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Today in History – February 23, 1893 – Rudolf Diesel patents the diesel engine in Germany. Rudolf Diesel’s goal was to improve on the efficiency of the gasoline-engine that used the Otto cycle. His new concept for the engine was to compress the air in the cylinder adiabatically. Once this high level of compression causes the air to reach the ignition temperature, the fuel mixture is injected and the fuel automatically ignited. This allows the diesel engine to be smaller and lighter than the traditional gasoline engine and would not require the use of an additional fuel source or spark plug for the ignition.
As shown in the graphic above, the ideal air-standard cycle can be modeled as a reversible adiabatic compression, followed by a constant pressure combustion process, then an adiabatic expansion as a power stroke and an isovolumetric exhaust. At the end of the exhaust, new air is taken in and the cycle begins again.
Piston engine efficiency is largely a property of the compression ratio (CR). Gasoline engines would like a higher compression ratio, but are stopped at about CR=10 by engine KNOCK, where the fuel air mixture auto-ignites before a flame reaches it, causing an explosion in the cylinder that the driver can hear. The explosion is too much for the automobile piston, piston rings, heat transfer, and connecting rods. One way to avoid the explosion is to increase the octane number.
With the diesel, the explosion is avoided as the fuel is injected “slowly” so that the burn rate is managed by the rate of fuel injection. However, this “non-premixed” combustion produces an abundance of soot particles as well as nitric oxide that causes large cities to take on a brown ting in the afternoons. This happens where I live, for example, in the San Francisco Bay Area.
As a solution, I am working on a new combustion strategy called Homogenous Charge Compression Ignition (HCCI). In this strategy, lean operations help the HCCI engine approach the fuel efficiency of diesel, while maintaining clean, low-temperature combustion that doesn’t require elaborate exhaust treatment to meet air emissions standards.
See the Engineering Pathway’s educational resources on the diesel engine and automotive engineering and design or visit the Mechanical Engineering Education Community site.
2 responses so far ↓
1 BSM Group // Aug 19, 2010 at 9:11 am
It is hard to believe that the venerable diesel engine is only 117 years old! After many years of being relegated to powering large trucks, tractors, railway locomotives and ships the resurgence of diesel engined vehicles over the past decade or so has been nothing short of phenomenal.
Small capacity turbodiesel engines rule the roost as far as fuel efficiency is concerned, even outperforming hybrids if there is a bit of freeway driving tossed into the mix.
Audi winning Le Mans with the diesel powered R10 TDi in 2006 banished the last thoughts that
diesel technology is inferior to gasoline technology.
Further developments like your HCCI system can only serve to strengthen the breed even further.
2 Blnt Bkn // Nov 23, 2010 at 1:55 pm
In my opinion internal combustion engines and its technology was big fault.It has already dead.There’s no chance tostay alive next century.If you wanna proof.Can you see any diesel or gasoline engine in the space.No. Technological-Evolutionary point of view diesel and gasoline engines are dead
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