As part of Go Geothermal's continued complete product offering we now offer Heat Meters from stock.
- Manufactured to MID Class 2
- Certificate of Confirmity & MID Certificate can be supplied
- High Accuracy
- Cables are MID Approved & Tagged
- RHI Compliant
- MID Approved
- Third Party Accredited "best in class"
- Same Meter for Heating and Cooling: -20°C +130°C.
- Remote Measuring
- Can be Calibrated for use with Glycol - most others cannot
- Same Meter for Horizontal, Vertical Riser and Vertically Down pipework
- Complete range of flows qp0.6 - 1500 m3/h, DN15 – DN500
- No reflection or misdirection of the signals- as with ultrasonic sensors.
- Replaceable sensor head without removing from pipework
The Superstatic 440 is a static heat or cooling meter according to standard EN1434
class 2 based on the fluid oscillation principle, covering a wide range of flows for all
applications in district heating and cooling or building automation. The fluid oscillation
principle guarantees a high stability and repeatability for a reliable and precise
measurement of flow and thermal energy.
The heating and cooling meter Superstatic 440 meter consists of the fluid oscillator flow
sensor, the integrator Supercal 531, battery or mains powered, and a pair of
temperature sensors Sontex 460. Consumption values can easily be read over the
display or various data interfaces like radio, M-Bus, optical probe, GSM and so on.
Temperature sensor pair
The temperature sensors and the integrator Supercal 531 in combination with the
Superstatic flow sensor are available as Pt 500 or Pt100 version. The temperature
sensors are paired. They are always supplied in pairs and must not be separated,
extended or shortened. In the case of temperature sensor pairs with a cable longer than
3 m, we recommend the exclusive use of screened temperature sensor pairs.
The integrator Supercal 531 with mains power supply records every 3 seconds the
supply and the return temperature, with battery power every 20 seconds (D-type
battery). The recording of the flow is dependent of the pulse value of the flow sensor
and is constantly updated. With the mean flow rate, the temperature difference and the
heat coefficient the energy is calculated of the captured medium and displayed on the 8-
digit LCD display.