Jammu and Kashmir's reserve might be present with a large amount of lithium, but the current amount is insufficient to match with the world's top reserves of Lithium.
For India to become self-reliant in the field of solar energy storage and EV manufacturing without being dependent on China for EV battery supplies, it is important to own more such Lithium reserves and enhance its presence in overseas lithium mines.
Solar lighting system operates on electricity from batteries, charged through the use of solar photovoltaic panels. It is composed of a battery, solar panel, LED lamp, and charge controller. The stored energy is collected in a rechargeable Lithium-ion battery used later to produce lighting at night. The rapid infrastructure development in all sectors of India is pushing local solar light manufacturers to compete and deliver innovative solar lighting products at low prices to increase their presence in the market.
All-electric vehicles (EVs), also referred to as battery electric vehicles, use a battery pack to store the electrical energy that powers the motor. EV batteries are charged by plugging the vehicle in to an electric power source.
The key components are
Battery : Which has the stored energy
Motors : Which converts this into rotational energy for mobility.
Controller : Is an electronic hardware device +software which works very closely with the motor and is usually bundled with. A motor controller might include a manual or automatic means for starting and stopping the motor, selecting forward or reverse rotation, selecting and regulating the speed, regulating or limiting the torque, and protecting against overloads and electrical faults.
The motor of an electric car converts the current from the battery into mechanical energy. This is done by a fixed magnetic part (stator) and a moving part (rotor) that is made magnetic by electricity. If two positive poles are facing each other due to the electrical charge, they repel each other - and the moving part of the electric motor rotates.
Electric motors develop similar torque at low as well as at high speeds. Theoretically, therefore, a rigid connection between the motor and the drive shaft would suffice for them. In practice, however, an input gearbox is usually used as a so-called reduction gear, which reduces the speed of the motor by a factor of about 1:10.
The motor of an electric car consists of two electromagnets - stator and rotor. The stator is immobile and generates a constant magnetic field with the help of direct current. The rotor is rotatable and produces its magnetic field with alternating current. The two magnets alternately attract and repel each other. The rotor rotates - and thus sets the car in motion.
The inverter is also called a converter. This is because it has the task of converting the 3-phase AC voltage of the electric motor into a DC voltage for charging the battery when braking. Conversely, when the electric motor is driven, the battery's DC voltage is converted into a 3-phase AC voltage.
Lithium-ion batteries are the heart of our electric cars. They are particularly powerful and have the highest energy density compared to other batteries. This means that they can store the most energy per kilogram of battery. Lithium-ion batteries have numerous advantages: due to their compact size, more individual lithium-ion batteries fit in your Opel electric car. So you can travel further. They also require less energy to cool the vehicle battery to its optimal operating temperature.
Also good to know: our batteries are not affected by the so-called "memory effect". You can recharge your electric vehicle battery as often as you like - even through mobile fast charging - without any loss of performance.
Independent studies estimate that you can drive 250,000, even up to 500,000 km with the battery of an electric car1. The durability of our batteries is therefore probably on a par with that of our combustion engines. That's why we give an 8-year guarantee on our electric car batteries, or 160,000 km of driving.
The market for battery swapping services in India is bifurcated at present, with different players incorporating diverse battery types for various kinds of vehicles. Locating suitable charging infrastructure and connections may be challenging in the aftermath of the stated measure. As a result of the utilisation of sub-standard batteries, there have also been occurrences of fires at battery-switching facilities.
Jammu and Kashmir's reserve might be present with a large amount of lithium, but the current amount is insufficient to match with the world's top reserves of Lithium. For India to become self-reliant in the field of solar energy storage and EV manufacturing without being dependent on China for EV battery supplies, it is important to own more such Lithium reserves and enhance its presence in overseas lithium mines. Solar lighting system operates on electricity from batteries, charged through the use of solar photovoltaic panels. It is composed of a battery, solar panel, LED lamp, and charge controller. The stored energy is collected in a rechargeable Lithium-ion battery used later to produce lighting at night. The rapid infrastructure development in all sectors of India is pushing local solar light manufacturers to compete and deliver innovative solar lighting products at low prices to increase their presence in the market.
Local Lithium-ion battery production is expected to lower the cost of electric vehicles soon. This means entrepreneurs have great potential to start their lithium-ion battery businesses. The whole process may seem simple, but knowledge and skill required,
like
1. be sure you understand how batteries are made
2. selected which market segment best to enter
3. licenses, permissions, or approvals required for operating a battery factory and many more …
Through all of the potential knowledge and skills, you can be better prepared for whatever comes your way.
