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Why Electric Vehicles are the Future: The Call for Eco-Friendly Savings, High Sustainability, and Enjoyable Driving Experience

 

 

 

 

Why Electric Vehicles are the Future: The Call for Eco-Friendly Savings, High Sustainability, and Enjoyable Driving Experience

 

Abstract

The need for sustainable and enjoyable transport would be accomplished by embarking on electric vehicle production in the world. Saving on resources, developing sustainable materials, and enhancing the driving experience are key reasons to focus on a future dominated by electric vehicles. The findings from this study indicate that electric vehicles are the leading innovative ideas that would transform the world by creating an enjoyable experience when cost and sustainability challenges are offset. With all these in place, electric vehicles are the hope for the future.

 

 

Introduction

Electric vehicles are those automobiles that use electric motors for propulsion as opposed to fuel. The advancement of world technology across the different sectors calls for the development of sustainable products which conserve non-renewable energy and offset environmental degradation. Currently, there are about 1.2 billion motor vehicles in the world, most of which use fuel obtained from fossil fuels which increase harmful emissions to the environment (Sioshansi & Webb, 2019). The increased production and use of electric vehicles will eliminate these emissions by a great proportion and make the world a comfortable place for everyone. Although their manufacturing has been criticized for increased greenhouse emissions, electric vehicles are the future because of their eco-friendly savings, high sustainability, and enjoyable driving experience.

Eco-friendly Savings

Eco-friendly savings is the aspect of avoiding harmful emissions to the environment. The common vehicles using fossil fuel energy sources are criticized for increasing carbon dioxide emissions which are harmful to the environment through global warming and climate change. However, electric vehicles are environmentally friendly as they have no emissions associated with fossil fuels which have become a worldwide problem (Wang et al., 2020). The complexity of the fight against climate change and global warming resulting from greenhouse emissions requires stringent measures that cut off the sources of these problems. EPA (2022) reported that 27% of the greenhouse emissions in the US come from the transport industry. This is an indication of the need to have electric vehicles to replace those with harmful emissions.

The underlying impact of the greenhouse gases emitted by vehicles is the trapping of heat and warms the planet. The impact has increased with time as the number of fossil fuel-based motor vehicles escalated. In addition to other human activities such as industrial processes, agriculture, and residential processes, the greenhouse emissions become overwhelming. Although producing electricity contributes to greenhouse emissions, it happens at a particular point at a lower extent compared to how motor vehicles produce these emissions all over. By reversing the motor vehicle industry tangentially by increasing the production of electric vehicles and reducing those that use fuels from fossil fuels, the world would gradually be restored. The electric vehicle industry is capable of enhancing the clean energy mission to reduce emissions by at least 80% (Vidyanandan, 2018). If possible, reaching zero-carbon emissions by 2050 would address the huge climate challenge. This can offset some of the problems witnessed in health and other sectors.

Electric vehicles will reduce the immense environmental conservation expenditure put in place to reduce harmful emissions. The atmosphere is already clogged with emissions, and the effort to reduce these is costly and sometimes impossible. To reduce use, Metcalf (2020) established that countries such as the US use a carbon tax to reduce the use of fossil fuels which leads to raising the fuel levy. This may not be sufficient if there are no alternatives provided through increasing the production of electric vehicles. Indeed, even with the tax levies on fuel, the number of motor vehicles in the US continues to increase, and this depicts the need to have electric vehicles to avoid the harmful emissions that challenge the world (Haites, 2018). If the necessary measures are put in place, the increasing criticism of how vehicles remain the leading environmental degraders as the technology would have assisted in developing mechanisms to reduce the already experienced problems in the world.

High Sustainability

Sustainability is the ability of a given product or service to avoid depletion and maintain a given ecological balance. Electric vehicles are sustainable in that they prevent the depletion of natural resources, including fossil fuels. Due to the increasing rate of fuel consumption because of the many vehicles in the world and their continually increasing number, these resources will be exhausted with time. This can be witnessed in how the fuel reservoirs reduce and the escalating oil prices. Electric vehicles will decelerate this consumption and allow non-renewable fuel retention. Considering that electricity can be obtained from diverse sources, including solar and wind, as opposed to the generation using fossil fuels, electric vehicles hold the world’s future in the transport industry (Tabuchi & Plumer, 2021). Generally, the sustainability aspect of electric vehicles involves a combination of the energy-saving concepts and the environmental impact associated with the innovativeness deployed in the manufacture and use.

