Exhaust Gas Recirculation Stocks List
Symbol | Grade | Name | % Change | |
---|---|---|---|---|
MOD | B | Modine Manufacturing Company | 6.17 | |
BWA | D | BorgWarner Inc. | 1.05 |
Related Industries: Auto Parts
Related ETFs - A few ETFs which own one or more of the above listed Exhaust Gas Recirculation stocks.
Symbol | Grade | Name | Weight | |
---|---|---|---|---|
ETEC | F | iShares Breakthrough Environmental Solutions ETF | 6.63 | |
PEZ | B | PowerShares Dynamic Consumer Discretionary | 5.48 | |
RNEW | B | VanEck Green Infrastructure ETF | 4.14 | |
HAIL | D | SPDR S&P Kensho Smart Mobility ETF | 3.31 | |
EVAV | F | Direxion Daily Electric and Autonomous Vehicles Bull 2X Shares | 2.94 |
Compare ETFs
- Exhaust Gas Recirculation
In internal combustion engines, exhaust gas recirculation (EGR) is a nitrogen oxide (NO x ) emissions reduction technique used in petrol/gasoline and diesel engines. EGR works by recirculating a portion of an engine's exhaust gas back to the engine cylinders. This dilutes the O2 in the incoming air stream and provides gases inert to combustion to act as absorbents of combustion heat to reduce peak in-cylinder temperatures. NO x is produced in high temperature mixtures of atmospheric nitrogen and oxygen that occur in the combustion cylinder, and this usually occurs at cylinder peak pressure. Another primary benefit of external EGR valves on a spark ignition engine is an increase in efficiency, as charge dilution allows a larger throttle position and reduces associated pumping losses.
In a gasoline engine, this inert exhaust displaces some amount of combustible charge in the cylinder, effectively reducing the quantity of charge available for combustion without affecting the air-fuel ratio. In a diesel engine, the exhaust gas replaces some of the excess oxygen in the pre-combustion mixture. Because NO x forms primarily when a mixture of nitrogen and oxygen is subjected to high temperature, the lower combustion chamber temperatures caused by EGR reduces the amount of NO x the combustion generates. Gases re-introduced from EGR systems will also contain near equilibrium concentrations of NO x and CO; the small fraction initially within the combustion chamber inhibits the total net production of these and other pollutants when sampled on a time average. Chemical properties of different fuels limit how much EGR may be used. For example methanol is more tolerant to EGR than gasoline.
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