市場調查報告書
商品編碼
1466222
汽車溫度控管市場:按類型、零件、車型、應用、銷售管道分類 - 2024-2030 年全球預測Automotive Thermal Management Market by Type (Active Thermal Management, Passive Thermal Management), Component (Coolant Hoses, Fans & Fan Clutches, Radiators), Vehicle Type, Application, Sales Channel - Global Forecast 2024-2030 |
※ 本網頁內容可能與最新版本有所差異。詳細情況請與我們聯繫。
預計2023年汽車溫度控管市場規模為405.8億美元,預計2024年將達425.8億美元,2030年將達589.9億美元,複合年成長率為5.48%。
汽車溫度控管是指車內維持最佳溫度條件以確保乘客舒適度、效率和車輛零件壽命的系統和流程。這包括調節各種系統和部件的溫度,例如引擎、變速箱、馬達、電池和內部空間。高效的溫度控管可確保這些零件在理想的溫度範圍內運行,從而提高性能、減少排放氣體、提高能源效率,並提高車輛乘員的安全性和便利性,這對於確保性健康極為重要。汽車溫度控管系統應用於各個領域,包括引擎冷卻、電動和混合動力汽車中的電池溫度控管、提高乘客舒適度的暖通空調以及傳動系統冷卻。這些系統的最終用戶包括小客車、商用車和高性能跑車,電動和混合動力汽車汽車的客製化解決方案對市場規模產生重大影響。促進汽車溫度控管市場開拓的因素包括更嚴格的汽車排放法規、對節能汽車系統的需求不斷增加、汽車電子產品的進步以及電動和混合動力汽車銷量的增加。然而,汽車溫度控管的擴展受到技術挑戰的阻礙,例如先進溫度控管系統(尤其是電動汽車)相關的高成本、溫度控管與其他車輛系統整合的複雜性以及日益小型車輛的散熱等問題。挑戰,包括挑戰。同時,整合相變材料(PCM)和熱電材料等先進材料以提高系統效率,採用採用環保冷媒的暖通空調系統,以及採用可自主控制的智慧溫度控管系統,為汽車的普及提供了潛在溫度控管。
主要市場統計 | |
---|---|
基準年[2023] | 405.8億美元 |
預測年份 [2024] | 425.8億美元 |
預測年份 [2030] | 589.9億美元 |
複合年成長率(%) | 5.48% |
越來越偏好主動溫度控管系統,以確保最佳的類型性能
汽車產業中的主動熱感管理(ATM)系統是指依賴外部能源來源來控制溫度的系統。它包括電動幫浦、風扇和恆溫器等組件,可主動調節車輛的熱條件。該系統對於確保引擎、駕駛室、電動車 (EV) 電池和其他電子系統等各種部件的最佳性能和使用壽命至關重要。當需要即時響應性和動態可調性時,ATM 通常是首選。這尤其適用於高性能汽車、重型卡車和電動車,這些汽車的熱量輸出很高,溫度控制精度對於效率和安全性至關重要。被動熱感管理 (PTM) 系統利用材料的熱特性以及透過傳導、對流和輻射的熱流,無需外部能量輸入。散熱器、隔熱材料和熱界面材料等組件在 PTM 中很常見。這些系統因其簡單、可靠且零能耗而被廣泛使用。 PTM 特別適合對成本敏感的細分市場,包括經濟艙車輛,其設計複雜性極低,注重可靠且免維護的運作。當熱負荷較低或中等或能源預算緊張時(例如熱足跡較小的混合動力汽車),這些系統也是首選。比較 ATM 和 PTM 表明,兩者都有優點和首選使用案例。 ATM 提供要求嚴格的應用所需的動態和精確控制,但代價是複雜性和成本增加。相較之下,PTM具有簡單、可靠、成本低的優點,但缺乏ATM系統的適應性和反應能力。
