Wireless power transfer or WPT refers to an advanced technological solution that enables devices to be powered wirelessly without having to be connected to the electrical grid by a cable. It transmits electrical energy by an electromagnetic field across an intervening space. It is widely used to charge electronic devices, biomedical implants, and vehicles. It eliminates the need for individuals to recharge the batteries of electric vehicles (EVs) manually and ensures safer charging operations. It offers enhanced convenience, reliability, and mobility while reducing the cost of onboard batteries. In recent years, WPT for EVs has gained immense traction as a sustainable and cost-effective solution to electric vehicle range anxiety.
The surging EV sales due to inflating consumer expenditure capacities, rapid urbanization, and elevating living standards represent the primary factor driving the global wireless power transfer for electric vehicle market. Additionally, with the growing environmental concerns, governments of various countries are introducing stringent regulations to control emissions and taking favorable initiatives to promote the adoption of EVs. In line with this, the increasing awareness about the advantages of wireless charging over wired charging has augmented the demand for WPT for EVs. Furthermore, several leading automotive original equipment manufacturers (OEMs) are making heavy investments to incorporate wireless technology in their models to reduce the battery size and overall cost of vehicles. Along with this, the shifting inclination toward autonomous driving is positively influencing the market growth. Other factors, including the expanding automotive industry, rising development of smart roads, improving fast-charging infrastructure for EVs, ongoing research and development (R&D) activities, and technological advancements, are also anticipated to catalyze the market growth.
The report provides a techno-commercial roadmap for setting up an wireless power transfer for electric vehicle manufacturing plant. The study covers all the requisite aspects that one needs to know while making a foray into the wireless power transfer for electric vehicle industry. This ranges from macro overview of the market to micro details of the industry performance, key success and risk factors, manufacturing requirements, project cost, project economics, expected returns on investment, profit margins, etc. This report is a must-read for entrepreneurs, investors, researchers, consultants, business strategists, and all those who have any kind of stake in the wireless power transfer for electric vehicle industry.
The project report covers the following aspects of the wireless power transfer for electric vehicle market:
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1 Preface
2 Scope and Methodology
2.1 Objectives of the Study
2.2 Stakeholders
2.3 Research Methodology
3 Executive Summary
3.1 Market Scenario
3.2 Raw Material Requirements
3.3 Income Projections
3.4 Expenditure Projections
3.5 Profit Analysis
4 Global Wireless Power Transfer for Electric Vehicle Market
4.1 Market Overview
4.2 Historical and Current Market Performance
4.3 Market Breakup by Segment
4.4 Market Breakup by Region
4.5 Price Trends
4.5.1 Raw Material Price Trends
4.5.2 Wireless Power Transfer for Electric Vehicle Price Trends
4.5.3 Product Margins
4.6 Market Forecast
5 Wireless Power Transfer for Electric Vehicle Manufacturing Process
5.1 Product Overview
5.2 Detailed Process Flow
5.3 Various Types of Unit Operations Involved
5.4 Mass Balance and Raw Material Requirements
6 Project Details, Requirements and Costs Involved
6.1 Land, Location and Site Development
6.1.1 Overview of Land Location
6.1.2 Project Planning and Phasing of Development
6.1.3 Environmental Impacts
6.1.4 Land Requirement and Expenditure
6.2 Plant Layout
6.3 Plant Machinery
6.3.1 Machinery Requirements and Costs
6.3.2 Machinery Suppliers
6.3.3 Machinery Pictures
6.4 Raw Materials
6.4.1 Raw Material Requirements
6.4.2 Raw Material Procurement
6.4.3 Raw Material Expenditure
6.4.4 Raw Material Suppliers
6.4.5 Raw Material and Final Product Pictures
6.5 Packaging Requirements and Expenditures
6.6 Transportation Requirements and Expenditures
6.7 Utilities Requirements and Expenditures
6.8 Manpower Requirements and Expenditures
7 Loans and Financial Assistance
8 Project Economics
8.1 Capital Cost of the Project
8.2 Operating Expenses
8.3 Expenditure Projections
8.4 Income Projections
8.5 Product Pricing and Margins
8.6 Taxation
8.7 Depreciation
8.8 Financial Analysis
8.8.1 Liquidity Analysis
8.8.2 Profitability Analysis
8.8.2.1 Payback Period
8.8.2.2 Net Present Value
8.8.2.3 Internal Rate of Return
8.8.2.4 Profit and Loss Account
8.8.3 Uncertainty Analysis
8.8.4 Sensitivity Analysis
9 Regulatory Procedures and Approval
10 Key Success and Risk Factors
List of Figures
Figure 1: Global: Wireless Power Transfer for Electric Vehicle Market: Major Drivers and Challenges
Figure 2: Global: Wireless Power Transfer for Electric Vehicle Market: Value Trends (in Million US$), 2017-2022
Figure 3: Global: Wireless Power Transfer for Electric Vehicle Market Forecast: Value Trends (in Million US$), 2023-2028
Figure 4: Global: Wireless Power Transfer for Electric Vehicle Market: Breakup by Segment (in %), 2022
Figure 5: Global: Wireless Power Transfer for Electric Vehicle Market: Breakup by Region (in %), 2022
Figure 6: Wireless Power Transfer for Electric Vehicle Raw Materials: Price Trends, 2017 & 2022
Figure 7: Wireless Power Transfer for Electric Vehicle: Price Trends, 2017 & 2022
Figure 8: Wireless Power Transfer for Electric Vehicle: Margins Across Various Stages of the Supply Chain
Figure 9: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Breakup of Operational Costs
Figure 10: Wireless Power Transfer for Electric Vehicle Price Structure
Figure 11: Wireless Power Transfer for Electric Vehicle: Manufacturing Process Flow
Figure 12: Wireless Power Transfer for Electric Vehicle: Manufacturing Process: Conversion Rate of Feedstocks
Figure 13: Wireless Power Transfer for Electric Vehicle Manufacturing Plant Layout
List of Tables
Table 1: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Raw Material Requirements
Table 2: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Project Planning
Table 3: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Phasing of Development
Table 4: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Environmental Impacts During Construction Phase
Table 5: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Environmental Impacts During Operation Phase
Table 6: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Costs Related to Land and Site Development (in US$)
Table 7: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Costs Related to Machinery
Table 8: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: List of Machinery Suppliers
Table 9: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Costs Related to Raw Materials
Table 10: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: List of Raw Material Suppliers
Table 11: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Costs Related to Packaging
Table 12: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Costs Related to Utilities
Table 13: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Costs Related to Salaries and Wages
Table 14: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Capital Costs
Table 15: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Operating Costs
Table 16: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Taxation
Table 17: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Depreciation
Table 18: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Income Projections
Table 19: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Expenditure Projections
Table 20: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Liquidity Analysis Without Considering the Income Tax Liability
Table 21: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Liquidity Analysis on Considering the Income Tax Liability
Table 22: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Profitability Analysis Without Considering the Income Tax Liability
Table 23: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Profitability Analysis on Considering the Income Tax Liability
Table 24: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Profit and Loss Account
Table 25: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Discount Factor Rate
Table 26: Wireless Power Transfer for Electric Vehicle Manufacturing Plant: Sensitivity Analysis
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