We Make The Difference
Recycle Loops Unit
(HT-022)

1 Pressure reducing valve 2 Volume vessel 3 Flow control ball valve 4 Electric heater 5 Solenoid valve 6 Recirculation pump 7 Heater ON/OFF 8 Pump ON/OFF 9 Temperature displays 10 Flow measurement display s 11 USB interface

  • Steady state mass balance
  • Steady state heat balance
  • Unsteady state heat balance
  • Steady flow energy equation
  • Response rate
  • Turbine flow meter sensor
    • Range 0.5 … 5 L/min
  • Temperature sensor thermocouple k type
    • Range 0 … 100 degree C
  • Volume vessel
    • 3 liter
  • Recycle Loops Unit (HT - 022)
  • Hard copy user manual
  • Laboratory PC

Recycle Loops Unit has been designed to demonstrate clearly, both visually and experimentally, what recycle is and to enable mass and energy balan ces to be performed under steady state and unsteady state conditions.

  • Recycle Loops apparatus has been designed to demonstrate clearly, both visually and experimentally, what recycle is and to enable mass and energy balances to be performed under steady state and unsteady state conditions.
  • A bench top unit comprising a vacuum formed ABS plastic plinth with integral electrical control unit on to which is mounted a through pipe with a recycle loop, which incorporates a circulating pump and heater.
  • A pressure regulator with filter at the inlet to the apparatus minimizes the effect of fluctuations in the cold-water supply pressure.
  • Water in the recycle loop is heated by a 2kW electric heater with over temperature protection.
  • Flow in the loop can be varied from 0 (no recycle) to 3 l/min. The through flow of water can be varied from 0-1.5 l/min
  • Temperatures at the entry to the system, at the exit from the system and inside the recycle loop are measured using K-type thermocouples. Flow rates at corresponding locations are measured using turbine type flow sensors. A reservoir with self-sealing fittings enables the volume of the loop to be changed
  • The apparatus consists of a through pipe conveying water from a cold-water supply to a suitable drain with a loop of pipework connected between the supply and drain connections.
  • This recycle loop incorporates a circulating pump and a heater to raise the temperature of the water in the loop. The heater can be switched on or off to generate step changes when investigating the transient responses of the recycle loop.
  • A pair of self-sealing fittings enables a short length of pipe or a reservoir to be connected in series with the recycle loop to change the volume of the loop and demonstrate the effect of residence time. The arrangement also permits different lengths of flexible tubing to be connected in series with the loop if it is required to create further changes in residence time.
  • Water temperatures at the inlet, outlet and within the recycle loop are measured using K- type thermocouples. Water flow rates at the corresponding locations are measured using miniature turbine type flow sensors. Flow sensors are included at the outlet as well as the inlet to show that these two flow rates are always equal (a simple principle that is often confusing when water is flowing through the recycle loop).
  • All power supplies, signal conditioning circuitry etc are contained inside the moulded ABS support and integral control unit with appropriate current protection devices and an RCD for operator protection.
  • Readings from the sensors are displayed on a digital meter with selector switch and all corresponding signals are routed to an I/O port for connection to a PC using an optional interface device included with educational software package.