組件:防止由於汽車溫度控管中散熱器的使用增加而導致引擎過熱
冷卻液軟管對於汽車引擎冷卻系統的正常運作至關重要。冷卻液軟管負責在引擎和散熱器之間傳輸冷卻水。對高品質冷卻劑軟管的需求至關重要,因為冷卻劑軟管需要承受極端溫度和壓力而不故障。風扇和風扇離合器在汽車溫度控管系統中發揮重要作用,可調節通過散熱器的氣流以保持最佳引擎溫度。散熱器對於將冷卻液熱量散發到環境中並防止引擎過熱至關重要。恆溫器透過調節冷卻液流量來維持引擎溫度。恆溫器確保引擎快速升溫並保持最佳工作溫度。水泵對於確保冷卻劑通過引擎、散熱器和加熱系統的循環至關重要。如果沒有有效的水泵,您的汽車可能會遭受引擎過熱和長期損壞。與列出的組件相比,每個組件在汽車溫度控管系統中都發揮著獨特的作用。冷卻劑軟管的評級主要根據材料品質和耐用性。另一方面,風扇和風扇離合器的評級是根據其調節氣流和有效影響燃油經濟性的能力。散熱器在冷卻效率和尺寸方面進行了比較,其中的進步集中在輕質材料上。恆溫器變得越來越複雜,新型號可提供精確的溫度控制並與車輛電子系統整合。水泵的評判標準是其可靠性以及與各種引擎類型(包括混合和電動車型)的兼容性。
銷售管道:提供無縫整合的目標商標產品製造商將越來越受歡迎
汽車溫度控管售後市場領域滿足車主購車後更換零件、升級與維護的需求。由於磨損或車主希望提高車輛性能,可能需要這些零件和系統。在售後市場領域,對能夠延長車輛使用壽命的經濟高效且相容的解決方案的需求不斷成長。客戶選擇售後零件來更換有缺陷的零件,升級現有的溫度控管系統以提高效率,或支援新功能,例如為舊車輛改裝先進的冷卻系統。 OEM(目的地設備製造商)部分是指在製造過程中安裝在車輛上的溫度控管系統和組件。這些通常是針對特定車型自訂的,以確保完美貼合和最佳性能。汽車製造商更喜歡OEM溫度控管系統,因為它們具有高可靠性、與車輛架構的整合以及遵守嚴格的品質標準。該細分市場重點關注可直接應用於新車型的技術進步,以幫助提高燃油效率、排放控制和整體車輛性能。比較汽車溫度控管領域的售後市場和OEM領域,可以發現在整合複雜性、客製化和生命週期方面有明顯差異。 OEM零件旨在無縫整合到您的特定車型中,並從一開始就提供卓越的性能。然而,初始成本很高。雖然售後市場可能能夠提供更具成本效益和多樣化的產品,但可能很難匹配OEM零件的確切規格,但在車輛的生命週期中,提供了彈性以及升級和增強的機會。
應用:擴大電池溫度控管在汽車產業的應用
隨著電動車(EV)的出現,電池溫度控管已成為重中之重。確保電池在理想的溫度範圍內運行,以最大限度地提高效能、使用壽命和安全性。客艙溫度控管透過控制客艙溫度來關注乘客的舒適度。傳統的內燃機汽車依靠引擎冷卻來防止過熱。廢氣再循環 (EGR)溫度控管透過冷卻部分廢氣並將其再循環回引擎燃燒室來幫助減少氮氧化物排放。馬達和電力電子設備的溫度控管對於保持性能、安全性和可靠性至關重要。變速箱溫度控管透過保持最佳溫度確保變速箱高效運作。廢熱回收系統回收並再利用引擎和排氣中的熱量,從而提高車輛的整體效率。優先順序根據每個溫度控管應用的需求而變化。電池溫度控管對於電動車和混合動力汽車至關重要,而引擎冷卻更適合內燃機汽車。座艙溫度控管仍然是舒適度的普遍要求。從排放氣體和效率的角度來看,廢氣再循環和廢熱回收變得越來越重要,隨著環境法規的收緊,廢氣再循環和廢熱回收也越來越重要。馬達和電力電子設備的溫度控管是所有車輛類型零件日益電動的基礎。變速箱溫度控管常常被低估,但它對於延長變速箱系統的使用壽命和最佳化車輛性能至關重要。
區域洞察
