Products > Vortex Tubes
Industrial Spot Cooling & Process Cooling
Vortex tubes produce up to 6000 BTU/hr (1757 watts) of refrigeration and temperatures as low as -40 deg to solve a variety of industrial spot cooling and process cooling needs. With no moving parts, a vortex tube is highly reliable and inexpensive; and requires no electrical connection at the cooling site. Vortex tubes cool instantly, relying on compressed air spinning in the tube to separate the air into cold and hot air streams.
Vortex tubes are a compact source of refrigeration and cooling, with models ranging from 6 – 13 inches (150 – 330 mm) long and cooling capacities ranging from 100 – 6000 BTU/hour (29 – 1757 watts). Vortex tube performance is easily adjustable by changing the inlet air pressure, ratio of cool air to exhaust or by changing the generator in the tube itself. And while normally used for cooling, vortex tubes can also be used for heating applications, merely by channeling the exhaust hot air to the application.
Vortex tube technology was invented by French physicist Georges Ranque in 1930, and first developed for industrial use by Vortec in the 1960s. See how it works. Since then, vortex tubes have been applied for a wide range of cooling applications on machines, assembly lines, in processes and for testing and measurements.
Vortex tubes are a compact source of refrigeration and cooling, with models ranging from 6 – 13 inches (150 – 330 mm) long and cooling capacities ranging from 100 – 6000 BTU/hour (29 – 1757 watts). Vortex tube performance is easily adjustable by changing the inlet air pressure, ratio of cool air to exhaust or by changing the generator in the tube itself. And while normally used for cooling, vortex tubes can also be used for heating applications, merely by channeling the exhaust hot air to the application.
Vortex tube technology was invented by French physicist Georges Ranque in 1930, and first developed for industrial use by Vortec in the 1960s. See how it works. Since then, vortex tubes have been applied for a wide range of cooling applications on machines, assembly lines, in processes and for testing and measurements.
Prices start at $215
Benefits
- Cools instantaneously
- Lowest cost per unit of refrigeration of any cooling technique
- Fully adjustable cooling, easily moved from site to site as needed
- Fits to provide cooling in the most confined areas
- Lowest maintenance requirements of any refrigeration technique
- Environmentally friendly, with no refrigerants or chemicals needed
- Easy to install, just connect compressed air and go
Features
- Maintenance free, with no moving parts
- Cycle repeatability within +/- 1 deg
- Drops compressed air inlet temperature by up to 100 deg F (55 deg C)
- No electricity required at the cooling site
- Cools without refrigerants, as low as -40 deg
- Compact and lightweight, highly transportable
- Adjustable for varying cooling needs
- Available heating capacity using the same tube, up to 200 deg F (93 deg C)
- Available in both aluminum (208 and 308) and stainless steel (208SS) models
- Replacement generators available for modification of cooling or upon contamination
Vortex Tube Specifications
Use the buttons to select either U.S. or Metric Dimension and either NPT or BSP Products
SPECIFICATION | Cooling Capacity (BTU/hr) | Air Consumption @ 100 psig (scfm) | Inlet Size (inch) | Inlet (Female or Male) | Material of Construction |
106-2-H | 100 | 2 | 1/8" NPT | F | Brass / Stainless Steel |
106-4-H | 200 | 4 | 1/8" NPT | F | Brass / Stainless Steel |
106-8-H | 400 | 8 | 1/8" NPT | F | Brass / Stainless Steel |
