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Automotive Exhaust Emissions and Energy Recovery by Apostolos Pesiridis Book Details
| Book Name | Automotive Exhaust Emissions and Energy Recovery |
| Author | Apostolos Pesiridis |
| Category | Mechanical Engineering Books, Education Books |
| Book Language | English |
| Publisher | Nova Publishers |
| Pages | 305 |
| Country | India |
| Book Size | 12 MB |
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About Automotive Exhaust Emissions and Energy Recovery by Apostolos Pesiridis Book
Automotive exhaust emissions and energy recovery are critical topics in the automotive industry, particularly in the context of environmental sustainability, air quality, and energy efficiency. Here's an overview of both concepts:
Automotive Exhaust Emissions:
Automotive exhaust emissions refer to the gases and particulate matter that are released into the atmosphere as a result of the combustion process in internal combustion engines, primarily those powered by gasoline or diesel fuel. These emissions can have significant environmental and health impacts:
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Criteria Pollutants: Exhaust emissions typically include criteria pollutants such as carbon monoxide (CO), nitrogen oxides (NOx), particulate matter (PM), volatile organic compounds (VOCs), and hydrocarbons. These pollutants can contribute to smog formation, respiratory issues, and other health problems.
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Greenhouse Gases: Carbon dioxide (CO2) is a greenhouse gas that contributes to climate change. While not a traditional air pollutant, it's a significant concern due to its role in global warming. Vehicles emit CO2 in proportion to the amount of fuel burned.
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Regulations: Governments around the world have established strict regulations to limit exhaust emissions from vehicles. These regulations set emission standards that manufacturers must comply with to ensure cleaner air quality.
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Emission Control Technologies: To reduce exhaust emissions, modern vehicles are equipped with emission control technologies such as catalytic converters, diesel particulate filters (DPF), selective catalytic reduction (SCR), and more.
Energy Recovery:
Energy recovery in the context of automotive technology involves capturing and utilizing energy that would otherwise be wasted during vehicle operation. It's a strategy to improve fuel efficiency and reduce emissions:
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Regenerative Braking: Regenerative braking is a method of capturing and storing the kinetic energy generated during braking. This energy is typically converted into electrical energy and stored in a battery or a capacitor. It can then be used to power vehicle systems or assist in acceleration.
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Turbocharging and Supercharging: These technologies use exhaust gases to drive a turbine that compresses incoming air, increasing the efficiency and power output of the engine. Turbocharging and supercharging can improve fuel efficiency and reduce emissions by allowing smaller engines to produce more power.
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Waste Heat Recovery: Internal combustion engines generate a significant amount of waste heat. Waste heat recovery systems aim to capture and reuse this heat for various purposes, such as heating the cabin or assisting in engine operation.
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Start-Stop Systems: These systems automatically shut off the engine when the vehicle is stationary (e.g., at a traffic light) and restart it when the driver is ready to move. This helps save fuel and reduce emissions during idle periods.
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Hybrid and Electric Vehicles: Hybrid vehicles combine internal combustion engines with electric motors, allowing for energy recovery during braking and deceleration. Electric vehicles (EVs) run entirely on electricity and recover energy through regenerative braking as well.
Both exhaust emissions reduction and energy recovery are essential for advancing automotive technology toward more sustainable and environmentally friendly options. Manufacturers continue to develop innovative solutions to minimize emissions, improve fuel efficiency, and harness wasted energy in vehicles.
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