EV EVSE Business Management Course for Entrepreneurs
Techno Commercial skill for EV Startups: This course also explains how electric mobility can work for various businesses, including fleet managers, automobile manufacturers and charging infrastructure providers. you can able to create e-mobility business for your company. More...
Duration: Study options:
Solar Power Electric Vehicle Charging Station Design Development
Online / Offline EV Charging Station Designs, planing, costing, ROI, vendor selection and serves as a starting point for EV charging installation projects. Case study of EV charging station business model.
More...
Duration: Study options:
To set up a PV solar EPC business an individual from any background need a detailed knowledge from residential, commercial and industrial PV projects detailed engineering to techno-commercial report preparation. This course covers technical details needed to assess potential residential, commercial PV projects and to prepare proposals. Discussed in detail: safety, site analysis, design, performance, costing, subsidy, financial-benefit analysis, financing bankable report preparation. More...
Duration: Study options:
Vocational Training in e-Mobility
Online Virtual class on EV Charging Station installation, EV Battery, EV Motor and more. More...
Duration: 2 Weeks
Lithium-ion Battery pack assembly line
This course will deliver from basics of Solar Energy storage Lithium-ion battery, Battery pack assembly process and equipment, raw materials, Machinery availability & vendor selection, Understanding Finance Basics & Business Model.From IST Battery Technology and assembly lines training, the component suppliers may quickly and easily implement their development manufacturing setup.
More...
Duration: Study options:
This Course also provides of a vast opportunities in getting wider knowledge in the areas of concept development, site identification, feasibility study, detailed system design, engineering, construction & commercial operation, operational performance monitoring of solar Utility Scale power projects, financial aspects of the solar power plant like DPR,DSCR,ROI,CUF estimation and CAPEX ,OPEX modelling. More...
Duration: Study options:
To set up a PV solar EPC business an individual from any background need a detailed knowledge from residential, commercial and industrial PV projects detailed engineering to techno-commercial report preparation. This course covers technical details needed to assess potential residential, commercial PV projects and to prepare proposals. Discussed in detail: safety, site analysis, design, performance, costing, subsidy, financial-benefit analysis, financing bankable report preparation.
*** Offline Class at IST Howrah (W.B) More...
Duration: Study options:
This course will deliver from basic of EV to EVSE equipment like Lithium-ion battery, Battery pack assembly process, EV Motor, Charger, charging station development and all others parts/ equipment’s calculation, selection, building a Legal Foundation, Understanding Finance Basics, Business Planning and Fundraising. More...
Duration: Study options:
This on-demand training outlines the necessary steps for planning and directing an operations and maintenance (O&M) program for the life of a photovoltaic (PV) system across a variety of system types, sizes, and environments. The course instructs on how to optimize system performance, consider environmental and site conditions when preparing an O&M plan, understand warranties and guarantees, and how to budget for ongoing O&M. More...
Duration: Study options:
Solar Power Electric Vehicle Charging Station Design Development
Online / Offline EV Charging Station Designs, planing, costing, ROI, vendor selection and serves as a starting point for EV charging installation projects. Case study of EV charging station business model.
More...
Duration: Study options:
EV Battery pack assembly line
Today's battery systems are essential, complex and multi-functional modules in electric vehicles. From AEVT EV Battery Technology and assembly lines training, the vehicle manufacturers and component suppliers may quickly and easily implement their development ideas.
More...
Duration: Study options:
EV Battery pack assembly line
Today's battery systems are essential, complex and multi-functional modules in electric vehicles. From AEVT EV Battery Technology and assembly lines training, the vehicle manufacturers and component suppliers may quickly and easily implement their development ideas.
More...
Duration: Study options:
Recycling is an important part of sustainability. However, we can see several issues with EV batteries that have traditionally posed problems for servicing, repairing and recycling. From AEVT EV Battery Technology and repairing training, may quickly and easily implement their development ideas.
More...
Duration: Study options:
Recycling is an important part of sustainability. However, we can see several issues with EV batteries that have traditionally posed problems for servicing, repairing and recycling. From AEVT EV Battery Technology and repairing training, may quickly and easily implement their development ideas.
More...
Duration: Study options:
This Course also provides of a vast opportunities in getting wider knowledge in the areas of concept development, site identification, feasibility study, detailed system design, engineering, construction & commercial operation, operational performance monitoring of solar Utility Scale power projects, financial aspects of the solar power plant like DPR,DSCR,ROI,CUF estimation and CAPEX ,OPEX modelling. More...
Duration: Study options:
Corporate training:
PV System Design and Documentation
Syllabus
1. Solar Module Technology
2. Solar Resource Assessment
3. Solar plant Balance of System
4. Solar power plant Design
5. Solar Simulation Software
6. Project Documentation
More...
Duration: Study options: