Flow-compensated temperature controller AVTQ DN 15

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Data sheet Flow-compensated temperature controller AVTQ DN 15 Description AVTQ is a self-acting flow-compensated temperature controller primarily for use in district heating systems with plate heat exchangers for instantaneous hot water production. It closes on rising sensor temperature. It has permanent no-load (idle) temperature setting on about 40 C which is offset by a pilot valve using flow-compensation principle during tapping. Tapping temperature can be set individually. AVTQ prevents high temperatures in the heat exchanger when no hot water is tapped by rapidly shutting off the heat supply (e.g. hot district heating water). AVTQ can be used with most plate heat exchangers. However, the heat exchanger manufacturer should be contacted to ensure that the chosen heat exchanger has been approved for use with the AVTQ. Pressure-controlled opening/closing on start/stop tapping. Infinite adjustment of operating temperature. AVTQ controller consist of a thermostatic actuator, diaphragm element, main valve and pilot valve. Thermostatic actuator with diaphragm element and main valve are installed on the district heating (primary) side. The diaphragm element is, via impulse tubes, connected to the pilot valve on the domestic hot water (secondary) side. Main data: DN 15 k VS 1.6 PN 16 - Main valve PN 10 - Diaphragm element and pilot valve Suitable for domestic hot water (DHW) production in range of 45 60 C Permanent no-load (idle) temperature (approx. 40 C) Temperature (primary): - Circulation water / glycolic water up to 30 %: 2 100 C Connections: - Ext. thread (weld-on and thread tailpieces) Return mounting Ordering Example: Flow-compensated temperature controller, DN 15, k VS 1.6, PN 16, setting range 45 60 C, t max 100 C, ext. thread - 1 AVTQ controller, 45 60 C Code No: 003L7015 Option: - 1 Weld-on tailpieces Code No: 003H6908 The controller package (code 003L7015) does not include copper impulse tubes. Two standard Ø6 0.8 mm copper tubes, of the lenght required for the particular application, must be obtained separately by the customer in order to instal the product. The compression fittings for mounting the tubes onto the controller are provided in the package. AVTQ controller Picture DN k vs (m 3 /h) 15 1.6 G ¾ A Connection Main valve ISO 228/1 Pilot valve ISO 228/1 G 1 A (DN 20) Code No.* 003L7015 * Controller incl. gland and compression fittings for mounting on Ø6 0.8 mm copper impulse tube (standard copper impulse tube not included in the package). Accessories Picture Type designation DN Connection Code No. Weld-on tailpieces External thread tailpieces 15 Conical ext. thread acc. to EN 10226-1 003H6908 R ½ 003H6902 Danfoss 2017.11 VD.LJ.A2.02 1

Ordering (continuous) Service kits Picture Type designation Code No. Gasket for diaphragm housing 003L3154 Thermostatic actuator incl. sensor stuffing box 003L7100 Compression fittings for Ø6 mm copper tube (4 ferrules and 4 nuts) 003L7101 Pilot valve excl. compression fittings 003L7108 Main valve incl. complete valve insert 003L7109 Diaphragm element excl. compression fittings 003L7111 Sensor stuffing box incl. gasket 003L7120 Technical data Nominal diameter DN 15 k VS value m 3 /h 1.6 Control ratio 100 : 1 Cavitation factor z 0.6 Leakage acc. to standard IEC 534 < 0.05 % 4) Nominal pressure Max. differential pressure 6 bar Max. closing pressure 12 Medium PN 16 1) 10 2) 1),2),3) Medium ph Min. 7, max. 10 Medium temperature C Connections valve tailpieces Circulation water / glycolic water up to 30% 1) Domestic hot water (chlorine (cl) content max. 200 ppm) 2) 2 100 1) 2 90 2) Ext. thread Setting range Xs C 45 60 Time constant T acc. to EN 14597 s 4 Max. adm. temperature at sensor C 130 Max. water velocity around the sensor m/s 1.5 Capillary tube length m 1 Materials Temperature controller Diaphragm housing stuffing box Sensor Pilot valve Weld-on and external thread Valve body RG5, DIN 1705, W.no. 2.1096.01 Valve insert and valve cone Dezincification resistant brass BS 2874 Valve seat, pressure relief cylinder CrNi steel, DIN 17440, W.no. 1.4404 Valve spindle CrNi steel, DIN 17440, W.no. 1.4435 Valve plate, O-ring, diaphragm EPDM Diaphragm housing CrNi steel, DIN 17440, W.no. 1.4435 Diaphragm plate CrNi steel, DIN 17440, W.no. 1.4436 Diaphragm spindle Housing Spindle CrNi steel, DIN 17440, W.no. 1.4401 Sensor Dezincification resistant brass BS 2874 Sensor stuffing box EPDM Gasket Carbon dioxide (CO 2 ) Charge Valve body Valve base Valve spindle CrNi steel, DIN 17440, W.no. 1.4401 Setting spring CrNi steel, DIN 17440, W.no. 1.4568 Cone, spring retainer O-ring PPS-plastic EPDM 1) Valid for primary side (main valve) 2) Valid for secondary side (pilot valve and diaphragm element) 3) HCO3 In case of domestic hot water (secondary side) ph lower than 7 -> the hardness of the water must be larger than the sulphate element 1 4) SO4 at T idle nom. + 10 C 2 VD.LJ.A2.02 Danfoss 2017.11

