Hollow cone nozzles produce a ring-like spray pattern with droplets formed around the outer perimeter. Ideal for cooling, gas scrubbing, and dust control.
Configure Your Exact Hollow Cone Spray Nozzles
High-Performance Nozzles for Flue Gas Desulfurization (FGD)
Discover BETE TH series right angle hollow cone spray nozzles designed for flue gas desulfurization. The durable one-piece casting provides large free passage and is clog-resistant. The patented geometry of the TH nozzle offers the most uniform spray distribution around the periphery of the spray.
Customers trust the unmatched performance of BETE’s TH hollow cone nozzles for flue gas desulfurization.
BETE Spillback Nozzles - Fine Atomization Without Compressed Air
Unlike traditional hollow cone nozzles, BETE spillback nozzles are equipped with two connections and require no compressed air reducing operating costs. Spillback nozzles ensure uniform droplet size over the entire controlled flow range without changing the pump pressure to optimize processes for gas cooling and conditioning applications.
BETE can design and fabricate spray lances with a spillback nozzle for optimal nozzle placement. Our spillback nozzles and lances are made in the USA, with quick delivery for replacement nozzles.
Hollow Cone Nozzle Products
TF Full Cone & Hollow Cone Spiral Nozzles
CW Interchangeable Spray Nozzle Tips
Spillback Nozzles & Spray Lances
WT Right Angle Hollow Cone Nozzles
WTX Right Angle Hollow Cone Nozzles
TH Right Angle Hollow Cone Nozzles
THW Wide Right Angle Hollow Cone Nozzles
DTH Pollution Control Nozzles
SF Snap Release Spray Nozzle System
NCJ Narrow Angle Hollow Cone Injector Nozzles
EZTF Quick Connect Full Cone or Hollow Cone Spiral Nozzles
EZWT Quick Change Hollow Cone Spray Nozzles
Hollow Cone Spray Nozzles
Axial
- Spray exits on the same axis it enters
- Internal channels or vanes causes the liquid to spin, and the centrifugal force exerted upon the geometry of the exit creates the spray pattern
- Spray is concentrated on outer edges
- Smaller droplets than full cone
Tangential (Right Angle)
- Spray exits 90° from the entry axis
- Internal geometry creates the spray pattern by the liquid swirling around the body cavity before exiting the orifice
- Spray is concentrated on outer edges
- Smaller droplets than full cone