MODULO MACS

Overview

MODULO MACS By CORDIVARI

Collection: Termoidraulica

Type: Heat exchanger

Cascade MACS® system with electronic control unit for immediate dhw production on large installations.‎ APPLICATION: MACS® module produces instantly D.‎H.‎W.‎ with high flow rate even if there is installed a small power thermal generator.‎ EXCHANGER, MATERIAL: Copper primary pipes, Stainless steel 316L DHW sanitary circuit; brass fittings and valves.‎ Stainless steel 316L brazed plate heat exchanger.‎ PPE module case housing and insulating the exchangers circuits.‎ TECHNICAL DESCRIPTION: The management of additional MACS® modules in cascade allows to meet high DHW requirements.‎ The complete system manages trough the electronic control unit, the working of each module following the DHW request from the users.‎ The cascade configuration can eventually also manage the link of the DHW recycling.‎ The use of the MACS module in cascade takes all the benefits from the MACS module also in big installation swhere big DHW flows are needed to produce immediate DHW without the necessity to accumulate it.‎ WARRANTY: 2 years.‎ 1 year electronical parts.‎ MACS® modules are used for the instantaneous production of DHW with high flow rates and efficiencies without the need for storage.‎ This provides numerous advantages such as reduced space requirements, hygiene, ease of installation and maintenance, and reduction of Legionella risk.‎ CORDIVARI proposes the management of several MACS® systems in cascade, allowing to cope with high demands of DHW through the battery management of 2 to 5 MACS® modules .‎ The system manages through the electronic control unit the operation of each module according to the demand of DHW from the user.‎ The cascade configuration is also able to manage the eventual presence of a sanitary recirculation loop and allows to benefit from all the advantages provided by the MACS® modules even in systems that require large flow rates of DHW.‎ By using the MACS® module in combination with one or more puffers, technical water will be stored instead of DHW.‎ This adds to the advantages listed above, a higher efficiency due to the possibility that the technical water is stored at quite high temperatures, which is not possible if DHW is stored instead, as well as a guarantee of hygiene of the DHW supplied.‎