Internal Combustion Engines. Allan T. Kirkpatrick. Читать онлайн. Newlib. NEWLIB.NET

Автор: Allan T. Kirkpatrick
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Физика
Год издания: 0
isbn: 9781119454557
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due to the higher compression ratio in Diesel cycles.

      Intake Stroke

      There is a flow of a gas mixture into or out of the cylinder during the intake stroke when the intake valve is opened, depending on the relative pressure difference. As indicated in Figure 2.10, there are three different flow situations for the intake stroke, depending on the ratio of inlet to exhaust pressure. If the inlet pressure is less than the exhaust pressure, the engine is throttled. In this case there is flow from the cylinder into the intake port when the intake valve opens. In the initial portion of the intake stroke, the induced gas is primarily composed of combustion products that have previously flowed into the intake port. In the latter portion of the stroke, the mixture flowing in is fresh charge, undiluted by any combustion products.

      If the inlet pressure is greater than the exhaust pressure, the engine is said to be supercharged (turbocharging is a special case of supercharging in which a compressor driven by an exhaust turbine raises the pressure of atmospheric air delivered to an engine). In this case there is flow from the intake port into the engine until the pressure equilibrates. In actual engines, because of valve overlap, there may be a flow of fresh mixture from the inlet to the exhaust port, which can waste fuel and be a source of hydrocarbon exhaust emissions. The third case is when inlet and exhaust pressures are equal; the engine is then said to be unthrottled.

      Since the intake gas temperature is usually less than the residual gas temperature, the cylinder gas temperature at the end of the intake stroke will be greater than the intake temperature. In addition, if heat transfer is neglected, the flow across the intake valve, either from the intake manifold to the cylinder or the reverse, is at constant enthalpy.

      The initial state of the gas in the system at the beginning of the intake process is at state 6. For the overall process from state 6 to state 1 with the inlet flow at state images, the open‐system conservation of mass equation is

      (2.48)equation

      The open‐system unsteady energy equation is

      (2.49)equation

      Integrating over the intake stroke from state 6 to state 1, where the work term accounts for the change in volume of the cylinder, and assuming images,

      (2.50)equation

      (2.51)equation

      (2.52)equation

      (2.53)equation

      Therefore,

      (2.54)equation

      Rearranging, and if heat transfer images during the intake stroke is neglected,

      (2.55)equation

      Since images and images,

      (2.56)equation

      Solving for images:

      Therefore, the enthalpy at the end of the intake stroke is not just the average of the initial and intake enthalpies, as would be the case for a steady flow situation, but also includes the flow work term.

      The equation for the enthalpy at the end of the intake stroke, Equation (2.57), can also be expressed in terms of the residual gas fraction, images. From Equation (2.45),

      so

      (2.59)equation

      and from the ideal gas law,

      (2.61)equation

      If the reference enthalpy is chosen so that images, then

      (2.62)equation

      For example, if images 0.05, images 0.5, images 1.35, images 320 K, and images 1400 K, then images 365 K.

      The volumetric efficiency of the inlet stroke for a gas cycle is given by