V2G(Vehicle-to-Grid)の世界市場 : 2017-2030年

出版:Astute Analytica(アステュートアナリティカ) 出版年月:2023年2月

世界のV2G(Vehicle-to-Grid)市場 : 車両タイプ(バッテリー電気自動車、その他)、ソリューションタイプ(ソフトウェア、その他)、充電タイプ(単方向、双方向、その他)、用途、推計と予測、2017-2030年
Global Vehicle-to-Grid (V2G) Market, By Vehicle Type (Battery Electric Vehicles, Others), By Solution Type (Software, Others), By Charging Type (Unidirectional, Bidirectional, Others), By Application, Estimation & Forecast, 2017 – 2030

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Market Introduction
The global vehicle-to-grid market held a market value of USD 206.94 million in 2021 and is estimated to reach USD 2,234.12 million by the year 2030. The market is projected to list a CAGR of 31.5% during the forecast period.
The technique known as vehicle to grid, or V2G, is comparable to solar panels that produce energy on their own. With the use of car-to-grid technology, an electric vehicle may do the same for electricity distribution, storage, or even generation. Electric vehicles that are parked are great since they only use energy. A vehicle to grid system helps to feed the electricity stored in a parked electric car’s batteries back into the power grid. The smart grid supports data sharing between customers and suppliers but faces a significant energy storage problem because it is exceedingly challenging to store huge amounts of electricity. However, the electricity produced in a vehicle is either too much or not enough to power the network, therefore the majority of the production is lost. Here, the electricity is managed by car to grid technology, which balances it out in real-time and further modifies the electricity flow.
The market is projected to grow greatly as a result of the global car industry’s electrification trend’s quick expansion and growth. Government rules that are strict regarding battery cells, onboard chargers, battery pack designs, and thermal propagation are predicted to provide a large growth opportunity for the market for vehicle-to-grid technology.

Growth Influencers:
Growing investment and demand for electric vehicles
The European Green Cars Initiative of the European Union, the Zero-Emission Vehicle Program of California in the United States, and the Faster Adoption and Manufacturing of Electric Vehicles (FAME) scheme of India are just a few examples of government initiatives and benefits that offer tax incentives to manufacturers and consumers to encourage the purchase and use of electric vehicles. Also, according to research from the European Environment Agency, in 2018, worsening air quality across Europe was a result of increased automobile emissions, which also led to an increase in healthcare costs of almost US$ 80 billion. However, this increase in medical expenses brought on by automobile pollution also prompts the government to establish regulations to reduce vehicle emissions. The market for vehicle-to-grid technology is therefore being driven by an increase in government restrictions and spending.
Growing concerns related to carbon emissions.
Businesses are embracing green energy in the production as they work toward becoming carbon neutral by 2050. By making investments in renewable energy, energy-saving machinery, and carbon-free goods, they are achieving this. By way of illustration, the Michelin Group stated in February 2021 that it aimed to have all of its tyres wholly sustainable by the year 2050. Several organisations, including Axens, IFP Energies Nouvelles, Pyrowave, Carbios, Enviro, and BlackCycle worked with Michelin on this project.

Segments Overview:
The global vehicle-to-grid market is segmented into vehicle type, solution type, charging type, application.
By Vehicle Type
o Battery Electric Vehicles (BEVs)
o Plug-In Hybrid Electric Vehicles (PHEVs)
o Fuel Cell Vehicles (FCVs)
The BEVs segment held the highest share close to 73% in 2021.

By Solution Type
o Hardware
 Electric Vehicle Supply
 Equipment (EVSE)
 Smart Meters
 V2G chargers
o Software
 V2G program administration
 Dynamic load management system
o Services
The hardware segment is projected to hold the highest CAGR of 10.8% during the forecast period.

By Charging Type
o Unidirectional
o Bidirectional
The bidirectional segment is likely to hold the highest CAGR of 33% during the forecast period.

• By Application
o Peak Power Sales
o Spinning Reserves
o Base Load Power
o Others
The peak power sales segment is expected to grow with the highest market share of 59.3%.

Regional Overview

By region, the global vehicle-to-grid market is divided into North America, Asia Pacific, Europe, Middle East & Africa, and South America. The European market held the largest market share of more than 35%. The Asia Pacific market is projected to grow at the highest CAGR of 36.2% over the forecast period.

Competitive Landscape

The prominent players operating in the global vehicle-to-grid market include Nissan Motor Corporation, Mitsubishi Motors Corporation, NUVVE Corporation, ENGIE Group, OVO Energy Ltd., Groupe Renault, Honda Motor Co., Ltd., Hyundai Motor Company, C Propulsion, Edison International, DENSO Co, Boulder Electric Vehicle, EV Grid, Hitachi, Next Energy, NRG Energy, OVO Energy Ltd., and others. The top players in the market held around 54% market share.

