Factory Price Air-Cooled Cold Storage Condenser/Fin Type Air Cooled Condenser
Description of Technology:
The closed-loop, dry cooling technology operates by pumping water returning from
the process into heat exchangers and cooling it with ambient air flow. This process
provides clean water at the right temperature to process machines year round.
Desired water temperatures are continuously met through control and software that
provides fully-automatic water and energy savings adjustments based on actual
thermal load and outdoor temperatures.
To maintain water below setpoint in hot weather, defined as 29.4°C (85°F), outside
air passes through an adiabatic chamber before reaching the air-to-water heat
exchanger coils. Adiabatic mode keeps LWT below 35°C (95°F) even when ambient
temperatures reach 48.9°F (120°F). In the chamber, a fine mist of water (from a
separate source) is pulsed into the air stream, evaporates immediately and cools the
air before it impinges on the cooling coils. The spray function and volume of water
used is controlled by the microprocessor based on ambient temperatures. Only cool,
dry air makes contact with the heat exchanger coils, creating the concept of "dry
cooling". This ensures coils are kept completely dry and free of scale.
Technical data
*The above performance data are for the models with imported brand fan motors.
*Two-system design for standard blast freezer models.
As a result of continuing research and design efforts by Shenglin, aimed at offering top quality and innovative products.
Description of Technology:
The closed-loop, dry cooling technology operates by pumping water returning from
the process into heat exchangers and cooling it with ambient air flow. This process
provides clean water at the right temperature to process machines year round.
Desired water temperatures are continuously met through control and software that
provides fully-automatic water and energy savings adjustments based on actual
thermal load and outdoor temperatures.
To maintain water below setpoint in hot weather, defined as 29.4°C (85°F), outside
air passes through an adiabatic chamber before reaching the air-to-water heat
exchanger coils. Adiabatic mode keeps LWT below 35°C (95°F) even when ambient
temperatures reach 48.9°F (120°F). In the chamber, a fine mist of water (from a
separate source) is pulsed into the air stream, evaporates immediately and cools the
air before it impinges on the cooling coils. The spray function and volume of water
used is controlled by the microprocessor based on ambient temperatures. Only cool,
dry air makes contact with the heat exchanger coils, creating the concept of "dry
cooling". This ensures coils are kept completely dry and free of scale.
Technical data
| Models | SBF634F10 | SBF634H10 | SBF636F10 | SBF636H10 |
| SC4 cooling cap(KW) | 48.6 | 57.2 | 65.2 | 79.2 |
| SC5 cooling cap(KW) | 41.6 | 50.2 | 53.6 | 64.2 |
| Surface | 210 | 292 | 312 | 436 |
| Air flow m³/h | 63200 | 59000 | 94800 | 88500 |
| Air throw m | 35 | 32 | 40 | 38 |
| Net weight kg | 660 | 740 | 960 | 1080 |
| Fan spec. | 4*630 | 4*630 | 6*630 | 6*630 |
| Fan mot.ampere A | 20.0 | 20.0 | 30.0 | 30.0 |
| Fan mot. Power W | 11200 | 11200 | 16800 | 16800 |
| Electric defrost A | 56.6 | 56.6 | 85.5 | 85.5 |
| Electric defrost W | 32250 | 32250 | 48750 | 48750 |
| W-defrost flow rate m³/h | 14.0 | 17.3 | 17.3 | 21.6 |
| Inlet OD inch | 1-3/8*2 | 1-3/8*2 | 1-3/8*2 | 1-3/8*2 |
| Outlet OD inch | 2-1/8*2 | 2-1/8*2 | 2-1/8*2 | 2-1/8*2 |
*Two-system design for standard blast freezer models.
As a result of continuing research and design efforts by Shenglin, aimed at offering top quality and innovative products.