Spray Pattern Videos

Approvals and Certifications

BETE Fog Nozzle, Inc., one of the world's leading spray nozzle manufacturers, designs and manufactures
the highest quality Industrial Spray Nozzles

Application Intake Sheets

Custom Spraying Solutions


Custom Solutions Bulletin 074

Application #070974

Industry:   Research

Application:   Effects of Ice on Wind Turbines

Product Description:   1/2" MaxiPass 250W, 2.5" SC 50M, and 4" SC 180N

PDF version of this Bulletin (70 KB)

Back to Table of Contents


Situation:   A research center at a university was investigating the effect that ice has on a large wind turbine. They requested that the droplets have a range of diameters up to 3000 µm, have the nozzle spray 150 m (492 ft), and cover an area of 5026 m² (54105 ft²). Their goal was to spray water in freezing conditions from a safe distance using an average wind speed of 10 m/sec (32.8 ft/sec) to carry the droplets to the turbine. The 1.8 Megawatt turbine has a rotor diameter of 9.14 m (130 ft) and a hub height of 59 m (195 ft).

Effects of Ice on Wind Turbines

BETE's Solution:   Because the droplet range was so large, it was broken into three size groups: 40-500 µm, 500-2000 µm, and 2000-4000 µm. The 1/2" MaxiPass 250W, 2.5" SC 50M, 4" SC 180N were selected for the 40-500 µm, 500-2000 µm, and 2000-4000 µm groups respectively at 10 bar (145 psi) water pressure. The nozzles were selected to reduce the external area on which ice could build up. Droplet trajectories were calculated using several drop sizes in order to determine where the nozzles should be mounted to have the droplets reach the intended target at the correct height. It was determined that to reach the wind turbine from 150 m (492 ft) with a 10 m/sec (32.8 ft/sec) wind, the nozzles must be mounted 100 m (328 ft) in the air.


To discuss your fluid-related challenge, please contact BETE Applications Engineering at 413-772-0846 or appeng@bete.com.











[back to top]

Home