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Introduction

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  1. The system calculates the Dew Point Temperature (Dew Point) for each zone equipped with a temperature+humidity sensor, that is the critical temperature below which condensation forms under the zone’s current conditions.

  2. The Dew Point Temperature, corrected by an offset that can be set differently from zone to zone (Dew Point Control parameter, indicated as Ctrl DP in the Configuration Zone/1 sub page), is compared with the Outlet temperature of the circuit serving the zone; if the water temperature is equal or below the calculated limit, there are the conditions for condensation formation.

  3. If the circuit serving the zone is equipped with a mixed valve controlled by the REG System, the Outlet temperature of the circuit is increased if the water temperature is too close to the Dew Point Temperature, otherwise the zone will be blocked.

Note

For zones used as “Integration” to the dehumidifiers in Cooling system, the Dew Point Control (Ctrl DP) value must be set very high (in the order of 20°C), because the associated user does not act directly on the radiant surface, but it is a “Support” to the action of the dehumidifier.

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  • Screed thickness

  • Materials used for floor construction

  • Radiant system pipes materials

Note

Within the Zone section (in the red frame), for each zone equipped with humidity and temperature sensor, the Dew Point (°C), indicated by the abbreviation DP in the green frame, is calculated:

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Let us, for example, consider the zone 12, for which the calculated dew point is 1516,1°C and the Dew Point control is equal to 3 K. The calculated dew point (1516,1°C) will not be compared to the value read by the water outlet temperature of the circuit associated with the zone (C1), but with the value read by the probe of C2 + 3 K. Zone 1 will be blocked to prevent condensation if the water outlet temperature of the associated C2 circuit is less then 1213,1°C (1516,1°C - 3 K). While zone 7 1 will be blocked if the water outlet temperature of the associated C2 circuit drops below 1015,3°C (1318,3°C - 3 K). And in the above image this happens since the Output is off.

To the right of Ctrl DP is another column marked 0. This column ensures that the calculation of the temperature to be compared with the calculated DP takes into account not only the water temperature, but also the room temperature. The value in the box can range from 0 to 100 (dimensionless):

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Considering, for example, to use 3 1,5 K as Offset DP/Water outlet T and having a zone which is connected to the circuit 1 which is at risk of condensation if the water outlet temperature < 615,8°C 1°C (calculated DP = 718,3°C 1 °C and CtrlDP = 0,5 3 K with 0 = the room temperature is not considered), it can be seen that the lower outlet limit is 615,8°C 1°C + 3 1,5 = 916,8°C6°C, which also corresponds to the set point (desired temperature) > 5°C 15°C which would be the set point of the cold circuit in Comfort mode:PHOTO TBD

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Obviously, the Offset/Outlet applies to all circuits when only one of the connected zones is at risk of condensation. It could be that other zones are not at risk of condensation and the increasing of the water outlet temperature to avoid a single zone from blocking prevents the other zones from being cooled.

If you want to limit the effect of Offset / Outlet on a circuit, you must use the parameter “Dew Point Correction Limit”, which is a temperature value (not a delta):PHOTO TBD

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If left at zero, it is as being switched off. If different from zero, it represents the maximum increase allowed for that circuit. In the example below, 12°C 18°C represents the maximum increase, above 12°C 18°C the set point in cooling will not be raised:PHOTO TBD

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 At this point, the zone block will intervene for the zone at risk of condensation, but the rest of the system can keep cooling the zones not at risk of condensation.

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