以美國和加拿大為首的美洲地區由於嚴格的排放法規和消費者對節能系統的高度認知,對汽車溫度控管表現出健康的需求。美國市場擴大採用混合動力汽車和電動車,增加了對先進溫度控管系統的需求。加拿大的汽車市場比美國小,同樣著重於減少排放氣體和為車輛配備先進的溫度控管解決方案。由於政府的措施和投資,電動車的普及正在加速。南美洲汽車溫度控管市場正在穩步發展。經濟狀況改善、汽車製造投資以及消費者對汽車的需求不斷成長等因素正在推動市場成長。歐盟國家優先考慮環境監管,並率先實現了一些世界上最雄心勃勃的排放目標。這增加了對先進溫度控管技術的需求。客戶正在尋找既符合這些標準又提供舒適性和效率的車輛。德國、法國和英國等國家是溫度控管技術的創新中心,進一步加速了區域市場的表現。中東和非洲(MEA)地區顯示出汽車溫度控管市場的成長潛力。儘管與其他地區相比,該市場規模相對較小,但汽車銷量增加、氣候變遷導致氣溫上升以及人們對車輛效率意識的增強等因素預計將推動該市場的發展。亞太地區,特別是中國、日本和印度,正在成為汽車溫度控管市場的一個充滿活力的中心。這些市場是由龐大的消費群、汽車產量的增加以及對車輛效率和排放氣體日益成長的興趣所推動的。中國市場正在電動車 (EV) 生產和基礎設施開發方面進行大量投資,影響了對先進溫度控管系統的需求。在印度,隨著都市化和經濟成長,汽車需求不斷增加。消費者對車輛效率和排放法規的認知不斷增強,影響購買決策和先進溫度控管技術的採用。
FPNV定位矩陣
FPNV定位矩陣對於評估汽車溫度控管市場至關重要。我們檢視與業務策略和產品滿意度相關的關鍵指標,以對供應商進行全面評估。這種深入的分析使用戶能夠根據自己的要求做出明智的決策。根據評估,供應商被分為四個成功程度不同的像限:前沿(F)、探路者(P)、利基(N)和重要(V)。
市場佔有率分析
市場佔有率分析是一種綜合工具,可以對汽車溫度控管市場供應商的現狀進行深入而詳細的研究。全面比較和分析供應商在整體收益、基本客群和其他關鍵指標方面的貢獻,以便更好地了解公司的績效及其在爭奪市場佔有率時面臨的挑戰。此外,該分析還提供了對該行業競爭特徵的寶貴見解,包括在研究基準年觀察到的累積、分散主導地位和合併特徵等因素。詳細程度的提高使供應商能夠做出更明智的決策並制定有效的策略,從而在市場上獲得競爭優勢。
1. 市場滲透率:提供有關主要企業所服務的市場的全面資訊。
2. 市場開拓:我們深入研究利潤豐厚的新興市場,並分析其在成熟細分市場的滲透率。
3. 市場多元化:提供有關新產品發布、開拓地區、最新發展和投資的詳細資訊。
4. 競爭評估和情報:對主要企業的市場佔有率、策略、產品、認證、監管狀況、專利狀況和製造能力進行全面評估。
5. 產品開發與創新:提供對未來技術、研發活動和突破性產品開發的見解。
1.汽車溫度控管市場的市場規模與預測為何?
2.在汽車溫度控管市場預測期間內,有哪些產品、細分市場、應用和領域需要考慮投資?
3.汽車溫度控管市場的技術趨勢和法規結構是什麼?
4.汽車溫度控管市場主要廠商的市場佔有率為何?
5.進入汽車溫度控管市場的合適型態和策略手段是什麼?
[184 Pages Report] The Automotive Thermal Management Market size was estimated at USD 40.58 billion in 2023 and expected to reach USD 42.58 billion in 2024, at a CAGR 5.48% to reach USD 58.99 billion by 2030.
