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市場調査レポート
商品コード
1373575
EVパワートレインの世界市場の評価:部品タイプ別、車両タイプ別、車両駆動タイプ別、推進タイプ別、地域別、機会、予測(2016年~2030年)EV Powertrain Market Assessment, By Component Type, By Vehicle Type, By Vehicle Drive Type, By Propulsion Type, By Region, Opportunities, and Forecast 2016-2030 |
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カスタマイズ可能
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EVパワートレインの世界市場の評価:部品タイプ別、車両タイプ別、車両駆動タイプ別、推進タイプ別、地域別、機会、予測(2016年~2030年) |
出版日: 2023年11月03日
発行: Market Xcel - Markets and Data
ページ情報: 英文 146 Pages
納期: 3~5営業日
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世界のEVパワートレインの市場規模は、2022年の1,014億5,000万米ドルから2030年に3,235億3,000万米ドルに達し、2023年~2030年の予測期間にCAGRで15.6%の成長が予測されています。
電気自動車の所有コストの低下、政府のインセンティブ、EV充電インフラの向上といった要因が電気自動車の需要を促進し、ひいては電気自動車の生産を後押ししています。そのため、世界の需給ギャップを埋めるためにEVの生産台数が増加していることから、EVパワートレインに対する需要が急増しています。
市場はさまざまな要因によって急速な変革を示しています。米国環境保護庁の温室効果ガス(GHG)排出規制のような、政府機関が定めた排出基準などの厳しい環境規制により、自動車メーカーは電動パワートレイン技術への多額の投資を余儀なくされています。二酸化炭素排出の削減と気候変動対策が急務であることが、電気自動車普及の中心的な促進要因となっています。エジプトで開催されたCOP27で発表された「2022 Zero-Emission Vehicles Factbook」によると、乗用電気自動車の販売台数は1,000万台を超え、2021年の660万台から大幅に増加すると予測されています。2022年、電気自動車は世界の新車の販売台数の13%以上を占め、2021年の通年の8.7%から大きく上昇しました。
さらに、消費者の電気自動車やハイブリッド車に対する人気の高まりにより、市場は大きな成長を示しています。環境保全に関する意識の高まりや、持続可能な輸送に対する需要の高まりが、電気自動車の採用の急増につながり、EVパワートレイン市場を後押ししています。さらに、世界各国の政府が電気自動車の普及を促進するために魅力的なインセンティブや補助金を導入しており、メーカーと消費者の双方にとって有利な環境が整いつつあります。こうした要因のシナジーにより、力強い市場需要が生まれ、技術の進歩が促進され、市場の拡大が促進されます。
燃料価格の高騰と環境問題の深刻化により、特に先進国において、消費者に電動モビリティソリューションへの移行が促されています。このため自動車メーカー各社は、消費者の日常的なニーズに合致する小型かつ軽量なEVパワートレインの開発に力を入れています。補助金、助成金、国内生産支援など、さまざまなインセンティブを提供することで、電気自動車の大量採用がさらに促進されるからです。これと並行して、非金融的なインセンティブも普及し、市場を強化しています。環境にやさしく効率的な輸送を受け入れるための協調的な取り組みが、市場の急速な拡大に道を開いています。
バッテリー電気自動車(BEV)の生産は、世界のEVパワートレイン需要の促進において極めて重要な役割を果たしています。この現象は、ゼロエミッション、バッテリー技術の目覚ましい進歩、消費者の選好の変化といった要因の複雑な相互作用によって支えられています。バッテリー技術の進歩は、BEVのエネルギー密度、航続距離、総合性能の目に見える向上につながっています。リチウムイオンバッテリーの効率とコスト効率が向上し、BEVの全体的な価格を引き下げています。バッテリー技術の進歩は、EVパワートレインの需要に直接的かつ変革的な影響を及ぼし、この部門での技術革新と投資を促進します。
このような技術の進歩と同時に、消費者の環境意識の高まりがBEV需要の急増を後押ししています。消費者は、運転コストの削減、メンテナンス要件の軽減、家庭での充電の利便性など、電気自動車の利点をますます認識するようになっています。このような消費者のBEVに対する需要の急増は、BEVの生産、ひいてはEVパワートレインの需要拡大の強力な推進力となっています。特筆すべきは、この動向が近い将来、産業に大きな機会をもたらすということです。Toyotaが最近発表した、2025年までに60万台のBEVを生産するという意欲的な計画がその一例であり、2024年までに19万台のEVを生産するという従来の目標から大幅に増加しています。
当レポートでは、世界のEVパワートレイン市場について調査分析し、市場規模と予測、市場力学、主要企業の情勢と見通しなどを提供しています。
The Global EV Powertrain Market size was valued at USD 101.45 billion in 2022 which is expected to reach USD 323.53 billion in 2030 with a CAGR of 15.6% for the forecast period between 2023 and 2030. Electric powertrain systems are essential for generating and transmitting power to the vehicle's wheels in fully electric, hybrid electric, and plug-in hybrid electric vehicles. These EV, HEV, and PHEV powertrains bring numerous benefits compared to conventional counterparts, including reduced emissions, enhanced fuel efficiency, and high torque at low speeds.
