下一代电动汽车热感管理策略

Next-generation Thermal Management Strategies in Electric Vehicles

出版日期: 2024年11月11日 | 出版商:

Frost & Sullivan | 英文 87 Pages | 商品交期: 最快1-2个工作天内

价格

简介目录

OEM采用标准热泵系统和由先进致动器和复杂控制策略驱动的简化电路，推动转型成长

这项研究服务深入分析了OEM为其电动车 (EV) 所采用的热感管理系统策略。概述需要热感管理的主要电动车推进系统组件，并研究各种冷却技术，特别关注电池热感管理系统。与传统内燃机车辆相比，向全电动推进系统的过渡显着改变了车辆的热感管理需求和能力，并引入了新的组件和电路布局。这项研究分析了热感管理系统的主要组件和布局，并强调了电池和推进系统组件的主要趋势将如何影响未来的热感管理系统。这项研究的核心是主要OEM（包括传统汽车製造商和电动车製造商）采用的各种热感管理解决方案。它还提供了知名行业供应商的产品系列和创新新技术的全面视图。

主要问题

电动车市场热感管理系统的主要驱动因素和限制因素是什么？
影响电动车热感管理系统的主要趋势是什么？
OEM采用哪些策略来实现有效的热感管理系统？
主要供应商如何塑造他们未来的产品系列？
全球电动车热感管理系统市场提供哪些成长机会？

OEM采用的热感管理系统类型
VW ID.4
VW ID.4：操作模式范例 1
VW ID.4：操作模式范例 2
VW ID.4：操作模式范例 3
2024 丰田 bZ4X
丰田 bZ4X：操作模式范例 1
丰田 bZ4X：驾驶模式范例 2
特斯拉 Model Y
Tesla Model Y：操作模式范例1
Tesla Model Y：操作模式范例2
Tesla Model Y：操作模式范例3
比亚迪密封件
比亚迪印章：营运模式范例1
比亚迪印章：营运模式范例2
比亚迪印章：营运模式范例3
比亚迪印章：操作模式范例4

主要供应商概况

热感管理系统供应商
Valeo
Schaeffler
Modine
Marelli Corporation/Highly Marelli
Sanhua Automotive

成长机会领域：电动车的下一代热感管理策略

成长机会1：高性能CO2空调系统
成长机会二：复杂硬体系统设计与整合能力
成长机会 3：利用下一代 EE 架构功能
图表列表
免责声明

简介目录

Product Code: MH70-45

OEMs' Adoption of Standard Heat Pump Systems and Streamlined Circuits Enhanced by Advanced Actuators and Sophisticated Control Strategies Driving Transformational Growth

This research service provides an in-depth analysis of the thermal management system strategies OEMs adopt for electric vehicles (EVs). It includes an overview of the main EV propulsion system components requiring thermal management and explores different cooling techniques, with a particular focus on battery thermal management systems. The switch to fully electric propulsion systems has significantly altered the thermal management needs and capabilities of vehicles, introducing new components and circuit layouts compared to traditional internal combustion engine vehicles. This study analyzes the key components and layouts of thermal management systems and highlights how critical trends in battery and propulsion system components will impact thermal management systems in the future. The core of this study illuminates different thermal management solutions that leading OEMs, including traditional and EV-native industry players, have adopted. It also provides a comprehensive view of prominent industry suppliers' product offerings and innovative new technologies.

Key Issues Addressed

What are the key drivers and restraints for the EV thermal management system market?
What are the key trends affecting EV thermal management systems?
What strategies do OEMs employ for effective thermal management systems?
How are key suppliers shaping their future product portfolios?
What growth opportunities does the EV thermal management system market present globally?

Strategic Imperatives

Why is it Increasingly Difficult to Grow?
The Strategic Imperative 8™
The Impact of the Top 3 Strategic Imperatives on Thermal Management Strategies for Electric Vehicles (EVs)
Growth Opportunities Fuel the Growth Pipeline Engine™

Growth Opportunity Analysis

Scope of Analysis
Research Aims and Objectives
Key Competitors
Competitive Environment
Summary of the Thermal Management Systems Market-Global
Growth Drivers
Growth Restraints

Electric Vehicle Propulsion System Components Overview

EV Propulsion System Components Overview
EV Propulsion System Components Overview
HVBS
eAxles
Power Electronics

Thermal Management System Strategies

Thermal Management System Types
Thermal Management System Loops
Battery Thermal Management Systems
Battery Thermal Management System Types
EV Configurations and Thermal Management System Variants

Thermal Management System Components and Generic Layout

Thermal Management System: Cooling System Components
Thermal Management System: HVAC System
Thermal Management System: HVAC System Components
Thermal Management System: Generic System Diagram
Heat Pump System
Heat Pump System: Example

Key Trends Impacting Thermal Management Systems

Battery Systems: Trends in Cells, Modules, and Chemistry
Battery Systems: Trends in Internal Configuration
Battery Systems: Trends in Integration with the Vehicle
Charging Technology: Trends in Power and Capabilities
Trends in Electrical and Electronic Architectures

Next-generation Thermal Management Systems

Next-generation Thermal Management Systems
Cost Analysis of Thermal Management System Components

OEM Profiles

Thermal Management System Types Adopted by OEMs
VW ID.4
VW ID.4: Operating Mode Example 1
VW ID.4: Operating Mode Example 2
VW ID.4: Operating Mode Example 3
2024 Toyota bZ4X
Toyota bZ4X: Operating Mode Example 1
Toyota bZ4X: Operating Mode Example 2
Tesla Model Y
Tesla Model Y: Operating Mode Example 1
Tesla Model Y: Operating Mode Example 2
Tesla Model Y: Operating Mode Example 3
BYD Seal
BYD Seal: Operating Mode Example 1
BYD Seal: Operating Mode Example 2
BYD Seal: Operating Mode Example 3
BYD Seal: Operating Mode Example 4

Key Suppliers' Profiles

Thermal Management System Suppliers
Valeo
Schaeffler
Modine
Marelli Corporation/Highly Marelli
Sanhua Automotive

Growth Opportunity Universe Next-generation Thermal Management Strategies in Electric Vehicles

Growth Opportunity 1: High-performance CO2 HVAC Systems
Growth Opportunity 2: Complex Hardware Systems Design and Integration Capabilities
Growth Opportunity 3: Leverage Next-generation EE Architecture Capabilities
List of Exhibits
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