Total Efficiency in Parallel Transmissions

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SUMMARY

The discussion focuses on calculating total power efficiency in parallel transmissions, specifically how to express it in terms of the efficiencies of individual components such as spur gears, motors, and pumps. The equation presented, P_{engine} = η(η_{i})*2P_{wheel}, highlights the complexity of combining efficiencies from multiple power paths before reaching the differential. The challenge arises from the variable efficiencies of the transmissions, which depend on torque and system speed, making it difficult to derive a general formula for torque flow. Active control systems have been utilized in similar setups to manage torque splits effectively.

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  • Understanding of parallel transmission systems
  • Knowledge of torque and power efficiency calculations
  • Familiarity with gear ratios and their impact on performance
  • Experience with active control systems in mechanical engineering
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  • Research methods for calculating efficiency in parallel transmission systems
  • Explore torque management techniques in dual-engine setups
  • Study the impact of variable efficiencies on overall system performance
  • Investigate active control systems for optimizing torque distribution
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Mechanical engineers, automotive engineers, and researchers focused on optimizing parallel transmission efficiency and torque management in multi-engine systems.

sdvermillion
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I'm trying to figure out an expression for the total power efficiency from engine to wheel of a parallel transmission in terms of the efficiency of all the components in between (i.e. spur gears, motors, pumps, etc.) such that

[tex]P_{engine}[/tex] = [tex]\eta[/tex]([tex]\eta_{i}[/tex])*2[tex]P_{wheel}[/tex]

See attached image.
 

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The problem occurs when the power paths are reunited before going into a differential and out to the wheel. At this point, the torques are being added together (or subtracted etc.). So for one path, the efficiency may be n1*n2*n3 and the other path may be n4*n5*n6 such that, from the diagram attached, T3 = n1*n2*n3*(1/m1)*T1 + n4*n5*n6*(1/m2)*T2, where m1 and m2 are gear ratios. I want to be able to say T3 = n*((1/m1)*T1 + (1/m2)*T2). I can't simply pull out the efficiencies because they may not be the same number.
 
As the efficiencies of the transmissions are probably variable with torque transmitted (and system speed), I think this becomes an indeterminate problem for the general case. The torque flow or split can, and will, vary greatly due to small secondary influences. For a specific torque split it can be computed by looking up the efficiency for the specific speed and torque for each transmission.

On a couple of somewhat similar systems I was acquainted with, they used an active control to manage the torque split between dual engines. On 1 of these the active control system was the pilot reading a torque meter.
 

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