208-11-H | 640 | 11 | 1/4" NPT | F | Aluminum |
208-15-H | 900 | 15 | 1/4" NPT | F | Aluminum |
208-25-H | 1500 | 25 | 1/4" NPT | F | Aluminum |
208-11-HSS | 640 | 11 | 1/4" NPT | M | Stainless Steel |
208-15-HSS | 900 | 15 | 1/4" NPT | M | Stainless Steel |
208-25-HSS | 1500 | 25 | 1/4" NPT | M | Stainless Steel |
308-35-H | 2650 | 35 | 1/4" NPT | M | Aluminum |
328-100-H | 6000 | 100 | 1/2" NPT | M | Aluminum / Brass |
SPECIFICATION | Cooling Capacity (BTU/hr) | Air Consumption @ 100 psig (scfm) | Inlet Size (inch) | Inlet (Female or Male) | Material of Construction |
106-2-H-BSP | 100 | 2 | 1/8" BSPP | F | Brass / Stainless Steel |
106-4-H-BSP | 200 | 4 | 1/8" BSPP | F | Brass / Stainless Steel |
106-8-H-BSP | 400 | 8 | 1/8" BSPP | F | Brass / Stainless Steel |
208-11-H-BSP | 640 | 11 | 1/4" BSPP | F | Aluminum |
208-15-H-BSP | 900 | 15 | 1/4" BSPP | F | Aluminum |
208-25-H-BSP | 1500 | 25 | 1/4" BSPP | F | Aluminum |
208-11-HSS-BSP | 640 | 11 | 1/4" BSPP | M | Stainless Steel |
208-15-HSS-BSP | 900 | 15 | 1/4" BSPP | M | Stainless Steel |
208-25-HSS-BSP | 1500 | 25 | 1/4" BSPP | M | Stainless Steel |
308-35-H-BSP | 2650 | 35 | 1/4" BSPP | M | Aluminum |
328-100-H-BSP | 6000 | 100 | 1/2" BSPP | M | Aluminum / Brass |
SPECIFICATION | Cooling Capacity (Watts) | Air Consumption @ 6.9 bar (slpm) | Inlet Size (inch) | Inlet (Female or Male) | Material of Construction |
106-2-H | 29 | 57 | 1/8" NPT | F | Brass / Stainless Steel |
106-4-H | 59 | 113 | 1/8" NPT | F | Brass / Stainless Steel |
106-8-H | 117 | 226 | 1/8" NPT | F | Brass / Stainless Steel |
208-11-H | 188 | 311 | 1/4" NPT | F | Aluminum |
208-15-H | 264 | 425 | 1/4" NPT | F | Aluminum |
208-25-H | 440 | 708 | 1/4" NPT | F | Aluminum |
208-11-HSS | 188 | 311 | 1/4" NPT | M | Stainless Steel |
208-15-HSS | 264 | 425 | 1/4" NPT | M | Stainless Steel |
208-25-HSS | 440 | 708 | 1/4" NPT | M | Stainless Steel |
308-35-H | 777 | 990 | 1/4" NPT | M | Aluminum |
328-100-H | 1758 | 2830 | 1/2" NPT | M | Aluminum / Brass |
SPECIFICATION | Cooling Capacity (Watts) | Air Consumption @ 6.9 bar (slpm) | Inlet Size (inch) | Inlet (Female or Male) | Material of Construction |
106-2-H-BSP | 29 | 57 | 1/8" BSPP | F | Brass / Stainless Steel |
106-4-H-BSP | 59 | 113 | 1/8" BSPP | F | Brass / Stainless Steel |
106-8-H-BSP | 117 | 226 | 1/8" BSPP | F | Brass / Stainless Steel |
208-11-H-BSP | 188 | 311 | 1/4" BSPP | F | Aluminum |
208-15-H-BSP | 264 | 425 | 1/4" BSPP | F | Aluminum |
208-25-H-BSP | 440 | 708 | 1/4" BSPP | F | Aluminum |
208-11-HSS-BSP | 188 | 311 | 1/4" BSPP | M | Stainless Steel |
208-15-HSS-BSP | 264 | 425 | 1/4" BSPP | M | Stainless Steel |
208-25-HSS-BSP | 440 | 708 | 1/4" BSPP | M | Stainless Steel |
308-35-H-BSP | 777 | 990 | 1/4" BSPP | M | Aluminum |
328-100-H-BSP | 1758 | 2830 | 1/2" BSPP | M | Aluminum / Brass |
Product Instructions
Case Studies
Adjustable Vortex Tubes Set Manufacturer Up for Success
The maintenance and safety manager at Dyplast Products contacted one of our Vortec applications engineers to explore cooling solutions available to chill sections of a steel conveyor on a process line. Each section of the conveyor is made of 12 gauge. steel plates...
Protecting Robots in Extreme Environments
Roboworld Vice President for Design, Sales and Support Mike Tur explains “robots typically are placed in environments where you don’t want to put people—very hot or extremely cold environments, for example. The robots may also do highly repetitive tasks or handle work most human labor would find too unpleasant or unsafe to perform. This means these robots are subject to conditions which...
