELECTRIC VEHICLE (HEV) MARKET OVERVIEW (2016-2028)
FIGURE 022. NORTH AMERICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 023. EUROPE FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 024. ASIA PACIFIC FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 025. MIDDLE EAST & AFRICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET OVERVIEW BY COUNTRY (2016-2028)
FIGURE 026. SOUTH AMERICA FLUID TRANSFER SYSTEM FOR ELECTRIC AND HYBRID VEHICLE MARKET OVERVIEW BY COUNTRY (2016-2028)