Automotive thermal management refers to the system and processes within a vehicle that maintain optimal thermal conditions for passengers' comfort, efficiency, and longevity of vehicle components. This involves regulating the temperature of various systems and parts, such as the engine, transmission, electric motor, battery, and cabin space. Efficient thermal management is crucial in ensuring that these components operate within their ideal temperature ranges, thereby enhancing performance, reducing emissions, improving energy efficiency, and ensuring the security and convenience of vehicle occupants. The automotive thermal management system finds applications across various segments, such as engine cooling, battery thermal management for electric and hybrid vehicles, HVAC for passenger comfort, and transmission system cooling. The end-users of these systems include passenger vehicles, commercial vehicles, and high-performance sports cars, with customized solutions for electric and hybrid vehicles significantly influencing the market scope. Factors contributing to the development of the automotive thermal management market include increasing vehicular emission standards, growing demand for energy-efficient vehicle systems, advancements in automotive electronics, and rising sales of electric and hybrid vehicles. However, the expansion of automotive thermal management is hindered by various challenges, such as high costs associated with advanced thermal management systems, particularly for EVs, complexities involved in integrating thermal management with other vehicular systems, and technological challenges, such as heat dissipation in increasingly compact vehicles. On the other hand, the integration of advanced materials, including phase change materials (PCMs) and thermoelectric materials that improve system efficiency, adoption of HVAC systems with environmentally-friendly refrigerants, and incorporation of smart thermal management systems capable of autonomous regulation presents potential opportunities for the widespread adoption of automotive thermal management.
KEY MARKET STATISTICS | |
---|---|
Base Year [2023] | USD 40.58 billion |
Estimated Year [2024] | USD 42.58 billion |
Forecast Year [2030] | USD 58.99 billion |
CAGR (%) | 5.48% |
Type: Rising preference for active thermal management systems for ensuring optimal performance
Active thermal management (ATM) systems in the automotive industry refer to those that rely on external energy sources to control temperature. They involve components such as electrically driven pumps, fans, and thermostats that actively regulate the thermal state of a vehicle. This system is essential for ensuring optimal performance and longevity in various components, such as the engine, cabin, batteries in electric vehicles (EVs), and other electronic systems. ATM is generally preferred when real-time response and dynamic adjustability are required. This is particularly applicable to high-performance vehicles, heavy-duty trucks, and EVs where heat generation is considerable, and the precision of temperature control is critical for efficiency and safety. Passive thermal management (PTM) systems utilize the thermal properties of materials and the flow of heat through conduction, convection, and radiation without the need for external energy input. Components such as heat sinks, insulation, and thermal interface materials are common in PTM. These systems are widely used for their simplicity, reliability, and zero-energy consumption. PTM is particularly suitable for cost-sensitive market segments, including economy-class vehicles, focusing on reliable and maintenance-free operation with minimal design complexity. These systems are also preferred when the heat load is low to moderate or when strict energy budgets exist, such as in hybrid vehicles with smaller thermal footprints. When comparing ATM and PTM, it is clear that each has its advantages and preferred use cases. ATM provides dynamic and precise control, which is necessary for demanding applications but comes with increased complexity and cost. In contrast, PTM benefits from simplicity, reliability, and low cost but lacks the adaptability and responsiveness of ATM systems.
Component: Increasing usage of radiators in automotive thermal management for protecting engine from overheating
Coolant hoses are crucial for the proper operation of an automotive engine's cooling system. They are responsible for transferring coolant between the engine and the radiator. The need for high-quality coolant hoses is paramount, as they must withstand extreme temperatures and pressures without failing. Fans and fan clutches play a critical role in the automotive thermal management system by regulating airflow through the radiator, thereby assisting in maintaining optimal engine temperatures. Radiators are essential for dissipating heat from the coolant to the environment, preventing the vehicle's engine from overheating. Thermostats maintain the engine's temperature by regulating the flow of coolant. They ensure the engine heats up quickly and maintains optimal operating temperature. Water pumps are pivotal in ensuring the circulation of coolant through the engine, radiator, and heating system. Vehicles can suffer engine overheating and potential long-term damage without effective water pumps. When comparing the listed components, each serves a distinctive purpose within the automotive thermal management system. Coolant hoses are evaluated primarily based on material quality and durability. Fans and fan clutches, on the other hand, are assessed based on their ability to regulate airflow and impact fuel efficiency effectively. Radiators are compared by their cooling efficiency and size, with advancements focusing on lightweight materials. Thermostats are becoming increasingly sophisticated, with new models offering precise temperature control and integration with vehicular electronic systems. Water pumps are judged on their reliability and compatibility with various engine types, including hybrid and electric models.
Sales Channel: Growing popularity of Original Equipment Manufacturer for seamless integration
The aftermarket segment of automotive thermal management caters to the needs of vehicle owners seeking replacement parts, upgrades, or maintenance after the initial vehicle purchase. These components or systems can be needed due to wear and tear or because the vehicle owner wishes to enhance vehicle performance. In the aftermarket segment, there is a higher demand for cost-effective and compatible solutions that can extend the life of the vehicle. Customers opt for aftermarket parts to replace defective components, upgrade the existing thermal management system for better efficiency, or support new functionalities such as retrofitting advanced cooling systems in older vehicles. The Original Equipment Manufacturer (OEM) segment refers to thermal management systems and components installed in vehicles during manufacturing. These are usually custom-built for specific vehicle models, ensuring a perfect fit and optimal performance. Vehicle manufacturers prefer OEM thermal management systems due to their high reliability, integration with vehicle architecture, and adherence to stringent quality standards. This segment focuses on technological advancements that can be directly implemented into new vehicle models, facilitating enhancements in fuel efficiency, emission control, and overall vehicle performance. Comparing the Aftermarket and OEM segments in automotive thermal management reveals clear differences in integration complexity, customization, and lifecycle. OEM components are designed for seamless integration into specific vehicle models and offer superior performance from the outset. However, they attract a higher initial cost. The aftermarket, while potentially offering a more cost-effective and diverse range, can struggle to match the exacting specifications of OEM parts but provides greater flexibility and opportunities for upgrades and enhancements over the lifecycle of a vehicle.
Application: Increasing application of battery thermal management in automotive industry
With the advent of electric vehicles (EVs), battery thermal management has become paramount. It ensures that the battery operates within an ideal temperature range to maximize performance, longevity, and safety. Cabin thermal management focuses on passenger comfort by controlling the vehicle's internal temperature. Traditional internal combustion engine vehicles rely on engine cooling to prevent overheating. Exhaust gas recirculation (EGR) thermal management helps reduce NOx emissions by cooling and recirculating some of the exhaust gas back into the engine's combustion chamber. Thermal management for electric motors and power electronics is essential for maintaining performance, safety, and reliability. Transmission thermal management ensures that the gearbox operates efficiently by maintaining optimal temperatures. Waste heat recovery systems capture and reuse heat from the engine and exhaust to improve the vehicle's overall efficiency. The need-based preference for each thermal management application varies. Battery thermal management is crucial for EVs and hybrids, while engine cooling is more pertinent for combustion engine vehicles. Cabin thermal management remains a universal requirement for comfort. Exhaust gas recirculation and waste heat recuperation are more important from an emissions and efficiency standpoint and are gaining traction as environmental regulations tighten. Motor and power electronics thermal management is foundational for the growing electrification of components in all vehicle types. Transmission thermal management is often undervalued but is crucial for prolonging the life of transmission systems and optimizing vehicle performance.
