Automobiles have contributed significantly to the development of modern society by meeting many of the needs for mobility in daily life. Unlike any other sector, the automotive industry's explosive growth has accelerated human society's transition from a primitive to a highly sophisticated industrial society. The automobile industry, as well as the industries that support it, are the backbone of the global economy, employing the majority of the employed population.
The vast number of motor vehicles in use across the world, on the other hand, has created and caused immense major environmental and human health problems. Pollution, anthropogenic climate change, and the rapid depletion of the world's natural resources.
The depletion of the Earth's hydrocarbon supplies is now a major concern. And, in the last decade, the rise in fuel prices has never been reversed. With the rapid development of several densely populated countries, notably in the Asia-Pacific area, consumption is anticipated to skyrocket (China, India, New Zealand, Japan, Indonesia, UN, South Korea, etc.). More energy consumption leads to higher pricing, therefore while other factors remain constant, demand for a product is directly proportional to its price, that is, if demand for a commodity increases, its price tends to rise as well.
The majority of petroleum-producing countries are not the largest consumers of petroleum. The majority of production takes place in the Middle East, while the majority of consumption occurs in Europe, North America, and Asia-Pacific. As a result, consumers must import oil and rely on the countries that produce it. This is an especially delicate subject in the Middle East, where political unrest disrupted oil deliveries to Western countries in 1973 and 1977. The Gulf War, the Iran–Iraq war, and the continual surveillance of the region by US and ally forces, as well as the conflict between Russia and Ukraine, all come at a human and financial cost. The cost of Western economies' reliance on a volatile oil supply could be high. Indeed, a scarcity of oil produces a significant slowdown in the economy, resulting in perishable commodities being ruined, lost commercial chances being lost, and eventually the inability to run firms.
In recent decades, the research and development activities related to transportation have emphasized the development of high efficiency, clean, and safe transportation. Electric vehicles, hybrid electric vehicles, and fuel cell vehicles have been typically proposed to replace conventional vehicles in the near future. And as it is already known that E vehicles are the best alternative for the automobiles that costs high fuelling prices, whereas consume very little or no gasoline, these vehicles offer reduced operating and maintenance expenses. Lithium-ion batteries are the industry standard for modern battery electric vehicles since they last a long time and store energy well.
At between one and two cents per mile (depending on electric rates), electric machines enjoy an enormous fuel cost advantage. Three months and 2,800 km (1,700 mi) of commuting on an electric motorcycle cost pricing less than $30 for electricity; on a BMW gasoline bike a single trip of 650 km (400 mi) cost nearly the same. In Australia, UBCO battery Electric Motorbike running cost is 88¢ per 100 km. In India, Ampere Electric Scooter's running cost is at Rs. 0.15 per km.
Hybrid vehicles, which use current internal combustion engines (ICEs) as their major power source and batteries/electric motors as a peaking power source, have a substantially higher operating efficiency than vehicles that only use ICEs.
One of the rising E vehicle companies in India recognizes SUPER ECO as good option if you want to switch to safer and better option, it can be taken into consideration.
In 2016, Super Eco recognised the enormous potential of electric two-wheelers and began developing the concept of "Superior Quality Vehicles at Affordable Prices," resulting in the "SUPER ECO" SE1 as the company's first non-registration scooter. It was fully based on Next Generation Lithium Battery, German Technology Bosch Motor, and Regenerative Braking System using Most Advanced Controller Mechanism providing highest power and mileage combination. Moving forward, Super Eco continued to work on the most advanced models and bikes, resulting in production ready models S1 and S2 in both low and high speed categories. In these scooters, new upgradeable Technology is used so that in the future, whatever gadgets are available, such as GPS, Wi-Fi, Android Display, and Battery swapping system, can be added to it, all while keeping German Technology at its core.