Market Study on Lithium Ion Batteries: India electric vehicles market is expected to expand at a CAGR of 17%
Addressing a webinar on 'India's Electric Vehicle Roadmap post-COVID-19', Gadkari assured the electric vehicles sector of all the support in view of disruptions caused by the coronavirus crisis
In a new report published by Persistence Market Research titled “Electric Vehicle Market: India Industry Analysis (2012-2016) and Forecast (2017-2025),” it has been observed that the India electric vehicles market is expected to expand at a CAGR of 17% in terms of value during the forecast period.
On the present trend in the global market, Union minister Nitin Gadkari said, "The world is no more interested in doing business with China, which is a very good opportunity for Indian industry to pick up the shift in business."
According to this report, market players are focusing on expanding their presence in India where the electric vehicles industry is growing at a rapid rate. The electric vehicle market in India is anticipated to create lucrative opportunities for electric vehicle manufacturers as well as for vehicle component manufacturers in the near future. Owing to this fact, huge investments are already being planned by many key vendors in the Indian market to capitalize on the opportunities provided by the high potential market for electric vehicles in the subcontinent.
Lithium Ion Battery Market Trends
High specific energy characteristics, low internal resistance, and versatility to suit different power capacity configurations are the key factors driving the leadership of the lithium nickel manganese cobalt oxide battery type in the market. Lithium ion battery technology has found primary usage in electronic devices such as mobile phones, smartphones, etc., and has then moved up the chain to penetrate other end-use areas such as consumer appliances, power tools, and energy storage systems. However, the most significant development has been the scaling up of this technology for larger applications such as electric vehicles and electric bikes.
Lithium-ion manganese oxide is expected to be the highest-recycled battery types in the lithium-ion battery recycling market, by battery chemistry during the forecast period 2025–2030. The increasing adoption of lithium-ion manganese oxide batteries for power tools, medical devices, and electric powertrains is one of the key factors driving the growth of the lithium-ion battery recycling market globally.
Table of Contents
1. Terms used in the project report
2. Globally current application of lithium-ion battery storage
3. OEMs Battery pack manufacturing strategy
4. Lithium-ion Battery Manufacturers in India
5. Introduction with Lithium-ion and EV
6. Introduction with Battery Pack
7. Lithium-ion chemistry
8. Li-ion cell to battery-pack value chain
9. Design Considerations
10. LITHIUM ION BATTERY TYPES
11. Plant Layout
12. PLANT LOCATION FACTORS
13. Environment: Applicable Regulatory Framework and Environmental Impact of Project
14. License, certificate and Approval
15. Project Technical Concept
16. Assembling process of lithium ion battery
17. Li ion battery assembly Line
18. Production line layout
19. Battery Cost Effect
20. Effects of Cell Chemistry on Battery Cost
21. Type of production unit
22. MACHINERY AND EQUIPMENTS
23. Machinery and equipments suppliers
24. Packaging Material Solutions for Battery Manufacturing
25. Transportation of Battery pack
26. Battery Waste Management
27. Slandered Code
28. Test Certification
29. Battery Pack Manufacturing Investment Costs
30. Plant Economics
31. Fixed Capital, Working Capital, Capital Investment
32. Cost of production/annum
33. Turn Over/Annum
34. Risks & Mitigation
35. Human Resources
36. Business guide line
37. Address of financial institutions
38. Address of relevant government offices
Download Sample Report Lithium-ion Battery Module, Pack Assembly: Detailed Techno-Economic Feasibility Report