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Products > Vortex Tubes
Industrial Spot Cooling & Process Cooling
Vortex tubes produce up to 6000 BTU/hr (1757 watts) of refrigeration and temperatures as low as -40 deg to solve a variety of industrial spot cooling and process cooling needs. With no moving parts, a vortex tube is highly reliable and inexpensive; and requires no electrical connection at the cooling site. Vortex tubes cool instantly, relying on compressed air spinning in the tube to separate the air into cold and hot air streams.
Vortex tubes are a compact source of refrigeration and cooling, with models ranging from 6 – 13 inches (150 – 330 mm) long and cooling capacities ranging from 100 – 6000 BTU/hour (29 – 1757 watts). Vortex tube performance is easily adjustable by changing the inlet air pressure, ratio of cool air to exhaust or by changing the generator in the tube itself. And while normally used for cooling, vortex tubes can also be used for heating applications, merely by channeling the exhaust hot air to the application.
Vortex tube technology was invented by French physicist Georges Ranque in 1930, and first developed for industrial use by Vortec in the 1960s. See how it works. Since then, vortex tubes have been applied for a wide range of cooling applications on machines, assembly lines, in processes and for testing and measurements.
Vortex tubes are a compact source of refrigeration and cooling, with models ranging from 6 – 13 inches (150 – 330 mm) long and cooling capacities ranging from 100 – 6000 BTU/hour (29 – 1757 watts). Vortex tube performance is easily adjustable by changing the inlet air pressure, ratio of cool air to exhaust or by changing the generator in the tube itself. And while normally used for cooling, vortex tubes can also be used for heating applications, merely by channeling the exhaust hot air to the application.
Vortex tube technology was invented by French physicist Georges Ranque in 1930, and first developed for industrial use by Vortec in the 1960s. See how it works. Since then, vortex tubes have been applied for a wide range of cooling applications on machines, assembly lines, in processes and for testing and measurements.
Prices start at $215
Benefits
- Cools instantaneously
- Lowest cost per unit of refrigeration of any cooling technique
- Fully adjustable cooling, easily moved from site to site as needed
- Fits to provide cooling in the most confined areas
- Lowest maintenance requirements of any refrigeration technique
- Environmentally friendly, with no refrigerants or chemicals needed
- Easy to install, just connect compressed air and go
Features
- Maintenance free, with no moving parts
- Cycle repeatability within +/- 1 deg
- Drops compressed air inlet temperature by up to 100 deg F (55 deg C)
- No electricity required at the cooling site
- Cools without refrigerants, as low as -40 deg
- Compact and lightweight, highly transportable
- Adjustable for varying cooling needs
- Available heating capacity using the same tube, up to 200 deg F (93 deg C)
- Available in both aluminum (208 and 308) and stainless steel (208SS) models
- Replacement generators available for modification of cooling or upon contamination
Vortex Tube Specifications
Use the buttons to select either U.S. or Metric Dimension and either NPT or BSP Products
SPECIFICATION | Cooling Capacity (BTU/hr) | Air Consumption @ 100 psig (scfm) | Inlet Size (inch) | Inlet (Female or Male) | Material of Construction |
106-2-H | 100 | 2 | 1/8" NPT | F | Brass / Stainless Steel |
106-4-H | 200 | 4 | 1/8" NPT | F | Brass / Stainless Steel |
106-8-H | 400 | 8 | 1/8" NPT | F | Brass / Stainless Steel |
