EVAPORATOR COILS
EVAPORATOR COILS
APPLICATIONS AND CAPABILITIES
Designed for use in comfort cooling, process cooling, and refrigeration, Madok evaporator coils are proven for use with today’s refrigerants. Our proprietary circuiting provides for optimal system performance at minimal air-side and refrigerant pressure drops. A variety of load-split options provides the flexibility designers need to optimize the system not only at design conditions, but also when operating at part-load. Coils are easily customized for hot-gas bypass or heat pump usage. Our pressurized method of shipping evaporator coils gives the user the assurance of leak-free operation. Our refrigerant coils have undergone the rigors of cycle testing for use with high-pressure R-410A refrigerant, and are safety listed with 450 psig rating.
CIRCUITING OPTIONS
Single circuit evaporator coils are most common with single compressor systems. They consist of only one refrigerant distributor and do not provide for variable loads. This is most commonly used in air-conditioning systems with constant airflow and space/return air temperature. Intertwined circuiting feeds refrigerant evenly across the coil face under part-load. The coil retains up to 70% of the design capacity when one circuit is deactivated, because the entire fin surface provides cooling, keeping suction pressure high and allowing compressors to operate more efficiently. This option is most commonly used in multi-zone and VAV units.
FOUR-CIRCUIT FACE SPLIT INTERTWINED.
This is the most flexible arrangement available on an evaporator. Depending on the number of compressors, piping arrangement and controls, this coil style can operate as an intertwined coil or a face split coil – all while accommodating four independent refrigerant circuits. This arrangement is commonly used in multi-zone and VAV units as well.
TRADITIONAL FACE SPLIT.
At part load, only a portion of the coil face remains active. Suction pressure remains low in the active circuit, thus providing a lower fin temperature and leaving air temperature in the active portion of the face. Active circuits should always be the bottom section of the coil to prevent humidity spikes due to re-evaporation of condensate.
TRADITIONAL ROW SPLIT.
Typically seen in six-row evaporators, this arrangement will feed the first four rows with one distributor and the last two rows with the other distributor to achieve a 50/50 load split. Owing to the limited options for achieving a 50/50 split and the fact that the lower suction temperatures do not allow for higher efficiencies at part-load, this arrangement is less commonly used.
