CXV Range 46 models from 320 to 2100 kW

Principle of operation
The vapour to be condensed is circulated inside the tubes of the condensing coil, which is continuously wetted on the outside by a recirculating water system. Air is simultaneously blown downward over the coil, causing a small portion of the recirculated water to evaporate. This evaporation rejects the heat from the coil, condensing the vapour into liquid. The water is then distributed over a wet deck surface where it is cooled by air being drawn across it, before being recirculated over the condensing coil by the condenser water pump.

Characteristics

• combination counter/crossflow design
• induced draught configuration
• air entry from one side and top
• vertical air discharge
• aluminium axial fans
• low pressure water distribution system
• prime surface hot-dip galvanized coil
• BACross film fill for cooling spray water
• V-belt drive to top

Main features

• low fan power
• small refrigerant charge
• spacious interior for ease of maintenance
• reduced sound emission due to low noise fans and water pillows
• side by side arrangement possible
• factory built sections for minimum site assembly
• suitable for outdoor applications

Material options
Baltiplus corrosion protection
Baltiplus Corrosion Protection comprises all steel components fabricated from Z 600 galvanised steel with 600 g of zinc per m² coating.
Cut edges are protected with a zinc rich paint. All fasteners have a 3-stage protective coating consisting of a zinc phosphate treatment, a zinc rich inorganic resin coating and an aluminium rich organic top coat. The exterior surfaces of the equipment are finished with a coat of polymeric zinc aluminium paint.

Baltibond Corrosion Protection System
The BALTIBOND Corrosion Protection System is applied to individual galvanized steel components prior to assembly. These components are manufactured from Z 600 mill galvanized steel sheets with 600 g of zinc/m². After manufacturing the components undergo an industrial cleaning and drying pretreatment process. Immediately after the pretreatment the components are electrostatically coated with a dry, polymeric hybrid thermosetting powder. The coated components are then put through a thermally activated curing process during which the powder is fuse bonded to the substrate. Stringent quality control procedures and regular testing during the coating process assure consistent high quality of the protection system. The fasteners used for assembly have a 3-stage protective coating comprising a zinc phosphate treatment, a zinc rich inorganic resin coating and an aluminum rich organic top coat.