Application principle The controller AVTQ must be installed in the return pipeline only. When domestic hot water (DHW) is tapped, flow through the pilot valve creates a pressure drop (force in the diaphragm housing) which is used to increase the temperature level from no-load (idle) to set tapping temperature. This temperature increase causes the main valve to open for flow on the district heating side and close when the temperature level again falls to the no-load operating level. No-load operation prevents the district heating line becoming cold. Tapping temperature can be set individually. Design 1. Thermostatic actuator with sensor stuffing box 2. Pressure spindle 3. Diaphragm housing stuffing box 4. Nut 5. Diaphragm housing 6. Diaphragm spindle 7. Control diaphragm 8. Compression connection for impulse tube 9. Intermediate ring 10. Nameplate 11. Main spring 12. Damping + teflon ring 13. Valve spindle 14. Valve insert 15. Pressure relief cylinder 16. Valve body (main valve) 17. Handle for temperature setting 18. Spindle 19. Valve base 20. Spring retainer 21. Setting spring 22. Pressure equalizing hole 23. Valve cone 24. Valve body (pilot valve) 25. Compression connection for impulse tube 26. Sealing bolt of sensor stuffing box 27. Gasket of sensor stuffing box 28. Housing of sensor stuffing box Danfoss 2017.11 VD.LJ.A2.02 3

Installation One-way heat exchanger Two-way heat exchanger Three-way heat exchanger Fig. 3 AVTQ can be used with most types of plate heat exchangers. The AVTQ manufacturer should be contacted to ensure: - that the AVTQ is approved for use with the chosen heat exchanger - the correct material selection when connection the heat exchangers - the correct connection of one pass plate heat exchangers; layer distribution might occur, i.e. reduced comfort The system functions optimal when the sensor is installed right inside the heat exchanger (see page 3). However, the sensor head should be placed approx. 5 mm from the plate which divides the primary and the secondary side of the exchanger. If the sensor head is placed too close to the dividing plate, the sensor might measure the temperature of the plate and not the temperature of the medium. For correct noload operation, thermal flow should be avoided since hot water rises and increases the no-load consumption. Note: water velocity around the sensor must be in accordance with the requirements for copper tube. The temperature controller (main valve): - must be installed in the return pipeline on the district heating (primary) side of the heat exchanger - the diaphragm element can be turned in any position in relation to the valve body so that impulse tube can be connected in the required direction The pilot valve: - must only be installed in the flow pipeline on the secondary side of the heat exchanger - in systems where it cannot be excluded that drinking water is contaminated with fine dust from time to time, it is recommended not to mount the pilot valve with the impulse tube connections downwards (fig.2) to avoid dirt ingress in the impulse tubes and diaphragm housing The sensor can be installed in any position (fig.1) It is strongly recommended that: - the primary and secondary sides of the heat exchanger should be flushed through before the heating system is used the first time. In addition the (+) and ( ) side of the diaphragm should be vented. - dirt strainers with a mesh size of max. 0.6mm should be installed in both, the cold tap water pipeline ahead of the pilot valve and in the flow pipeline from the district heating network. Fig. 1 Fig. 2 4 VD.LJ.A2.02 Danfoss 2017.11

