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rMIX DN25 3x3 R 35

Item number: 001 085

Two-zone discharge

For highly efficient two-zone discharging of a buffer cylinder using a mixed heating circuit with an additional unmixed flow connection for DHW heating (charging circuit)

Gross price €9,999.00
Your price
€9,999.00 plus VAT.
Delivery time depends on the recipient country

Product documentation

Assembly instructions

Assembly instructions for motors

Spare parts drawing

Tender text

BAFA funding opportunity for heating system optimization through hydraulic balancing and the installation of separate control technology<br/>rendeMIX multi-port mixing manifold with 3/3-way tangential mixing valve DN25×G1½(a) MsGuss (red adapter), valve and cover Ms58<br/>For highly efficient two-zone discharge of a buffer tank via a mixed heating circuit with an additional unmixed supply connection for domestic hot water (charging circuit)

EMS 240 actuator, 230V~ 50Hz 3.5VA 3-point signal, 5Nm (240h), 240°, 93s

Mixer assembly with 3 connections to the heat source and a separate charging circuit outlet, Cu Ø35×1, pipe spacing 100 mm, DN32×G1½(a) flat<br/>2 integrated gravity brakes/backflow preventers, Dp 10 mbar<br/>Charging circuit (HT): Kvs = 6.2 &#x95; V'max[100 mbar] = 2 m³/h &#x95; Q'max[20 K] = 47 kW - Mixing circuit (low pressure): Kvs = 6.2 &#x95; V'max[100 mbar] = 2 m³/h &#x95; Q'max[10 K] = 23 kW &#x95; Leak rate < 0.1%<br/>6 thermometers 0–120°C, Ø63 mm, solder sleeves Ms58<br/>6 ball valve fittings, straight-through DN25, PN32, G1½(i)×Rp1 flat-seal, stuffing box, sealing hole, stem with aluminum wing handle

EPP insulation shell 40 g/l, black, 300×450 mm, Quick-installation kit<br/>With G1½(i) pump flanges for DN25 pumps on the unmixed heating (3) and mixing circuit supply lines (5)<br/>Assembly does NOT include a pump compensator – PAS L180 (Part No.: 001 338)<br/>Assembly does not include a pump<br/>Model DN 25 – lightweight version, PN 10 bar, Tmax 120°C

Performance data

Charging circuit (HT): Kvs = 6.2 • V'max[100mbar] = 2m³/h • Q'max[20K] = 47kW - Mixing circuit (NT): Kvs = 6.2 • V'max[100mbar] = 2m³/h • Q'max[10K] = 23kW • Leakage rate < 0.1%