Product Details
- Size3/4 in
- Connection TypeC x C
- MaterialBrass
- Temperature Range (F)85 to 150 °F
- Max Pressure (PSI)200 PSI
Description
The Caleffi MIXCAL three-way thermostatic mixing valve is used in systems producing domestic hot water or in hydronic and radiant heating systems. It maintains the desired output temperature of the mixed water supplied to the user at a constant set value compensating for both temperature and pressure fluctuations of the incoming hot and cold water. The valve has been specifically certified to ASSE 1017 and IAPMO R&T.
Product Range
521519A (AC) Adjustable three-way thermostatic mixing valve, sweat connections, outlet temperature gage size 3/4".
Technical Specification
Materials: - Body: low-lead brass (<0.25% Lead content)
Shutter: PPO - Springs: Stainless steel
Seals: EPDM
Setting range: 85-150°F (30-65°C)
Tolerance: ±3°F (±2°C)
Max working pressure (static): 200 psi (14 bar)
Max working pressure (dynamic): 70 psi (5 bar)
Max hot water inlet temperature: 200°F (93°C)
Maximum inlet pressure ratio (H/C or C/H): 2:1
Minimum temperature difference between hot water inlet and mixed water outlet for optimum performance: 27°F (15°C)
Certified to: ASSE 1017
Lead Plumbing Law Compliance: (0.25% Max. weighted average lead content)
Lead Plumbing Law Certified by IAPMO R&T
521519A (AC) Adjustable three-way thermostatic mixing valve, sweat connections, outlet temperature gage size 3/4".
Technical Specification
Materials: - Body: low-lead brass (<0.25% Lead content)
Shutter: PPO - Springs: Stainless steel
Seals: EPDM
Setting range: 85-150°F (30-65°C)
Tolerance: ±3°F (±2°C)
Max working pressure (static): 200 psi (14 bar)
Max working pressure (dynamic): 70 psi (5 bar)
Max hot water inlet temperature: 200°F (93°C)
Maximum inlet pressure ratio (H/C or C/H): 2:1
Minimum temperature difference between hot water inlet and mixed water outlet for optimum performance: 27°F (15°C)
Certified to: ASSE 1017
Lead Plumbing Law Compliance: (0.25% Max. weighted average lead content)
Lead Plumbing Law Certified by IAPMO R&T