208-11-H | 640 | 11 | 1/4" NPT | F | Aluminum |
208-15-H | 900 | 15 | 1/4" NPT | F | Aluminum |
208-25-H | 1500 | 25 | 1/4" NPT | F | Aluminum |
208-11-HSS | 640 | 11 | 1/4" NPT | M | Stainless Steel |
208-15-HSS | 900 | 15 | 1/4" NPT | M | Stainless Steel |
208-25-HSS | 1500 | 25 | 1/4" NPT | M | Stainless Steel |
308-35-H | 2650 | 35 | 1/4" NPT | M | Aluminum |
328-100-H | 6000 | 100 | 1/2" NPT | M | Aluminum / Brass |
SPECIFICATION | Cooling Capacity (BTU/hr) | Air Consumption @ 100 psig (scfm) | Inlet Size (inch) | Inlet (Female or Male) | Material of Construction |
106-2-H-BSP | 100 | 2 | 1/8" BSPP | F | Brass / Stainless Steel |
106-4-H-BSP | 200 | 4 | 1/8" BSPP | F | Brass / Stainless Steel |
106-8-H-BSP | 400 | 8 | 1/8" BSPP | F | Brass / Stainless Steel |
208-11-H-BSP | 640 | 11 | 1/4" BSPP | F | Aluminum |
208-15-H-BSP | 900 | 15 | 1/4" BSPP | F | Aluminum |
208-25-H-BSP | 1500 | 25 | 1/4" BSPP | F | Aluminum |
208-11-HSS-BSP | 640 | 11 | 1/4" BSPP | M | Stainless Steel |
208-15-HSS-BSP | 900 | 15 | 1/4" BSPP | M | Stainless Steel |
208-25-HSS-BSP | 1500 | 25 | 1/4" BSPP | M | Stainless Steel |
308-35-H-BSP | 2650 | 35 | 1/4" BSPP | M | Aluminum |
328-100-H-BSP | 6000 | 100 | 1/2" BSPP | M | Aluminum / Brass |
SPECIFICATION | Cooling Capacity (Watts) | Air Consumption @ 6.9 bar (slpm) | Inlet Size (inch) | Inlet (Female or Male) | Material of Construction |
106-2-H | 29 | 57 | 1/8" NPT | F | Brass / Stainless Steel |
106-4-H | 59 | 113 | 1/8" NPT | F | Brass / Stainless Steel |
106-8-H | 117 | 226 | 1/8" NPT | F | Brass / Stainless Steel |
208-11-H | 188 | 311 | 1/4" NPT | F | Aluminum |
208-15-H | 264 | 425 | 1/4" NPT | F | Aluminum |
208-25-H | 440 | 708 | 1/4" NPT | F | Aluminum |
208-11-HSS | 188 | 311 | 1/4" NPT | M | Stainless Steel |
208-15-HSS | 264 | 425 | 1/4" NPT | M | Stainless Steel |
208-25-HSS | 440 | 708 | 1/4" NPT | M | Stainless Steel |
308-35-H | 777 | 990 | 1/4" NPT | M | Aluminum |
328-100-H | 1758 | 2830 | 1/2" NPT | M | Aluminum / Brass |
SPECIFICATION | Cooling Capacity (Watts) | Air Consumption @ 6.9 bar (slpm) | Inlet Size (inch) | Inlet (Female or Male) | Material of Construction |
106-2-H-BSP | 29 | 57 | 1/8" BSPP | F | Brass / Stainless Steel |
106-4-H-BSP | 59 | 113 | 1/8" BSPP | F | Brass / Stainless Steel |
106-8-H-BSP | 117 | 226 | 1/8" BSPP | F | Brass / Stainless Steel |
208-11-H-BSP | 188 | 311 | 1/4" BSPP | F | Aluminum |
208-15-H-BSP | 264 | 425 | 1/4" BSPP | F | Aluminum |
208-25-H-BSP | 440 | 708 | 1/4" BSPP | F | Aluminum |
208-11-HSS-BSP | 188 | 311 | 1/4" BSPP | M | Stainless Steel |
208-15-HSS-BSP | 264 | 425 | 1/4" BSPP | M | Stainless Steel |
208-25-HSS-BSP | 440 | 708 | 1/4" BSPP | M | Stainless Steel |
308-35-H-BSP | 777 | 990 | 1/4" BSPP | M | Aluminum |
328-100-H-BSP | 1758 | 2830 | 1/2" BSPP | M | Aluminum / Brass |
Product Instructions
Case Studies
Adjustable Vortex Tubes Set Manufacturer Up for Success
The maintenance and safety manager at Dyplast Products contacted one of our Vortec applications engineers to explore cooling solutions available to chill sections of a steel conveyor on a process line. Each section of the conveyor is made of 12 gauge. steel plates...
Protecting Robots in Extreme Environments
Roboworld Vice President for Design, Sales and Support Mike Tur explains “robots typically are placed in environments where you don’t want to put people—very hot or extremely cold environments, for example. The robots may also do highly repetitive tasks or handle work most human labor would find too unpleasant or unsafe to perform. This means these robots are subject to conditions which...
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