Static Heat Meters
Made of fibre composite, the new Sontex Superstatic 789 compact heat meter is sturdy and light. It is known for it's precision and reliability due to the static measurement principle. The Superstatic 789 is available for flow rates of qp 1.5 or qp 2.5 m³/h and in lengths of 110 mm or 130 mm. It meets the requirements of the European Measuring Instruments Directive MID 2014/32/EU and standard EN 1434 class 2. |
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The Superstatic 749 is available for flow rates of qp 0.6, qp 1.5 or qp 2.5 m³/h and in lengths of 110 mm, 130 mm and 190 mm. It meets the requirements of the European Measuring Instruments Directive MID 2014/32/EU and standard EN 1434 class 2. |
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The Superstatic 449 is available for flow rates of qp 1.5 or qp 2.5 m³/h and in lengths of 110 mm or 130 mm. It meets the requirements of the European Measuring Instruments Directive MID 2014/32/EU and standard EN1434 class 2. |
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The top of the range Superstatic 440 is available for flow rates of qp 0.6 to qp 400.0 m³/h meeting the requirements of the European Measuring Instruments Directive MID 2014/32/EU and standard EN1434 class 2. |
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Battery or mains powered Superstatic heat and cooling meters (EN1434 Class 2) are unique utilising a static measurement principle with no moving parts. Available in a wide range of flow rates, they are used in building technology and automation and in district heating. The fluidic oscillator principle, where only the liquid flowing through moves, guarantees the precision and stability of measurements for reliable flow and energy readings. All heat meters can also be used as cooling meters, mounted either horizontally or vertically. Superstatic heat meters also work perfectly if the water is dirty or if magnetite deposits build up in the pipes. The fluidic oscillator principle was developed by NASA and refined by Sontex for measurement purposes.