The goal of electric vehicles to use renewable energy alternatives means that the world will be saved from the fears that the oil resources could be depleted in a few decades to come. Such an aspect is sustainable if technologies can be developed to use renewable resources in electricity generation, including nuclear power, wind, and solar, which will never be exhausted. The technology does not only focus on the current life but also on the future generations, which would have challenges after oil depletion (Engels, 2022). The transport industry remains one of the major economic drivers, and the challenges experienced because of energy problems are catastrophic for the world’s future. As a result, electric vehicles will alleviate the fear of uncertainty.

Considerably, sustainability on operation costs, in the long run, makes electric vehicles the best future energy solutions in the automotive industry. Although there is criticism on the cost of parts such as batteries and replacements in electric vehicles, their maintenance on fuel perspective is cheap. Consumers continue complaining about the increasing oil costs in the world market, which then result in the increased cost of other consumer products. This means that electric vehicles will reduce the cost of living because the vehicles are cheap to charge, and the transport cost goes down. Currently, the use of oil-based fuels for motor vehicles is very expensive, and maintaining such a system requires a huge investment over a long period (Nour et al., 2019). Indeed, electric vehicles will offset this burden and allow owners to use the amount for other activities.

While countries aim at enhancing efforts toward the development of smart cities, a complete transformation to achieve such goals would not be possible in the presence of fossil fuel-based vehicles. Electric vehicles have a major role to play in smart city sustainability, especially in energy conservation and harmful emissions. Smart cities have focused on improving the major urban areas to suppress congestion, noise, and other overwhelming problems the automotive industry is likely to cause (Laroui et al., 2019). Even as many people continue having vehicles in the phase when the electric automobiles would be at an increased production rate, cities will be protected at all costs.

Enjoyable Driving Experience

One of the key desires in driving is comfort and enjoyment in the ride. This aspect is witnessed in the various innovative ideas established in the automotive industries, where companies continue enhancing the efficiency and ease of driving. Electric vehicles have even more improved features for the driver, which eliminates fatigue and other negative experiences on the cruise. As technology continues advancing, even more, future electric vehicles will have better cruise control experiences. In that case, individuals with certain problems such as eyesight would have an easy time because they might employ little control over the vehicle as opposed to current or the previous models (Wang, 2020). This benefit implies that people would consider it fun and efficient to own an electric vehicle.

Also, safe driving is what any driver would desire in their vehicles. Electric vehicles have improved safety for the drivers and passengers such that it is rare to have catastrophic crashes compared to the traditional vehicle designs that depend on total control from the driver to maintain the best safety standards. Wang et al. (2019) indicated that electric vehicles have the potential for enhanced safety mechanisms across various aspects, including charging and the overall driving process. For instance, the risk associated with oil-based fuel filling stations can be mitigated by establishing proper safety standards in electric vehicles. As the driver and passengers in the electric vehicle understand their safety is guaranteed, there is much probability of enjoying the ride.

Considerably, electric car enjoyment during driving also occurs as a result of the relaxation feeling caused during acceleration. Even the cheapest electric vehicles offer amazing driving because the engine does not strive as in the oil-based vehicles where combustion must occur to produce the necessary amount of energy for adequate propulsion when in need to accelerate. Indeed, electric vehicles have the capability to offer a zero-noise cruising experience (Rezig et al., 2020). Anyone would love to have an amazing encounter with electric vehicles, and this desire will be accomplished in the future as the technology continues to gain the necessary momentum and more innovative ideas are established to maximize viability for more production.

Then, stability is an essential aspect of any vehicle in motion. It prevents the possibility of overturning or losing control even at high speeds. This makes the driver and those on board feel secure and has much assurance that the vehicle has balance. The idea with the electric vehicle stability features is that the huge battery used is placed at a central point where most of the weight is concentrated and lowers the center of gravity (Engels, 2022). There is superior weight distribution with this arrangement such that there is no position that the vehicle can tilt onto to lose control. The aim of reducing accidents through instability has remained a major concern that will be addressed in the future through electric vehicles.

