Refrigeration Dryers and Adsorption Dryers

Refrigeration dryer with Energy Saving DRYBERG® RF/AC DRYBERG ® RF/AC Refrigeration Dryer, the new generation of energy-saving Refrigeration dryers, We not only renew its product offering for the compressed air treatment but also reinterprets the concept of thermal storage operation, that made the international success of the DE Hybrid dryers. The new Impulse Technology offers important advantages in terms of energy-saving, reliability, and operating costs as the DRYBERG® RF/AC is able to adapt itself to the real needs of the compressed air system. The regulation system of the dryer controls...

Refrigeration dryer with Energy Saving Function description In the DRYBERG® RF/AC refrigeration dryer, the air is dried via a counter-flow process with optimised heat exchange (Counter-Flow) along the entire process path, the air flows in a constant downwards aligned direction without diversions. The generously dimensioned counter-flow heat exchanger unit, which consists of an air-air and an air-refrigerant heat exchanger, among others, cools the compressed air to a temperature of around 3°C. The size and design of the heat exchangers promote effective cooling while minimising flow resistance....

Refrigeration dryer with Energy Saving Tried and tested system, intelligently controlledexchanger design and BEKOMAT® High energy saving potentials are created in compressed-air drying. Refrigeration dryers are always designed for the harshest conditions, that means that the benchmark is set for summer operation with high inlet and ambient temperatures. Only in rare cases are refrigeration dryers applied with constant full load. This results in high energy-saving potential with a dryer with energy-saving control. The DRYBERG ® RF/AC refrigerated dryer series successfully implements and continues...

DRYBERG® RF 1-16 /AC Energy efficiency by utilising intelligent cycling system For volume flow rates of less than 1,000 m3/h, the DRYBERG® RF/AC operates as a cycling dryer in which the refrigerant compressor is switched off according to demand. The intelligent cycling system is executed dependent from the drying requirement and is regulated in such a way that the switching off times will be optimally extended. For volume flow rates <1,000 m3/h Save energy costs with demand-drivenswitching for the refrigerant compressor Display of percentage energy savings Potential-free contact for transmitting...

Technical Data of Refrigration Dryer DRYBERG® RF / AC Nominal airflow Power Supply Nominal absorption power Working pressure bar [g] Correction factor F1 Dimension (A×B×C)

Heatless Adsorption Dryer DRYBERG® AD Permanent high compressed air quality BERG® compressed air treatment systems provide customized solutions for specific purposes. The compact aluminum type DRYBERG® AD for volume flows up to 110 m3/h. A permanent high compressed air quality is a feature of our product DRYBERG® AD.The use of high-quality desiccants in combination with intelligent controls assures consistent compressed air and compressed gas quality and stable dew points. Non-electric change-over valves assure reliable and risk free operation. High quality blow off valves extend the operating...

PUREBERG® FSW pre-filter Inlet diffuser Wet zone for pre-drying Desiccant vessel (here in adsorption phase) Outlet diffusor Inlet shuttle valve PUREBERG® FDW final filter Purging air nozzle (outlet shuttle valve) Desiccant vessel (here in regeneration phase) Blow-off valves Silencers Electronic control device Pre-filtration: The PUREBERG® FSW pre-filter simply seperates all solid and liquid components from the saturated compressed air stream. Accumulated condensate is released reliably and without pressure loss by the electronic level controlled BEKOMAT®. Adsorption: The pre-cleaned compressed...

Specifications and field of application Pressure dew point Min./Max. operating pressure Inlet temperature Power supply Protection class Installation site installation inside in a non-aggressive atmosphere * at standard inlet conditions 7 bar g and 35 °C Technical Data of Heatless Adsorption Dryer DRYBERG® AD Nominal airflow Dimension (A×B×C×D) *calculated at 1 bar (abs.) and 20°C at 7 bar g operating pressure and 35 °C compressed air inlet temperature (saturated condition) Dew Point - Correction factors Operating temperature [ C] Operating pressure [bar g] - Correction Factors F2

Heatless Adsorption Dryer DRYBERG® AD Economical and service friendly You will profit with DRYBERG ® AD many times simultaneously. The DRYBERG® AD cold-regeneration adsorption dryer, combined with a PUREBERG® compressed air upstream filter and optional BEKOMAT® condensate drain off, guarantees maximum safety and performance as a true system solution. The energy-saving compressor synchronisation control system provides a considerable reduction in operating costs, as no regeneration air is utilised during the compressor downtime. In addition, energy costs are saved due to the low pressure drop...

Once the regeneration process is done the pressure build up in the vessel is started by closing the purge valves. After reaching the operating pressure the air flow is changed from the adsorbing vessel to the freshly regenerated vessel. Adsorption now commences in the freshly regenerated vessel, while the other vessel enters its regeneration cycle. PUREBERG® FSW pre-filter Inlet diffuser Wet zone for pre-drying Desiccant vessel (here in adsorption phase) Outlet diffusor Inlet shuttle valve PUREBERG® FDW final filter Purging air nozzle (outlet shuttle valve) Desiccant vessel (here in regeneration...

Technical Data of High-end heatless adsorption dryer DRYBERG® AD Nominal airflow Dimension (A×B×C×D) • calculated at 1 bar (abs.) and 20°C at 7 bar g operating pressure and 35 °C compressed air • inlet temperature (saturated condition) Voltage, Frequency Power consumption Protection Class Filter (inlet) standard Dew Point - Correction factors Guidance for determinating the dryer size: Inlet volume flow Veff : 40m3/h Vcorr = Veff / F1 = 40m3/h / 0,77 Operating pressure: 6 bar | g Vcorr = 52 m3/h Inlet t