Back to the product list
JBP II SERIES
Blower Purge Desiccant Air Dryers
As the air compressor is the most costly system component to purchase and, it uses more electrical energy than the rest of the system combined, it is wise to ensure that the smallest air compressor is installed.
JBP II Series dryers are 100% efficient at delivering full supply-side compressor capacity.
Therefore, users benefit from the ability to purchase a less expensive air compressor and, a 20% reduction in compressor operating costs.
Share
- Soft-seated check valves for tight shutoff and durability
- Vessels filled with extra, industrial-grade activated alumina 1 deliver superior performance
- Low watt density heater save energy and prevents premature desiccant aging
- High performance butterfly valves control the flow of air through the vessels
- Low watt density heaters saves energy and prevent premature desiccant aging
- High quality pressure gauges display and purge pressure
- Function indicator Graphic Control Panel
- Easy-view text display is visible under any condition
- NEMA 4 Construction
- Quiet, energy efficient, high-capacity blowers
- Filtered compressed air enters on-line desiccant-filled, drying vessel A through valve(A).
- Up-flow drying enables the desiccant to strip moisture from the airstream.
- Clean, dry compressed air exits through (E) to feed the air system.
- Vessel B (shown in regeneration mode) valve(B) closed, depressurizes to atmosphere through muffler(C).
- Valves(D&F) open and the heater turns on.
- The high-efficiency blower draws ambient air and feeds it through the heater.
- The ambient airstream passes through valve(F) and flows downward through the moist desiccant in vessel B, collecting water vapor before existing valve(D).
- Once the desiccant if fully desorbed, the heater turns off.
- Valves(F&D) close and vessel B is repressurized.
- At a fixed time interval, valve(B) will open and vessel B will be placed on-line to dry the airstream and valve(A) will close.
- Operations will switch and vessel A will be regenerated.
Product Features
- Soft-seated check valves for tight shutoff and durability
- Vessels filled with extra, industrial-grade activated alumina 1 deliver superior performance
- Low watt density heater save energy and prevents premature desiccant aging
- High performance butterfly valves control the flow of air through the vessels
- Low watt density heaters saves energy and prevent premature desiccant aging
- High quality pressure gauges display and purge pressure
- Function indicator Graphic Control Panel
- Easy-view text display is visible under any condition
- NEMA 4 Construction
- Quiet, energy efficient, high-capacity blowers
Operating Fundamental
- Filtered compressed air enters on-line desiccant-filled, drying vessel A through valve(A).
- Up-flow drying enables the desiccant to strip moisture from the airstream.
- Clean, dry compressed air exits through (E) to feed the air system.
- Vessel B (shown in regeneration mode) valve(B) closed, depressurizes to atmosphere through muffler(C).
- Valves(D&F) open and the heater turns on.
- The high-efficiency blower draws ambient air and feeds it through the heater.
- The ambient airstream passes through valve(F) and flows downward through the moist desiccant in vessel B, collecting water vapor before existing valve(D).
- Once the desiccant if fully desorbed, the heater turns off.
- Valves(F&D) close and vessel B is repressurized.
- At a fixed time interval, valve(B) will open and vessel B will be placed on-line to dry the airstream and valve(A) will close.
- Operations will switch and vessel A will be regenerated.