With its intelligent energy platform, Nuvve Holding Corp., a global leader in cleantech, is electrifying the world at the nexus of energy and transportation. In April 2022, the company participated in a press conference hosted by the U.S. Department of Energy (DOE) to sign a Memorandum of Understanding (MOU) to collaborate with utilities, governmental organisations, and leaders in the electrification industry to accelerate the commercialization of vehicle-to-grid, vehicle-to The DOE started this agreement to unite a variety of public organisations and private businesses to make sure the electrification of electric vehicle (EV) fleets integrates bidirectional charging that can transmit power back to the grid, thereby lowering building loads, providing grid services, and generating revenue for EV owners.

The global vehicle-to-grid market report provides insights on the below pointers:

• Market Penetration: Provides comprehensive information on the market offered by the prominent players
• Market Development: The report offers detailed information about lucrative emerging markets and analyzes penetration across mature segments of the markets
• Market Diversification: Provides in-depth information about untapped geographies, recent developments, and investments
• Competitive Landscape Assessment: Mergers & acquisitions, certifications, product launches in the global vehicle-to-grid market have been provided in this research report. In addition, the report also emphasizes the SWOT analysis of the leading players.
• Product Development & Innovation: The report provides intelligent insights on future technologies, R&D activities, and breakthrough product developments
• Pricing Analysis: Pricing analysis of various components used in the manufacturing of vehicle-to-grid
• Manufacturing Cost Analysis: Cost-share of various components in vehicle-to-grid tools
• Global EV Sales (Mn Units)
• Global Electric Passenger Car Stock, 2017-2020

The global vehicle-to-grid market report answers questions such as:

• What is the market size and forecast of the global vehicle-to-grid market?
• What are the inhibiting factors and impact of COVID-19 on the global vehicle-to-grid market during the assessment period?
• Which are the products/segments/applications/areas to invest in over the assessment period in the global vehicle-to-grid market?
• What is the competitive strategic window for opportunities in the global vehicle-to-grid market?
• What are the technology trends and regulatory frameworks in the global vehicle-to-grid market?
• What is the market share of the leading players in the global vehicle-to-grid market?
• What modes and strategic moves are considered favorable for entering the global vehicle-to-grid market?


