The Transformative Global Impact of Automotive Exhaust Emissions Regulation

The proliferation of the automobile after World War II changed life as we know it across the globe. People gained new levels of freedom to access jobs and services. Better roads were developed. Revolutions in urban planning gave rise to suburbia. Huge new job creating industries were formed. We also saw a sharp uptick in leisure travel thanks to the convenience of automobiles.

An unexpected side effect of this overwhelmingly beneficial technological revolution was a dramatic rise in global pollution. Automobiles can release as much as 70gm of exhaust gas, containing between 150 to 200 different compounds, per ton of gas combusted. Included in these compounds are carbon monoxide, nitrogen oxides, lead dust, carbon black, and other dangerous gases and particulates. Nitrogen oxides released in automotive exhaust and exposed to sunlight can undergo a chemical transformation that ultimately results in the formation of ozone and photochemical smog containing harmful compounds like formaldehyde and acetaldehyde. This problem can be exacerbated in heavily congested cities and in geographical locations that physically trap the smog in place (Trento, 2024).

A growing understanding of the chemical dangers of unrestricted automotive exhaust lead the US Congress to pass the Clean Air Act in 1970, requiring a very ambitious 90% reduction in emissions from new vehicles by 1975. The EPA was also created in 1970 and was tasked with regulating automotive exhaust.

Over the following 55 years, the EPA has continued to refine and augment its environmentally motivated regulations and expand its scope to include trucks, locomotives, marine engines, and aircraft engines but what impact has this half a century of regulation yielded?

Greenhouse gas emissions from the global transportation sector measured 1.8 billion tons in 1970 and have steadily increased year over year (with the exception of 2020 pandemic interruptions) reaching 8.9 billion tons in 2024. This figure seems to illustrate a failure of regulation until you consider some crucial context: in 1970 there were under 250 million motor vehicles in use globally, but by 2021 that number had ballooned to over 1.5 billion vehicles in operation.

If we find the total greenhouse gas emissions from the transportation sector per one hundred million vehicles in operation, we can see that, on a per car basis, greenhouse gas emissions actually declined by 41% between 1990 and 2021.

We should expect to see these figures continue to improve into the future as developing countries such as India instate tighter emission regulations. India has been taking steps to mimic the emissions standards of Europe since the year 2000, and its current round of quality standards, Baharat Stage VI, will go into full effect in 2026. India identified automobile emissions as a leading cause of dangerous air pollution across the country in 2024 and has responded by doubling down on its exhaust regulation efforts (Ians, 2023).

If we focus our attention on Europe only, as this geographical area contains primarily developed countries that have not been exempt from emissions control initiatives over the few decades, we can see that regulatory efforts have been measurably paying off. Since 1990, greenhouse gas emissions have slowed, leveled off, and now have started to decline in Europe (European Environment Agency 2024). On a per-vehicle basis European transportation sector emissions have declined by over 33% per car between 1990 and 2021.

Regulation efforts have been far more successful at removing NOx emissions than Greenhouse gases. In 1990 the European transportation sector released 7.99 million metric tons of NOx into the air. By 2022 this figure had been reduced to just 2.64 metric tons. This represents a 67% reduction in total NOx emissions from the European transportation sector and an 81% reduction on a per-car basis. Since the creation of the EPA in 1970, the United States has also seen a 78% reduction in NOx emissions from the transportation sector, or an 84% reduction per vehicle. These drastic reductions have already started having a positive impact on the air quality and public health of many of the world’s cities (Lau, 2024).

Automotive exhaust emissions regulation works: we can reduce the environmental impact of our transportation industry drastically by mandating existing emissions control technologies. Much of the developed world is just beginning to realize the payoff from these efforts but it will take a simultaneous dedicated effort from developing nations to effectively protect the globe from the dangers of transportation-caused smog. All three of the largest polluting developing economies of the world, China, India, and Indonesia have begun serious efforts to improve their air quality and many other countries are following suit.

For more than four decades, ACS Industries has been a leading exhaust emission control manufacturer, supplying exhaust emission control and after-treatment system components for automotive OEMs and Tier I suppliers. Our expertise dates to 1975, when we introduced our innovative knitted wire mesh support systems. Today, our components play a vital role in controlling emissions in both on and off-highway vehicles worldwide.

ACS Industries’ after-treatment exhaust system mounting components can significantly reduce your emissions footprint. Explore our advanced automotive exhaust emission solutions below and contact us to discuss how we can support your compliance journey.

Citations

Abdelwahab, M. M., Shalaby, O. A., Semary, H. E., & Abonazel, M. R. (2024). Driving Factors of NOx Emissions in China: Insights from Spatial Regression Analysis. Atmosphere, 15(7), 793. https://doi.org/10.3390/atmos15070793

Air Pollution Data Explorer. (2024). Our World in Data. https://ourworldindata.org/explorers/air-pollution?time=1888..latest&Pollutant=Nitrogen+oxides&Sector=Breakdown+by+sector&Per+capita=false&country=CHN~IND~GBR~USA~OWID_WRL

Center for Climate and Energy Solutions. (2020, February 4). Climate change mitigation in developing countries: Brazil, China, India, Mexico, South Africa, and Turkey – Center for Climate and Energy Solutions. https://www.c2es.org/document/climate-change-mitigation-in-developing-countries-brazil-china-india-mexico-south-africa-and-turkey/#:~:text=Many%20developing%20countries%20are%20already,simultaneously%20augmenting%20their%20development%20goals.

EPA. (2024, June 18). Fast facts on transportation greenhouse gas emissions | US EPA. US EPA. https://www.epa.gov/greenvehicles/fast-facts-transportation-greenhouse-gas-emissions#:~:text=The%20transportation%20sector%20is%20one,transportation%20end%2Duse%20sector%20emissions.

European Environment Agency. (2024, October 31). Greenhouse gas emissions from transport in Europe. European Environment Agency’s Home Page. https://www.eea.europa.eu/en/analysis/indicators/greenhouse-gas-emissions-from-transport

Ians. (2023, June 8). Automobile emission leading cause of recorded air pollution: IITR study. www.business-standard.com. https://www.business-standard.com/india-news/automobile-emission-leading-cause-of-recorded-air-pollution-iitr-study-123060800525_1.html

Lau, K., Guo, J., Miao, Y., Ross, Z., Riley, K. W., Wang, S., Herbstman, J., & Perera, F. (2024). Major air pollution and climate policies in NYC and trends in NYC air quality 1998–2021. Frontiers in Public Health, 12. https://doi.org/10.3389/fpubh.2024.1474534

Trento, C. (2024, November 11). Automobiles and the environment: Understanding the impact of exhaust and photochemical smog. https://www.samaterials.com/content/photochemical-smog-automobile-exhaust.html

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