Mixing Equipment
High Shear Mixer / HydroGyne Jet Pump
Standard Model Sizes 1' - 8'
Key Benefits-
- Dynamic Shearing
- Rapid Hydration
- Uniform Blending
- No Moving Parts
- Long Distance Delivery
- Stainless Steel Body
Efficient Blending and Mixing from A to Z
Recent advances in mixing technology have established a solution in mixing and dispensing drilling fluid products. Generally, these products are readily prepared conventional mud hoppers, which result in drilling fluids that contain chemical additives that are not properly hydrated and dispersed. This may be a challenge to mud engineer in checking fluid It may require several circulations before the fluid is uniformly dispersed.
The AZ Mixing Eductor has a non-circular nozzle that generates twin geometrically and opposing downstream vortices. The twin vortices interact with each other's overlapping axes. The overlapping axes influence fluid stretching and folding. During the stretching, interfacial contact exposes individual strands that promote rapid hydration and the folding motion uniformly disperses the slurry. The dynamic interfacial contact in mixing will enhance the stability of the slurry.
Twin Turbine Nozzle
The unique TWIN TURBINE NOZZLE configuration in the Mixing Eductor issues a split axial flow and radial flow stream. The expanding radial flow stream energize the downstream pipe boundary layer, which reduces the frictional drag along the surface walls of the pipe. Energizing the downstream boundary layer benefits the overall performance of the AZ Mixing Eductor, thereby efficiently increasing the downstream pressure recovery which leads to rapid product dosing, enhanced mixing and longer distance delivery.
Recent advances in mixing technology have established a solution in mixing and dispensing drilling fluid products. Generally, these products are readlily prepared utilizing conventional mud hoppers, which result in drilling fluds that contain chemical additives that are not properly hydrated and dispersed. This may be a challenge to a mud engineer in checking fluid rheology. It may require several circulations before the fluid is uniformly dispersed.
The HydroDyne Jet Pump has a non-circular nozzle that generates twin geometrically and opposing downstream vortices. The twin vortices interact with each other with overlapping axes. The overlapping axes influence flud stretching and folding, and during the stretching, interfacial contact exposes individual particles to instant hydrations and the folding motion uniformly disperses the drilling fluid. The dynamic interfacial contact in mixing will enhance the stability of in- vert and oil based drilling fluids.