И инновации современной
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Figure 2 – Methods for determination of power characteristics of mechanical losses of internal combustion engines Most of these methods are designed to determine the friction power loss on an ICE running with different loads in order to find the dependence of its mechanical efficiency on various factors. For studying the braking properties of an ICE, the Run-out method, i.e. stopping after a fuel supply cut-off, is suitable. This method is simple but has low accuracy. 37 The most accurate method of determining the power of mechanical losses of the motor when it operates as a deacceleration brake during braking is the method of turning the crankshaft of the ICE by an electric motor on a special assembly shown in (Figure 3). Figure 3 – Installation for determining the magnitude of mechanical losses of ICE by crankshaft scrolling method using an electric motor with visualization and registration of parameters: torque M c and rotation speed n e . At the stand, the dependence of the resistance torque of the internal combustion engine on its shaft speed is obtained. The power of mechanical losses of an internal combustion engine is calculated by the formula: 9549 TD e M M n N (2) where: TD M – motor resistance torque (N.m); M N – power of mechanical losses in the internal combustion engine (kW); e n – speed of motor’s shaft (rpm). In Figure 4 presents the dependences of mechanical losses power of gasoline engines VAZ-21124 and VAZ-21126 with modernized piston on crankshaft speed [5]. 38 Figure 4 – Power characteristics of mechanical losses of gasoline engines: VAZ-21124 (upper curve) and VAZ-21126 9 with modernized piston (lower curve 2). Analysis of Figure 4, shows that the mechanical loss capacity of the piston motor is small, it is several times less than its power, and it decreases rapidly when the motor shaft speed decreases, which negatively affects the braking efficiency. By optimizing the piston parameters, the mechanical losses of the internal combustion engine are further reduced. This is the goal of almost all researchers of combustion engines [5],[6],[7],[8],[9],[10], but to increase the efficiency of engine braking, its mechanical losses should be increased, but only during braking. So, it is important to determine the extent to which it is necessary to increase the power of the engine's mechanical losses in order to ensure efficient service braking of the car. жүктеу/скачать 6,6 Mb. Достарыңызбен бөлісу:
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