EDUTECH LAHORE

State-of-the-art Engineering Equipment

FM-404 | Dead Weight Apparatus

  • Comparison of different pressure measurement methods
  • Measuring positive and negative pressure
  • Calibration device with Bourdon tube pressure gauge for calibrating mechanical manometers
  • LxWxH: 1700x810x1440mm
  • Weight: approx. 110kg
Description
Technical Specification
Media
Measuring pressure is important in the engineering industry, e.g., in plant, turbomachine and aircraft construction and in process engineering. Other fundamental factors such as flow rate or flow velocity can also be determined based on a pressure measurement. The experimental unit enables the user to measure the pressure with two different measuring methods: directly by measuring the length of a liquid column (U-tube manometer, inclined tube manometer) and indirectly by measuring the change of shape of a Bourdon tube (Bourdon tube pressure gauge) in a U-tube manometer, the pressure causes the liquid column to move. The pressure difference is read directly from a scale and is the measure for the applied pressure. In inclined tube manometers, one leg points diagonally up. A small height difference therefore changes the length of the liquid column significantly. The principle of the Bourdon tube pressure gauge is based on the change in cross-section of the bent Bourdon tube under pressure. This change in cross-section leads to an expansion of the Bourdon tube diameter. A Bourdon tube pressure gauge is therefore an indirectly acting pressure gauge where the pressure differential is indicated via a transmission gearing and a pointer. In experiments, pressures in the millibar range are generated with a plastic syringe and displayed on the manometers. The experimental unit is equipped with two Bourdon tube pressure gauges for measuring positive and negative pressure. The U-tube manometer, inclined tube manometer and Bourdon tube pressure gauges at the experimental unit can be combined using tubes. A calibration device enables calibration of an additional Bourdon tube pressure gauge using a weight-loaded piston manometer.
Learning Objectives
  • Principle of operation of a Bourdon tube manometer.
  • Calibration of a manometer with a known applied pressure.
  • Determination of the systematic error.
Dead Weight Apparatus
  • Bourdon tube manometer: 0~100mbar to 0~120mbar
  • Bourdon tube manometer: -100~0mbar to 120~0mbar
  • U-tube manometer: 0~500mm WC to 0~550mm WC
  • Inclined tube manometer: 0~500mm WC to 0~550mm WC
  • Digital Pressure Transmitter with Display
  • Range: 0~6 bar
  • Inclined tube manometer
  • angle: 30°
Dead Weight Tester
  • Diameter: 6” to 8”
  • Bourdon tube Pressure Range:
  • Transparent Construction 0~4 kg/cm2
  • Area of piston: 254x10-6m 2
  • Mass of piston: 0.5kg
  • Ancillary masses: 1x 0.2kg, 2x 0.5 kg and 4x 1k
Measuring ranges pressure
  • 0…±60mbar (Bourdon tube pressure gauge)
  • 0…500mmWC (U-tube manometer)
  • 0…500mmWC (inclined tube manometer)