Torque Measurement Notes PDF

Summary

These notes cover torque measurement, including formulas for torque and power calculation, different types of dynamometers (absorption, driving, and transmission), and a detailed description of mechanical and hydraulic dynamometers. The notes are well-structured and include diagrams, making them useful for learning and understanding the topic.

Full Transcript

# Torque Measurement

- **Torque:** Force that causes twisting or turning moment.
- **E.g:** The force generated by an internal-combustion engine to turn a vehicle's drive shaft.
- **Torque measuring devices:** Called as dynamometers

## Formula
- $T = F\cdot R$ in N-m
- or $F = T/R$
- where:
- $T$ is the torque
- $F$ is the force at a known radius
- $r$ is the radius

## Types of Dynamometers
### Absorption Dynamometers
- Useful for measuring power or torque developed by a power source such as:
- Engines
- Electric Motors

### Driving Dynamometers
- Measure power or torque.
- They also provide energy to operate the device to be tested.
- They are useful in determining performance characteristics of devices like:
- Pumps
- Compression

### Transmission Dynamometers
- Passive devices placed at an appropriate location within a machine or in between the machine to sense the torque at that location

## Mechanical Dynamometer (Prony Brake)
- Consists of wooden cleats or blocks mounted diametrically opposite on a flywheel attached to the rotating shaft whose power is to be determined.
- One wooden block carries a lever arm and an arrangement is made to tighten the rope to increase the frictional resistance between the blocks.
- The torque exerted by the Prony brake is $T = F\cdot L$

## Hydraulic Dynamometer
- Power sink which uses fluid friction for dissipation of input energy and thereby measures the input torque or power.
- The capacity of a hydraulic dynamometer is a function of two parameters:
- Speed
- Water Level
- The torque is measured with the help of a reaction arm or shaft.
- The power absorption at a given speed may be controlled by adjustment of water level in the housing.

## Hydraulic Dynamometer Characters
- **Small in size:** Easy installation
- **Simple dynamometer structure:** Easy for maintenance
- **High brake torque:** N/A
- **High measurement accuracy:** N/A
- **Reliable and stable working condition:** N/A
- **High real-time speed measurement accuracy with EM sensors:** N/A
- **Fast loading control by electronic-control butterfly valve:** N/A
- **High reaction speed which is suitable on dynamic testing:** Suitable
- **Tuning of in-use engines, typically at service centers or for racing applications:** Typical application

## Torque measurement is usually associated with determination of mechanical power:
- The power required to operate a machine.
- The power developed by the machine.

## Formula for determining mechanical power
- Power = $(2\pi NT)/(60\cdot 1000)$, $k\cdot w$
- Where:
- $N$ = Speed in rpm.
- $T$ = Torque developed due to load “W”, (N-m)
- $R$ = Radius from the center to the point of application of force (m)

## Image Descriptions
- **Page 1**. An image of the formula $T = F\cdot R$. The equation is illustrated with an image of a wrench.
- **Page 2.** An image of the formula for determining mechanical power. The formula is $power = (2\pi NT)/(60\cdot 1000)$
- **Page 3.** No image.
- **Page 4.** A diagram of the mechanical dynamometer.
- **Page 5.** An illustration of a Prony brake.
- **Page 6.** An image of the hydraulic dynamometer.
- **Page 7.** No image.
- **Page 8.** A diagram of the hydraulic dynamometer.
- **Page 9.** No image.