Electric Vehicle Training Courses - Global automotive industry has always trusted the skilled labour and technical workforce since the first Industrial Revolution. With the onset of the Electric Vehicle Revolution in the last decade, the situation has changed very little. Every country including major electrical automotive manufacturing giants like the UK and EU still employ as high as 3.5 million people in this industry. Even India finds itself in the need of at least 20 million Electric Vehicle engineers, technicians, researchers and labourers (European Climate Foundation and Niti Ayog, 2019).
According to the estimate of the Ministry of Skill Development and Entrepreneurship, the EV industry alone will create one crore jobs by 2030.
One of the most primitive defining points for EV is the power (in kW) they can produce which determines the speed they're capable of charging. While connector types are a key issue, most EVs are equipped with two or more cables that allow the usage of chargers with different connector outlets.
With Robot Process Automation and Human Intervention Technologies, the automobile industry has already started toward Digital transformation. In 2021, the automobile industry will come with big disruptions. Check out the trending technologies that are transforming and will be disrupting the Electric Vehicle industry this year.
The shift from a pure mechanical engineer profile towards a blend of mechanical and electrical systems, or software engineer profile will make for more universal engineers, hence mobility engineers. Mobility engineers are trained to tackle the complexity of current mobility systems and their relationships with areas such as safety, new technologies, ethics, and urban development, among others. They must have a proficiency in a diversity of disciplines, such as the areas of computer science, systems integration, and product life-cycle management. Mobility engineers need collective skills to develop a global understanding of transportation and automotive technologies, and therefore, be able to design highly effective and highly integrated solutions.
Transportation drives the global economy. It’s at the heart of both business and pleasure. With the world's population nearing 8 billion, all that travel adds up. And it’s taking a toll on the planet. Rapidly increasing mobility while decreasing environmental impact isn't easy. Simulation is the key to understanding those decisions and realizing the benefits of electrification.
The global automakers have been copiously juggling with finding new and sustainable alternatives to fossil fuels, for decades. The overall environmental degradation has not been a hidden consequence of burning fuels from the world. And now, the need to switch from fuels to other environmental-friendly alternatives is more than ever. The world has now joined hands together and pledged for a carbon-neutral world with zero carbon emission. Electric vehicles would be a key player to help achieve that goal.
All of a sudden we have realised that Electrical Vehicles have become a topic of discussion in each and every country. We cannot deny the fact that the climate is changing. And that too at a stupendous rate. Human activities have caused this havoc. We are so accustomed to our polluting technologies that getting off them completely is not possible. We have to find sustainable technologies that not only cater to our needs but also ensure that we do not destroy and pollute the nature around us. This is where the role of Electrical vehicles comes into picture. The time is going to come soon when we are going to have millions of electrical vehicles on the road. It opens a myriad of opportunities for those who are looking for entrepreneurial ventures in the EV industry.