Regional Insights
The Americas, primarily the United States and Canada, exhibit a healthy demand for automotive thermal management due to stringent emission norms and high consumer awareness regarding fuel-efficient systems. The U.S. market sets a strong trend for adopting hybrid and electric vehicles, which drives the need for sophisticated thermal management systems. Canada's automotive market, while smaller than the U.S., is equally focused on reducing emissions and integrating advanced thermal management solutions in vehicles. Electric vehicle adoption is rising, spurred by governmental initiatives and investments. South America's automotive thermal management market is developing steadily. Factors such as improving economic conditions, investments in automotive manufacturing, and rising consumer demand for vehicles are propelling market growth. EU countries prioritize environmental regulations and have spearheaded some of the most ambitious goals for emissions reductions globally. This has led to heightened demand for advanced thermal management technologies. Customers seek vehicles that meet these standards while providing comfort and efficiency. Countries, including Germany, France, and the UK are innovation hubs for thermal management technology, further accelerating regional market performance. The Middle East and African (MEA) regions show potential for growth in the automotive thermal management market. While the market is relatively small compared to other regions, factors such as increased vehicle sales, rising temperatures due to climate change, and growing awareness about vehicle efficiency are expected to boost the market. The Asia Pacific region, particularly China, Japan, and India, has emerged as a dynamic hub for the automotive thermal management market. These markets are driven by a massive consumer base, increasing automobile production, and a growing concern for vehicle efficiency and emissions. The Chinese market has seen significant investments in electric vehicle (EV) production and infrastructure, influencing the demand for advanced thermal management systems. In India, with increasing urbanization and economic growth, the demand for vehicles is on the rise. Consumer awareness about vehicle efficiency and emission norms is growing, influencing purchasing decisions and the adoption of advanced thermal management technologies.
FPNV Positioning Matrix
The FPNV Positioning Matrix is pivotal in evaluating the Automotive Thermal Management Market. It offers a comprehensive assessment of vendors, examining key metrics related to Business Strategy and Product Satisfaction. This in-depth analysis empowers users to make well-informed decisions aligned with their requirements. Based on the evaluation, the vendors are then categorized into four distinct quadrants representing varying levels of success: Forefront (F), Pathfinder (P), Niche (N), or Vital (V).
Market Share Analysis
The Market Share Analysis is a comprehensive tool that provides an insightful and in-depth examination of the current state of vendors in the Automotive Thermal Management Market. By meticulously comparing and analyzing vendor contributions in terms of overall revenue, customer base, and other key metrics, we can offer companies a greater understanding of their performance and the challenges they face when competing for market share. Additionally, this analysis provides valuable insights into the competitive nature of the sector, including factors such as accumulation, fragmentation dominance, and amalgamation traits observed over the base year period studied. With this expanded level of detail, vendors can make more informed decisions and devise effective strategies to gain a competitive edge in the market.
Key Company Profiles
The report delves into recent significant developments in the Automotive Thermal Management Market, highlighting leading vendors and their innovative profiles. These include Advanced Thermal Solutions, Inc., BorgWarner Inc., Dana Incorporated, Delta Electronics, Inc., Denso Corporation, Dober, Gentherm Incorporated, Hanon Systems, HELLA GmbH & Co. KGaA by Faurecia, Infineon Technologies AG, Kendrion NV, Koninklijke DSM N.V., MAHLE GmbH, Marelli Holdings Co., Ltd., Modine Manufacturing Company, Norma Group, Robert Bosch GmbH, Schaeffler AG, Solvay S.A., Thermal Management Solutions Group, TitanX Holding AB, Valeo Group, Voss Automotive, Ymer Technology AB, and ZF Friedrichshafen AG.
Market Segmentation & Coverage
1. Market Penetration: It presents comprehensive information on the market provided by key players.
2. Market Development: It delves deep into lucrative emerging markets and analyzes the penetration across mature market segments.
3. Market Diversification: It provides detailed information on new product launches, untapped geographic regions, recent developments, and investments.
4. Competitive Assessment & Intelligence: It conducts an exhaustive assessment of market shares, strategies, products, certifications, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players.
5. Product Development & Innovation: It offers intelligent insights on future technologies, R&D activities, and breakthrough product developments.
1. What is the market size and forecast of the Automotive Thermal Management Market?
2. Which products, segments, applications, and areas should one consider investing in over the forecast period in the Automotive Thermal Management Market?
3. What are the technology trends and regulatory frameworks in the Automotive Thermal Management Market?
4. What is the market share of the leading vendors in the Automotive Thermal Management Market?
5. Which modes and strategic moves are suitable for entering the Automotive Thermal Management Market?