HC series air cooled condensers are mainly equipped with open-type condensing units with scroll compressor, hemertic & semi-hemertic compressor. This air cooled condensers and compressors can be installed together or separately from compressors. Design of High barrel with Side-mounted structure with sufficient heat transfer capacity.
HC series air cooled condensers are mainly equipped with open-type condensing units with scroll compressor, hemertic & semi-hemertic compressor. This air cooled condensers and compressors can be installed together or separately from compressors. Design of High barrel with Side-mounted structure with good heat transfer capacity
HC series air cooled condensers are mainly equipped with open-type condensing units with scroll compressor, hemertic & semi-hemertic compressor. This air cooled condensers and compressors can be installed together or separately from compressors. Design of High barrel with Side-mounted structure, with good heat transfer capacity.
HC series air cooled condensers are mainly equipped with open-type condensing units with scroll compressor, hemertic & semi-hemertic compressor. This air cooled condensers and compressors can be installed together or separately from compressors. Design of High barrel with Side-mounted structure with best heat transfer capacity.
HC series air cooled condensers are mainly equipped with open-type condensing units with scroll compressor, hemertic & semi-hemertic compressor. This air cooled condensers and compressors can be installed together or separately from compressors. Design of High barrel with Side-mounted structure, with high heat transfer capacity.
RC series air cooled condensers are mainly equipped with large heat transfer demand, large-scale remote-mounted condensing units, piston parallel units and screw units.
Large air-cooled chillers are advanced cooling equipment designed to meet the cooling needs of various industrial and commercial applications. These chillers are characterized by their efficient air-cooled condenser, which dissipates heat without the need for a water source. This makes them highly suitable for installations where water resources are limited or access to cooling water is difficult.