Nevertheless, the development of electric vehicles is criticized because it is perceived to create more emissions than manufacturing fossil fuel-driven vehicles. This is a significant challenge that questions the sustainability of electric vehicles and their preference to offset the adverse environmental effects (Nealer & Hendrickson, 2015). The efforts to transform the negativity in the production process have been ongoing to ensure that the challenge will be eliminated when the development reaches the maximum level.

Conclusion

Although electric vehicles are criticized of extreme emissions during their production, they are the future for the multiple benefits, including savings through eco-friendly value, sustainability, and pleasurable driving. The suppressive impacts oil-driven vehicles impose on the environment, and the cruising challenges they impact on users will be eliminated when electric vehicles dominate the world. The focus on restoring the planet is an essential idea because if the currently experienced degradation continues in several decades to come, the world will be inhabitable. Therefore, electric vehicles can be used to offset the overwhelming energy degradation and pollution problems and the unfriendly cruising experiences of oil-based automobiles. Nevertheless, this future would only be possible if the efforts to increase production and improvement of electric vehicles are accelerated.

 

 

References

Engels, L. J. (2022). Behavioral intentions of an electric vehicle purchase: impact of different factors on the purchase behavior of an electric vehicle of German consumers (Doctoral dissertation).

EPA  (2022, April 14). Sources of Greenhouse Gas Emission. https://www.epa.gov/ghgemissions/sources-greenhouse-gas-emissions#:~:text=Emissions%20and%20Trends,-Related%20Links&text=In%202020%2C%20greenhouse%20gas%20emissions,of%20U.S.%20greenhouse%20gas%20emissions.

Haites, E. (2018). Carbon taxes and greenhouse gas emissions trading systems: what have we learned?. Climate policy18(8), 955-966.

Laroui, M., Dridi, A., Afifi, H., Moungla, H., Marot, M., & Cherif, M. A. (2019, June). Energy management for electric vehicles in smart cities: a deep learning approach. In 2019 15th International Wireless Communications & Mobile Computing Conference (IWCMC) (pp. 2080-2085). IEEE.

Metcalf, G. E. (2020). Designing a carbon tax to reduce US greenhouse gas emissions. Review of Environmental Economics and Policy.

Nealer, R., & Hendrickson, T. P. (2015). Review of recent lifecycle assessments of energy and greenhouse gas emissions for electric vehicles. Current Sustainable/Renewable Energy Reports, 2(3), 66-73.

Nour, M., Said, S. M., Ali, A., & Farkas, C. (2019, February). Smart charging of electric vehicles according to electricity price. In 2019 international conference on innovative trends in computer engineering (ITCE) (pp. 432-437). IEEE.

Rezig, A., Boudendouna, W., Djerdir, A., & N’Diaye, A. (2020). Investigation of optimal control for vibration and noise reduction in-wheel switched reluctance motor used in electric vehicle. Mathematics and Computers in simulation167, 267-280.

Sioshansi, F., & Webb, J. (2019). Transitioning from conventional to electric vehicles: The effect of cost and environmental drivers on peak oil demand. Economic Analysis and Policy61, 7-15.

Tabuchi & PlumerHow (2021, November 10). green are electric vehicles? (Published 2021). The New York Times – Breaking News, US News, World News and Videos. https://www.nytimes.com/2021/03/02/climate/electric-vehicles-environment.html

Vidyanandan, K. V. (2018). Overview of electric and hybrid vehicles. Energy Scan3, 7-14.

Wang, B., Dehghanian, P., Wang, S., & Mitolo, M. (2019). Electrical safety considerations in large-scale electric vehicle charging stations. IEEE Transactions on Industry Applications55(6), 6603-6612.

Wang, G., Makino, K., Harmandayan, A., & Wu, X. (2020). Eco-driving behaviors of electric vehicle users: A survey study. Transportation research part D: transport and environment78, 102188.

 

 

 

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