Emission Control Systems: Description and Operation
Emission Related Systems:
Component ID:
SUMMARY
Photochemical-smog is the main by-product of tailpipe emissions. It is produced when Hydrocarbons (HC) and Oxides of Nitrogen (NOx) are mixed and exposed to sunlight. California was the first state to place controls on motor vehicle emissions.
Vehicle manufacturers develop sophisticated components to reduce levels of harmful exhaust pollutants. Fuel and ignition systems are designed toward this end. Since the introduction of Electronic Fuel Injection (EFI) and Computerized Engine Controls (CEC), vehicles produce less emissions while maintaining performance and fuel economy.
HYDROCARBONS (HC)
A chemical compound made up of hydrogen and carbon. Hydrocarbons are mostly unburned and raw fuel (gasoline). Hydrocarbons are the only major automotive air pollutant coming from sources other than exhaust. While the majority of HCs are produced by fuel system evaporation (20%) and exhaust (60%), another source is oil and crankcase fumes/vapors.
CARBON MONOXIDE (CO)
This chemical compound of carbon and oxygen is an odorless, colorless, and poisonous gas. It results from incomplete combustion, due to an improper air/fuel mixture ratio or poorly tuned engine. CO primarily emanates from the tailpipe, but may also be present in blow-by gases.
OXIDES OF NITROGEN (NOx)
NOx is a chemical compound of nitrogen and oxygen, formed when combustion temperatures become excessively high. NOx is the major contributor to photochemical smog.
CRANKCASE EMISSION CONTROL
This was one of the first emission control systems. Rather than being vented to atmosphere, crankcase fumes are routed back through the intake system and reburned. Basic systems consist of necessary hoses and a Positive Crankcase Ventilation (PCV) Valve to regulate fume flow through the system.
CATALYTIC CONVERTERS
The first catalytic converters reduced HC and CO emissions. Three-Way Catalytic (TWC) converters currently in use also reduce NOx.
EVAPORATIVE EMISSION CONTROL
Evaporative emission systems trap gasoline vapors that would otherwise escape to atmosphere. Vapors are vented from fuel tank to a carbon canister for storage. When the engine is running, vapors are purged from the canister and routed to the intake manifold. Fuel vapors are consumed during the combustion process.