The substantial rise in oil prices is primarily driven by the gradual depletion of global oil reserves, which is exacerbated by the pressing global issue of global warming, largely caused by the substantial emissions of CO2. Environmental preservation and energy conservation have become issues of global significance. Consequently, the prevailing industrial vehicle design and development trend concerns green energy solutions. This has led automotive companies to focus on the development of e-powertrains, which are specifically engineered for low energy consumption and the reduction of carbon emissions. The e-powertrain eliminates the need for an internal combustion engine and is known for its compact and lightweight design. It generates instant torque and minimizes vibrations. Key components of the Electric Vehicle powertrain encompass the power distribution module (PDM), transmission, inverter, converter, transmission, and electric motor, among others. These components collaborate to deliver a high-quality, smooth, and responsive driving experience.
The factors like declining cost of ownership for electric vehicles, government incentives and improving EV charging infrastructure is propelling the demand for electric vehicles which in turn is boosting the production of electric vehicles. Hence, the demand for EV powertrain is experiencing surging demand owing to the improving EV production volumes to bridge demand supply gap globally.
The global Electric Vehicle (EV) powertrain market is experiencing a rapid transformation, driven by a combination of key factors. Stringent environmental regulations, such as emissions standards set by governmental bodies and agencies like the U.S. Environmental Protection Agency's GHG emission regulations, have compelled automakers to invest significantly in electric powertrain technologies. The urgent necessity to reduce carbon emissions and combat climate change has become a central driver for the widespread adoption of electric vehicles. According to the 2022 Zero-Emission Vehicles Factbook unveiled during COP27 in Egypt, passenger electric vehicle sales are projected to exceed 10 million units, marking a substantial increase from the 6.6 million recorded in 2021. In the first half of 2022, electric vehicles captured more than 13% of global new car sales, a notable rise from the 8.7% figure reported for the entire year of 2021.
Moreover, the market is experiencing significant growth due to consumers' increasing popularity of electric and hybrid vehicles. The rising awareness regarding environmental conservation and the growing demand for sustainable transportation options have led to a surge in the adoption of electric vehicles, thereby propelling the EV powertrain market. Furthermore, governments worldwide are introducing attractive incentives and subsidies to encourage the uptake of electric vehicles, creating a favorable environment for both manufacturers and consumers. These factors' synergy generates robust market demand, drives technological advancements, and fosters the expansion of the global EV powertrain market.
The rising tide of fuel prices and escalating environmental concerns have prompted consumers to shift toward electric mobility solutions, particularly in developed nations. This has ignited an intensity among automobile manufacturers to develop compact and lightweight e-powertrain solutions that align with the everyday needs of consumers. Government policies and support mechanisms play a pivotal role in this transformation, as they offer an array of incentives such as grants, subsidies, and support for domestic production, which further catalyze the mass adoption of electric vehicles. In parallel, non-financial incentives are gaining traction, bolstering the market for electric vehicle powertrains. This concerted effort to embrace eco-friendly and efficient transportation is paving the way for the rapid expansion of the electric vehicle powertrain market.
EVs present an attractive solution, offering a more economical and sustainable alternative to traditional petrol-powered vehicles. The growing interest in EVs for commuting stems primarily from their significantly lower operational costs when compared to petrol or diesel vehicles. Electric vehicles are highly energy-efficient and not subject to fluctuating fuel prices, providing consumers with greater stability in their transportation expenses. Although the initial purchase cost of an EV might be higher than traditional vehicles, the long-term savings on fuel and maintenance expenses make EVs a compelling investment. Owing to this, the demand for EVs has further increased the demand for EV powertrains for production.
The production of Battery Electric Vehicles (BEVs) plays a pivotal role in driving global demand for Electric Vehicle (EV) powertrains. This phenomenon is underpinned by a complex interplay of factors that revolve around zero emissions, remarkable advancements in battery technology, and shifting consumer preferences. Advances in battery technology have translated into tangible improvements in BEVs' energy density, range, and overall performance. Lithium-ion batteries have become more efficient and cost-effective, reducing the overall price tag of BEVs. As battery technology advances, it wields a direct and transformative impact on the demand for EV powertrains, catalyzing innovation and investment within the sector.
