REALISING THE FULL POTENTIAL...When it comes to energy efficient compressed air drying, not only is the energy consumption of the dryer a key factor but the power consumption of the compressor is of even greater importance. Just a small decrease in pressure loss across the dryer means a reduction in generation pressure which in turn saves energy.
Due to the compact layout design coupled to the built in energy saving components the BOGE DS series dryers are able to operate with extremely low pressure differentials compared to traditional refrigerant dryers. And, don’t forget; each one bar reduction in generation pressure saves around six percent in energy consumption. The DS series dryers are therefore not only inherently energy effi cient but they will also reduce the energy consumption of the compressor itself.
LOW PRESSURE LOSS...The DS series refrigerant dryers are extremely energy efficient. The patented design of the heat exchanger and its particularly generously dimensioned and optimal airflow not only ensure an energy efficient drying process but also extremely low pressure differentials which consequently reduce the power consumption of the compressor. This creates a larger savings potential than just the dryer alone.
LOW POWER CONSUMPTION...The DS series is equipped with an innovative control including an integrated energy saving function which ensures a particularly low power consumption of the dryer. It is also able to adapt the energy consumption to the actual prevailing operating conditions. Temperature fluctuations - due to seasonal variations and other factors - are measured by sensors and sent to the control system. The energy saving control unit serves to minimise the energy consumption and to reduce costs - at a constant pressure dew poin
THE BOGE EFFICIENCY EDGE...A total cost comparison shows that reduced pressure losses and low energy consumption ensure a rapid pay back period on the DS series dryers - a clear advantage for both the environment and your investment.
FLOW CAPACITY: 7-6356CFM
|Minimum Order Quantity||1 Unit|
|Drying Capacity (in cfm)||51 - 120 cfm, 0-20 cfm, 121 - 500 cfm, >1000 cfm, 21 - 50 cfm, 501 - 1000 cfm|
|Minimum Output Dew Point (in C)||-20 C|
|Maximum Pressure (in bar)||14 bar|
|Dryer Horse Power (HP)||2 HP, >20 HP, 1 HP, 10 HP, 20 HP, 5 HP, 15 HP|
THE MOST EFFICIENT METHOD OF DRYING COMPRESSED AIR: when compressed air is cooled near to freezing point, water and oil vapours create condensate. This method of drying is expensive to the end user as it uses energy and creates pressure losses. Because of its energy saving components, the DS series is capable of substantially reducing such costs over the entire lifetime of the compressed air system by combining savings potentials with maximum reliability.
EXTRREMELY ENERGY EFFICIENT COMPRESSED AIR DRYINNG: Owing to its efficient control, this range ensures absolutely economical compressed air drying. The generously dimensioned components are designed to ensure extremely low pressure differentials and to optimise pressure generation. Remember each one bar reduction in generation pressure saves around six percent in energy consumption.
RELIABLE PRESSURE DEW POINT-From the DS 120 model, the pressure dew point is displayed on the control panel. A reliable dew point is essential for a consistently high compressed air quality and a low pressure differential. The generation pressure can therefore be optimised.
INTEGRATED CONDENSATE DRAIN-All models come standard with an electronic level controlled condensate drain. Both the DS 75 and DS 95 are equipped with a Bekomat 32. From the DS 120 model, a condensate drain is integral to the heat exchanger and linked to the dryer control in order to save space - for even more safety and efficiency.
INTELLIGENT DESIGN -All components are time proven and field tested. The intelligent layout of the robust heat exchanger package is engineered to guarantee energy saving operation. A removable canopy ensures easy access for routine inspections.
ENVIRONMENTALLY FRIENDLY COOLANT-The R407c coolant does not have any ozone depleting characteristics. That, in conjunction with the use of recyclable materials and the in-built energy efficiency provides a true environmentally friendly product for the drying of compressed air.
ENERGY EFFICIENT-The DS dryers have exceptionally low pressure differentials across the range. Remember each one bar reduction in generation pressure saves around six percent in energy consumption. The DS series therefore realises savings where potentials are highest and at the same time develops further saving potentials that traditional dryers cannot reach.
|Minimum Order Quantity||1 Piece|
|Maximum Pressure (in bar)||10 bar, 7 bar, 8 bar|
|Installation/After Sales Service Available||Yes|
|Dryer Horse Power (HP)||>20 HP|
|Drying Capacity (in cfm)||>1000 cfm|
|Minimum Output Dew Point (in C)||-40 C|
|Dryer Type||Refrigeration Dryer|
CONSISTENT PRESSURE DEW POINT -The stainless steel 3-in-1 heat exchanger with integrated separator assures a consistent pressure dew point under differing ambient conditions. The low pressure differential ensures high quality compressed air.
FULLY AUTOMATIC VALVE-A check valve is designed to proportionally control the fl ow of the refrigerant into the heat exchanger according to the air volume flow. The R134a and R407c coolants ensure environmentally friendly operation.
STATIC CONDENSER-A static condenser means the DS 2 - DC 17 series is air cooled working reliably without any additional fan or energy consumption
AIR COOLED CONDENSER-Extremely large cooling coils means that the condenser is able to work effectively and effi ciently even in the most adverse conditions to cool the saturated compresse air – for maximum operational safety.
CONTROL -A user friendly control is equipped with anon/off switch, LED displays for dryer and compressor operation, and a LED bar graph display for the pressure dew point.
AMBIENT TEMPERATURE-The design feature of the DS 2 - DS17 series is the static condenser which allows the dryer to be air cooled irrespective of variableambient temperatures (see conversion factors).