目次

Chapter 1.​ Research Framework​

1.1​ Research Objective​

1.2​ Product Overview​

1.3​ Market Segmentation​

Chapter 2.​ Research Methodology ​

2.1​ Qualitative Research​

2.1.1​ Primary & Secondary Sources​

2.2​ Quantitative Research​

2.2.1​ Primary & Secondary Sources​

2.3​ Breakdown of Primary Research Respondents, By Region​

2.4​ Assumption for the Study​

2.5​ Market Size Estimation​

2.6.​ Data Triangulation​

Chapter 3.​ Executive Summary: Global Vehicle-to-Grid (V2G) Market ​

Chapter 4.​ Global Vehicle-to-Grid (V2G) Market Overview​

4.1.​ Industry Value Chain Analysis​

4.1.1.​ Production​

4.1.2.​ Storage​

4.1.3.​ Distribution​

4.1.4.​ End users ​

4.2.​ Industry Outlook​

4.3.​ PESTLE Analysis​

4.4.​ Porter’s Five Forces Analysis​

4.4.1.​ Bargaining Power of Suppliers​

4.4.2.​ Bargaining Power of Buyers​

4.4.3.​ Threat of Substitutes​

4.4.4.​ Threat of New Entrants​

4.4.5.​ Degree of Competition​

4.5.​ Market Dynamics and Trends​

4.5.1.​ Growth Drivers​

4.5.2.​ Restraints​

4.5.3.​ Challenges​

4.5.4.​ Key Trends​

4.6.​ Covid-19 Impact Assessment on Market Growth Trend​

4.7.​ Market Growth and Outlook​

4.8.​ Competition Dashboard​

4.8.1.​ Market Concentration Rate​

4.8.2.​ Company Market Share Analysis (Value %), 2020​

4.8.3.​ Competitor Mapping ​

Chapter 5.​ Vehicle-to-Grid (V2G) Market Analysis, By Vehicle Type​

5.1.​ Key Insights​

5.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

5.2.1.​ Battery Electric Vehicles (BEVs)​

5.2.2.​ Plug-In Hybrid Electric Vehicles (PHEVs)​

5.2.3.​ Fuel Cell Vehicles (FCVs)​

Chapter 6.​ Vehicle-to-Grid (V2G) Market Analysis, By Solution Type ​

6.1.​ Key Insights​

6.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

6.2.1.​ Hardware ​

6.2.1.1.​ Electric Vehicle Supply Equipment (EVSE)​

6.2.1.2.​ Smart Meters​

6.2.1.3.​ V2G Chargers​

6.2.2.​ Software​

6.2.2.1.​ V2G program administration ​

6.2.2.2.​ Dynamic load management system ​

6.2.3.​ Services​

Chapter 7.​ Vehicle-to-Grid (V2G) Market Analysis, By Charging Type​

7.1.​ Key Insights​

7.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

7.2.1.​ Unidirectional ​

7.2.2.​ Bidirectional ​

Chapter 8.​ Vehicle-to-Grid (V2G) Market Analysis, By Application ​

8.1.​ Key Insights​

8.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn) ​

8.2.1.​ Peak Power Sales​

8.2.2.​ Spinning Reserves​

8.2.3.​ Base Load Power​

8.2.4.​ Others​

Chapter 9. Vehicle-to-Grid (V2G) Market Analysis, By Region​

9.1.​ Key Insights​

9.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

9.2.1.​ North America​

9.2.1.1.​ The U.S.​

9.2.1.2.​ Canada​

9.2.1.3.​ Mexico​

9.2.2. Europe​

9.2.2.1.1.​ The UK​

9.2.2.1.2.​ France​

9.2.2.1.3.​ Netherland​

9.2.2.1.4.​ Spain​

9.2.2.1.5.​ Germany​

9.2.2.1.6.​ Italy​

9.2.2.1.7.​ Denmark ​

9.2.2.1.8.​ Rest of Europe​

9.2.3.​ Asia Pacific​

9.2.3.1.​ China​

9.2.3.2.​ India​

9.2.3.3.​ Japan​

9.2.3.4.​ South Korea​

9.2.3.5.​ Australia & New Zealand​

9.2.3.6.​ Rest of APAC​

9.2.4.​ Middle East & Africa​

9.2.4.1.​ UAE ​

9.2.4.2.​ Saudi Arabia​

9.2.4.3.​ South Africa​

9.2.4.4.​ Rest of MEA​

9.2.5.​ South America​

9.2.5.1.​ Argentina​

9.2.5.2.​ Brazil​

9.2.5.3.​ Rest of South America​

Chapter 10.​ North America Vehicle-to-Grid (V2G) Market Analysis​

10.1.​ Key Insights​

10.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

10.2.1.​ By Vehicle ​

10.2.2.​ By Solution Type​

10.2.3.​ By Charging Type​

10.2.4.​ By Application​

10.2.5.​ By Country​

Chapter 11.​ Europe Vehicle-to-Grid (V2G) Market Analysis​

11.1.​ Key Insights​

11.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

11.2.1.​ By Vehicle ​

11.2.2.​ By Solution Type​

11.2.3.​ By Charging Type​

11.2.4.​ By Application​

11.2.5.​ By Country​

Chapter 12.​ Asia Pacific Vehicle-to-Grid (V2G) Market Analysis​

12.1.​ Key Insights​

12.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

12.2.1.​ By Vehicle ​

12.2.2.​ By Solution Type​

12.2.3.​ By Charging Type​

12.2.4.​ By Application​

12.2.5.​ By Country​

Chapter 13.​ Middle East and Africa Vehicle-to-Grid (V2G) Market Analysis​

13.1.​ Key Insights​

13.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

13.2.1.​ By Vehicle ​

13.2.2.​ By Solution Type​

13.2.3.​ By Charging Type​

13.2.4.​ By Application​

13.2.5.​ By Country​

Chapter 14.​ South America Vehicle-to-Grid (V2G) Market Analysis​

14.1.​ Key Insights​

14.2.​ Market Size and Forecast, 2017 – 2030 (US$ Mn)​

14.2.1.​ By Vehicle ​

14.2.2.​ By Solution Type​

14.2.3.​ By Charging Type​

14.2.4.​ By Application​

14.2.5.​ By Country​

Chapter 15.​ Company Profile (Company Overview, Financial Matrix, Key Product landscape, Key Personnel, Key Competitors, Contact Address, and Business Strategy Outlook) ​

15.1.​ Nissan Motor Corporation​

15.2.​ Mitsubishi Motors Corporation​

15.3.​ NUVVE Corporation​

15.4.​ ENGIE Group​

15.5.​ OVO Energy Ltd.​

15.6.​ Groupe Renault​

15.7.​ Honda Motor Co., Ltd. ​

15.8.​ Hyundai Motor Company​

15.9.​ C Propulsion, ​

15.10.​ Edison International.​

15.11.​ DENSO Co.​

15.12.​ Boulder Electric Vehicle​

15.13.​ EV Grid​

15.14.​ Hitachi​

15.15.​ Next Energy​

15.16.​ NRG Energy​

15.17.​ OVO Energy Ltd.​

15.18.​ Other Prominent Players​


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