The operating principle of the stainless steel mixing tank is typically used in large-scale heating systems. Its function is to create an area with almost zero pressure loss, allowing the primary and secondary circulation systems to operate relatively independently. The flow rate of each circulation system depends only on the technical specifications of its own pump, avoiding interference caused by the series connection of pumps. After the use of the mixing tank, the secondary circulation system only operates when its own pump is turned on. When the secondary circulation pump is turned off, the flow rate of the primary circulation system pump is fully bypassed back to the primary system from the pressure-reducing mixing tank.

The Mixing Tank, by balancing the pressure between the primary heating system and the secondary heating system, does not cause any loss in the flow of the primary heating system. A key feature of the pressure-reducing mixing tank is its ability to ensure the coexistence and operation of a system with a constant flow rate and a system with a variable flow rate, effectively protecting the system safety of independent heating equipment. Users can adjust the flow rate of water entering the secondary heating system through the electric temperature control valve or manual temperature control valve, thereby achieving the function of reducing the temperature of the secondary water supply.