Sizing Example Given data: T 1 = 65 C T 3 = 50 C T 4 = 10 C Q 2 = 0.3, 0.6, 0.9 m 3 /h (300, 600, 900 l/h) T 1 - District heating water flow temperature T 3 - Hot water temperature T 4 - Cold water temperature Q 2 - Hot water service flow Primary Secondary District heating flow line Hot water District heating return line Cold water Fig. 4 The maximum heating power P max is calculated according to formula: ( T T ) Q2 x T2 Q2 x 3 4 pmax = = 0.86 0.86 900 x ( 50 10) p max = = 42 kw 0.86 Based on max. heating power heat exchanger could be selected. Information about the cooling across the primary side of heat exchanger can be acquired either by contacting the manufacturer of the heat exchanger or by using the manufacturer s dimensioning diagram. In the example chosen cooling on primary side (ΔT 1 ) is 43 C, 40 C or 39 C, the differential pressure across the AVTQ main valve (Δp v ) is 0.2 bar. Chosen AVTQ main valve has k vs 3.2 m 3 /h and therefore is big enough. Values for flows of 300 and 600 l/h are calculated on the same way and entered in the table. Tab.1 W (kw) Secondary flow Primary flow Cooling Q 2 (l/h) Q 1 (l/h) k v (m 3 /h) T 1 ( C) 14 300 280 0.39 43 28 600 600 0.85 40 42 900 925 1.31 39 They can be plotted on the diagram overleaf (fig. 5) and connected. The temperature variation can be read from the diagram as the difference between the temperature lines intersected by the curve The primary flow Q 1 can be calculated according to formula: P Q = x 0.86 T max 1 = 1 Q 1 = 925 l / h Using the above data, the needed capacity of the main valve (k v ) can be calculated: k Q 3 [ m / h] 1 v = = p v k v = 1.31 m 3 /h 42 x 0.86 39 0.925 [ bar] 0. 2 Danfoss 2017.11 VD.LJ.A2.02 5

Sizing (continuous) The pressure drop across the pilot valve can be read from the diagram below. Fig. 6 Pressure drop (Δp pilot ) across pilot valve as a function of the setting value and secondary flow Setting The AVTQ controller can be used with plate heat exchangers of up to 75 kw. As a result of the flow compensation principle an actual dimensioning of the valve is unnecessary, because the valve will always adjust around the required temperature without regard to the flow. Typical settings: Minimum: This means that if the controller is set to 50 C (this is done at 75% of max. tapping flow to obtain optimum control), then this temperature will be maintained whether or not the actual flow is 120 l/h, 900 l/h or more. Between 120 l/h and 900 l/h the temperature will vary approx. 4 C. Designation Application values Pilot valve setting Flow temperature, primary Tp = 65 C Differential pressure across the AVTQ main valve p = 0.5 bar Hot water temperature, secondary Ts (hot) = 50 C 3.0 Cold water temperature, secondary Ts (cold) = 10 C Secondary flow Qs = 800 l/h Maximum: Designation Application values Pilot valve setting Flow temperature, primary Tp = 100 C Differential pressure across the AVTQ main valve p = 6.0 bar Hot water temperature, secondary Ts (hot) = 50 C 2.0 Cold water temperature, secondary Ts (cold) = 10 C Secondary flow Qs = 750 l/h The values mentioned above are reference values and therefore corrections of pilot valve settings might be necessary in order to obtain the required temperature. Other approx. setting values: Tapping temperature = 50 C Tapping flow = 800 l/h T primary p (bar) 0.5 1.0 3.0 6.0 65 C 3.0 2.5 2.5 2.5 80 C 2.75 2.5 2.25 2.25 100 C 2.5 2.5 2.25 2.0 6 VD.LJ.A2.02 Danfoss 2017.11

Dimensions R 3/4 DN L 1 L 2 L 3 a ISO 228/1 b ISO 228/1 Weight (kg) 15 65 22.5 35 G ¾ A G ¾ A 3.57 Danfoss 2017.11 VD.LJ.A2.02 7

Danfoss can accept no responsibility for possible errors in catalogues, brochures and other printed material. Danfoss reserves the right to alter its products without notice. This also applies to products already on order provided that such alterations can be made without subsequential changes being necessary eady agreed. All trademarks in this material are property of the respective companies. Danfoss and the Danfoss logotype are trademarks of Danfoss A/S. All rights reserved. 8 VD.LJ.A2.02 Danfoss DHS-SRMT/SI 2017.11

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