Flat fan spray nozzles
Flat fan spray nozzles most often create a high impact spray, with droplets that are relatively larger compared to other types of spray nozzles.
The flat fan nozzle is very effective for various flushing, rinsing and washing processes, but is also used to spray liquid over products and materials on conveyor belts. The flat fan nozzle creates a spray shaped like a straight band over the surface.
AFF
- 31.6 - 264 l/min
- 145°
- Extra wide spray angle
- FM Approved
- Flat fan nozzle with deflector spray
BJ
- 0.0898 - 93.9 l/min
- 0° - 110°
- Interchangeable spray tip
- Filter optional
- Axial flat fan nozzle
BJH
- 0.0454 - 16.4 l/min
- 5° - 120°
- Interchangeable spray tip in tungsten carbide
- Filter optional
- Axial flat fan nozzle
EZFF
- 0.0669 - 161 l/min
- 105° - 145°
- Snap release spray nozzle system
- Extra wide spray angle
- Flat fan nozzle with deflector spray
EZNF
- 0.134 - 120 l/min
- 0° - 120°
- Snap release spray nozzle system
- High impact spray
- Axial flat fan nozzle
EZSPN
- 1.34 - 134 l/min
- 15° - 50°
- Snap release spray nozzle system
- High impact spray
- Large free passage
- Flat fan nozzle with deflector spray
FF
- 0.0518 - 1400 l/min
- 105° - 145°
- Extra wide spray angle
- Flat fan nozzle with deflector spray
NF
- 0.134 - 3010 l/min
- 0° - 120°
- High impact spray
- Axial flat fan nozzle
NFD
- 0.136 - 663 l/min
- 20° - 120°
- High precision alignment
- Axial flat fan nozzle
NFH
- 0.0454 - 16.4 l/min
- 5° - 120°
- Spray tip in tungsten carbide
- Axial flat fan nozzle
NFS
- 0.169 - 1770 l/min
- 20° - 120°
- Suitable for confined spaces
- Axial flat fan nozzle
NFV
- 0.156 - 53.5 l/min
- 0° - 110°
- Filter optional
- High impact spray
- Axial flat fan nozzle
SF Flat Fan
- 1.61 - 72 l/min
- 40° - 90°
- Snap release spray nozzle system
SPN
- 0.754 - 268 l/min
- 15° - 50°
- High impact spray
- Large free passage
- Flat fan nozzle with deflector spray
Various types of flat fan nozzles
There are two different types of flat fan nozzles - axial or deflector. The axial flat fan nozzle creates a thin, flat spray that gradually widens as it moves outward. The deflector nozzle flat fan spray is deflected off an external surface, and produces an extra-wide fan spray pattern.
Axial flat fan nozzle
- Uniform distribution with tapered edges
Deflector flat fan nozzle
- The spray is deflected off an external surface and creates an extra-wide fan spray pattern
Choose the right spray nozzle for an optimised spray process
Each type of spray nozzle has a specific flow rate, spray pattern and droplet size. To optimise the spray process, it is important to understand how different parameters affect the choice of spray nozzle and solution.
- What is the function of the spray nozzle and the spray process?Read the full answer
The first step when choosing the right spray nozzle is to define the function and application of the spray process, such as cooling a gas, washing a tank or flushing a conveyor belt. Type of spray nozzle, thus also spray pattern and droplet size, are important to consider in order to optimise the spray process.
- Which droplet size is most suitable for the spray process?Read the full answer
Droplet size is often critical in optimising a spray process. Many processes, such as gas cooling and gas scrubbing, depend on exposing the maximum total liquid surface area. The liquid then needs to be distributed in a large number of small droplets to create as much total surface area as possible. Other spray processes ...
- What surface should the spray cover? How should the nozzle be positioned?Read the full answer
The position of the nozzle over the target (D) and the area to be covered by the spray (B) are important to know in order to choose the right spray angle (A). The spray angle is measured near the nozzle orifice and the droplets are immediately affected by external forces such as gravity, air and gas flow.
- Desired flow rate? Available pressure?Read the full answer
Desired volume flow depends on the specific spray process. Most spray processes have general rules of thumb for flow ranges, but in many cases on-site testing is needed to achieve the right results.
- What type of liquid is used in the spray process?Read the full answer
A liquid's specific gravity, viscosity and the presence of particles affect the spray characteristics of the nozzle.
- Are there external factors affecting the nozzle spray?Read the full answer
Sometimes the spray is affected by external forces such as process gas flows, air flows or wind.
- Which material is most suitable for the spray process?Read the full answer
Listed below are a number of factors that should be considered when selecting materials for a specific nozzle. An incorrect choice of material is likely to affect the performance and life of the nozzle. We are happy to help and advise on which material is most suitable in your ...
- What are the benefits of an optimised spray process?Read the full answer
There are many factors to consider when selecting a nozzle for a specific spray process. An optimised spray process can make a big difference, contributing to: improved product and process quality increased production and reduced time for unplanned stops reduced maintenance costs lower operating costs by reducing the use of ...
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FAQ Spray nozzles & systems
Here you will find a variety of questions and answers about spray nozzles and spray systems.