Overview
Turbo Teejet Nozzles - TT
Overview
Product Description
Drift is a problem that can be managed: Until now applicators have been forced to choose drift-reducing nozzles that sacrifice spray pattern uniformity. The Turbo Teejet addresses this concern by dramatically improving distribution uniformity. This nozzle produces larger droplets that resist drift. These nozzles are best for Liberty and Contact herbicides
The printing on all nozzles indicates the angle and capacity. Always refer to nozzle chart to verify angle and capacity.
This nozzle's unusually wide pressure range of 15 to 90 psi allows applicators to travel at a wider range of speeds without having to change nozzles.
Strainer Recommendations:
- 100 Mesh Strainer for the TT11001-VP and TT110015-VP Turbo Nozzles
- 50 Mesh Strainer for all remaining Turbo TeeJet Nozzles
Nozzle Cap Recommendations for automatic spray alignment:
- Threaded Brass Nozzle Cap CP1325
- Threaded Nylon Nozzle Cap CP8027-NYB
- Quick TeeJet Cap CP25611
- Quick TeeJet Cap CP25612 with gasket
Please see Related Products for more information about strainers and nozzle caps
In the Resources section, you will find a Turbo TeeJet Nozzle Capacity Chart for more information.
Pulse Width Modulation (PWM):
Make every drop count with your PWM control. PWM spray tip control systems, like DynaJet, use a PWM valve located at the nozzle body to adjust spray tip flow rate when changes in speed are detected. Spray tips paired with PWM controls are serving two main purposes: the formation of the spray pattern and droplet size. Target droplet size selection should be based on providing enough coverage for proper pest control while balancing out the need for drift management.
With air induction tips, air is mixed with water through a venturi air aspirator that produces large air-filled droplets. When a PWM valve is used together with certain air induction tips, the mixing chamber and air inlet can fill with water as the PWM valve cycles. This can then result in water escaping out the air inlet holes, which can lead to poor distribution. New designs in air-induction tips have been proven to work well with PWM valves and nozzle control systems.
Based on a combination of field and laboratory testing, PWM approved spray tips must meet the following criteria at a variety of duty-cycles:
- Excellent spray distribution across the boom
- Skip-free application
- Excellent spray distribution in the direction of travel
- Rapid and complete spray pattern formation
- Droplet size consistency