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It was invented and patented by Rudolf Diesel in 1892. Diesel intended the engine to use a variety of fuels including coaldust. He demonstrated it in the 1900 Exposition Universelle (1900)World's Fair using peanut oil (see biodiesel). It was later refined and perfected by Charles F. Kettering.
When a gas is compressed, its temperature rises (as stated in Charles' Law); a diesel engine uses this property to ignite the fuel. Air is drawn into the cylinder of a diesel engine and compressed by the rising piston, at a much higher compression ratio than for a spark-ignition engine. At the top of the piston stroke, dieselThis article is about the fuel. For other uses see diesel (disambiguation). Diesel is a product used as a fuel in a diesel engine invented by Rudolf Diesel, and perfected by Charles F. Petrodiesel One can obtain diesel from petroleum, which is called petr fuel is injected into the combustion chamberA combustion chamber is part of an engine in which fuel is burned. The leftover hot gases produced by this combustion tend to occupy a far greater volume than the original fuel, thus creating an increase in pressure within the limited volume of the chambe at high pressure, through an atomising nozzle, mixing with the hot, high-pressure air. The resulting mixture ignites and burns very rapidly. This contained explosion causes the gas in the chamber to expand, driving the piston down with considerable force and creating power in a vertical direction. The connecting rodIn a reciprocal piston engine, the connecting rod connects the piston to the crankshaft. It can rotate at both ends so that its angle can change as the piston moves up and down and the crankshaft rotates. The top end, with a small opening for the piston p transmits this motion to the crankshaftThe crankshaft is that part of an engine which translates linear piston motion into rotation. Generally more than one piston is attached to the crank to provide a smoother delivery of power to the rotating part, though many small engines, such as those fo which is forced to turn, delivering rotary power at the output end of the crankshaft. ScavengingScavenging consists of pushing the exhausted gas-charge out of the cylinder, and drawing in a fresh draught of air ready for the next cycle. See Reciprocating engines. (pushing the exhausted gas-charge out of the cylinder, and drawing in a fresh draught of air) of the engine is done either by ports or valves. (See direct injection vs indirect injectionIn an indirect injection diesel engine fuel is injected into a small prechamber which is connected to the cylinder by a narrow opening. The initial combustion takes place in this prechamber. This has the effect of slowing the rate of combustion, which ten for a discussion of the types of fuel injection.) To fully realize the capabilities of a diesel engine, use of a turbochargerA turbocharger is a device used in internal-combustion engines to increase the power output of the engine by increasing the mass of oxygen and fuel entering the engine. A key advantage of turbochargers is that they offer a considerable increase in engine to compress the intake air is necessary; an aftercooler/intercooler to cool the air after compression further increases efficiency.
A vital component of any diesel engine system is the governor, which limits the speed of the engine by controlling the rate of fuel delivery. Modern electronically controlled engines achieve this through the ECM (Electronic Control Module) or ECU (Electronic Control Unit) - which is the engine-mounted "computer". The ECM/ECU receives an engine speed signal from a sensor and then using its algorithms and look-up calibration tables stored in the ECM/ECU, it controls the amount of fuel and its timing ( start of injection) through electric or hydraulic actuators to maintain engine speed.
Diesel engines do not operate well when the cylinders are cold. Some engines utilize small electric heaters called glow plugs inside the cylinder to warm the cylinders prior to starting. Others use resistive grid heaters in the intake manifold to warm the inlet air until the engine reaches operating temperature. Once the engine is operating the combustion of fuel in the cylinder keeps the engine warm effectively. Engine block heaters (electric resistive heaters in the engine block) plugged into the utility grid are often used when an engine is shutdown for extended periods (more than an hour) in cold weather to reduce startup time and engine wear. Modern electronically controlled diesel engines also advance injection timing to improve cold startability and reduce white smoke (unburned fuel in the exhaust) under cold start conditions.
In very cold weather, diesel fuel thickens and increases in viscosity and forms wax crystals or a gel in extreme cold. This can make it difficult for the fuel injector to get fuel into the cylinder in an effective manner, making cold weather starts difficult at times, though recent advances in diesel fuel technology have made these difficulties very rare. A commonly applied advance is to electrically heat the fuel filter and fuel lines.