In tandem with these technological strides, a growing environmental consciousness among consumers is driving a surge in demand for BEVs. Consumers increasingly recognize the advantages of electric vehicles, including reduced operating costs, diminished maintenance requirements, and the convenience of home-based charging. This burgeoning consumer demand for BEVs serves as a powerful force propelling the production of these vehicles and, consequently, the escalation in demand for EV powertrains. Notably, this trend opens up significant opportunities for the industry in the near future. An illustrative example is Toyota's recent announcement of its ambitious plan to manufacture 600,000 BEVs by 2025, marking a substantial increase from its previous target of 190,000 EVs by 2024.
Governments worldwide are implementing a variety of incentives to encourage the adoption of Electric Vehicles (EVs). These incentives encompass subsidies that directly reduce the purchase price of EVs, making them more affordable for consumers. Tax credits are another common approach, providing financial benefits to individuals or businesses purchasing electric vehicles by lowering their tax liabilities. Many countries also offer tax exemptions, sparing EVs from specific taxes like sales tax, road tax, or import duties, further reducing the overall cost of ownership. For instance, the United States offers a federal tax credit of up to USD 7,500 to purchase an EV, and many states also offer incentives. Likewise, Norway offers EVs a complete exemption from import duties, VAT, and free parking access to EV owners. Indian government has already initiated plans to replace gasoline-based vehicles in fleet with electric vehicles.
In addition, governments provide incentives to manufacturers, including grants and low-interest loans, to promote the production of EVs and their components like powertrains. For instance, India has announced the production linked incentive (PLI) scheme allocated a budget of USD 3,160 million to the automobile and auto component industry. this initiative offers financial incentives to promote the domestic production of advanced automotive technology products, which includes electric vehicles and their components. under this scheme, eligible sales of electric vehicles and their parts can receive incentives up to 18% of their value.
The electric powertrain industry had been impacted by the global COVID-19 pandemic, resulting in a decline in growth due to reduced automotive sales and changing requirements. Nevertheless, the market is being driven by stringent emission regulations imposed by governmental bodies, such as the U.S. Environmental Protection Agency's Greenhouse Gas (GHG) emission standards, India's BS-VI norms, and China VI standards. The recovery in post-COVID-19 sales of pure and hybrid electric vehicles is a significant factor in the electric powertrain sector. Additionally, governments' widespread adoption of electric cars and enticing incentives to promote domestic electric vehicle production are expected to enhance the global demand for electric powertrains.
EV powertrain manufacturers are teaming up with automobile companies for several reasons. Firstly, these partnerships combine specialized expertise: powertrain manufacturers bring knowledge in electric motors and batteries, while auto companies offer insights into vehicle design and safety standards. Secondly, tapping into established automakers' infrastructures ensures cost-efficient EV production due to economies of scale. Moreover, these collaborations grant access to extensive dealership networks, widening the reach of EVs among consumers. Innovation accelerates as these entities pool resources, leading to cutting-edge EV technologies. Additionally, these partnerships aid traditional automakers in adhering to strict environmental regulations by integrating electric powertrains. Shared financial risks make substantial EV investments more manageable. Lastly, affiliating with reputable automakers boosts brand credibility, enhancing consumer confidence and driving the overall adoption of electric vehicles.
In April 2023, Denso Corporation (Denso) achieved a significant milestone by creating its inaugural inverter featuring silicon carbide (SiC) power semiconductors. This cutting-edge inverter is slated for integration into BlueE Nexus Corporation's eAxle, a pivotal component in the Lexus RZ, thus contributing to the vehicle's performance and efficiency.
In February 2023, Continental AG introduced an innovative electric motor rotor position sensor (eRPS) tailored for electric vehicles. The eRPS harnesses inductive technology to accurately determine the position of the rotors in synchronous electric machines, leading to enhanced efficiency and a more seamless operational experience.
In December 2021, Magna International Inc. (Magna) unveiled its comprehensive all-electric connected powertrain, the EtelligentReach. This holistic system includes two electric motors, inverters, and transmissions, with the added advantage of advanced software to enhance vehicle range and driving dynamics optimization.
In November 2021, Mitsubishi Electric Corporation (Mitsubishi Electric) made its foray into the electric vehicle (EV) market by introducing e-axles, which seamlessly combine motors, inverters, and reduction gears, serving as an integrated solution for EVs.
All segments will be provided for all regions and countries covered
Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work