Extension Pesticide Applicator Training Series #4: Sprayer Calibration


Guide A-613
Revised by Jane Breen Pierce and Jason French
College of Agricultural, Consumer and Environmental Sciences, New Mexico State University


Authors: Respectively, Extension Entomologist and Pesticide Program Manager, Department of Extension Plant Sciences, New Mexico State University. (Print friendly PDF)

Sprayer Constants

There are four times when a sprayer must be recalibrated. The calibrated output of the sprayer will remain constant as long as ground speed, spray pressure, number of nozzles, and nozzle orifice are unchanged. Whenever any of these are changed, the sprayer must be recalibrated.

  1. Ground Speed. The speed at which the sprayer travels over the ground will significantly affect sprayer output. Faster speeds produce lower output per surface area, while slower speeds increase output. However, adjusting ground speed is not the best way to adjust sprayer output. Speed should be dictated by evenness of the terrain, obstacles, condition of the equipment, etc. The primary consideration of ground speed is safety. The speed should be set to complete the operation as quickly as possible without risk to people or property.

  2. Spray Pressure. Several considerations affect spray pressure decisions. Some product labels require pesticides to be applied within a specified pressure range. A number of products are low-pressure, low-volume pesticides applied under very low pressure. Applicators must also always be aware of drift potential from their operations. High pressures present greater risks from drift, so adjusting spray pressure to change sprayer output is usually not a good choice. Also, unless a significant change of 10 or more pounds per square inch (psi) can be accomplished, adjusting spray pressure will produce only minor changes in output.

  3. Number of Nozzles. Nozzle number is determined by sprayer design. For sprayers that are equipped with directional boom control valves for partial boom applications, each arrangement of boom selection should be calibrated independently. In most cases, the number of nozzles will remain constant unless the sprayer is rebuilt or retrofitted.

  4. Nozzle Orifice. The nozzle opening or orifice directly affects output and is the most practical way to adjust sprayer output. Several brands of nozzles are available with similar spray patterns (flat fan, cone, etc.) and with various orifice sizes for adjusting output.

Getting Started

Basic tools needed to calibrate a sprayer:

  • Personal protective equipment: gloves, goggles, rubber boots, etc.
  • Measuring tape 50 foot or greater
  • Measuring beaker in fluid ounce graduations
  • Stopwatch or watch with a second hand
  • Calculator

These figures will be needed to make calibration calculations:

  • 43,560 square feet (ft2) per acre
  • 128 fluid ounces (fl oz) per gallon

Calibration Procedure1

Sprayer calibration is accomplished by determining the effective spray width, using a test area to test the sprayer’s output and time needed to cover the test area, and summing these values to determine the sprayer output per acre.

Step 1: Determine effective spray width (ESW) for broadcast applications. (ESW = nozzle spacing × number of nozzles)

Example: 20-inch spacing × 8 nozzles = 160 inches
160 inches / 12 inches = 13.3 feet ESW

Step 2: Measure and mark off a test area with a length of between 50 and 100 feet; any convenient length, such as a fence line or driveway, will work. The width of the test area will be the ESW as determined in Step 1. After measuring and marking off the test area, determine the square footage of the area. (Square feet of test area (TA) = length of TA × ESW)

Example: 50-foot TA × 13.3 feet = 665 ft2 per TA

Step 3: Determine number of TAs per acre. (TAs per acre = ft2 per acre / ft2 per TA)

Example: 43,560 ft2 / 665 ft2 = 65.5 TAs per acre

Note: Lawn and garden pesticide rates are often given per 1,000 ft2. To determine the number of TAs in 1,000 ft2, simply replace 43,560 with 1,000 in Step 3.

Step 4: Determine the time required to cover the TA. Use water only in the tank during this calibration.

  • Operate the sprayer with speed and pressure at field operating conditions.
  • Achieve operating speed before entering the TA course.
  • Mark start and finish time from the same point on the machinery (e.g., driver’s seat).
  • Take an average of three timed trials for shorter TA lengths.
  • Record the average or most accurate time required to cover the TA.

Step 5: Determine the sprayer output for the TA. Use water only in the tank during this calibration.

  • Set parking brake or otherwise secure the machinery.
  • Operate the sprayer at field operating pressure.
  • Collect spray output from one nozzle for the same period of time required to cover TA (determined in Step 4). (Total sprayer output per TA = fl oz per nozzle × total number of nozzles)

Example: 6 fl oz per nozzle × 8 nozzles = 48 fl oz per TA

Note: While performing Step 5, it is a good time to compare nozzle wear by testing all nozzles. Nozzle output should be within ±5% of each other. Replace worn nozzles with those that have equal flow rates.

Step 6: Determine the sprayer output per acre. Sprayer output per acre = fl oz per TA × TAs per acre

Example: 48 fl oz per TA × 65.5 TAs per acre =3,144 fl oz per acre

Conversion to gallons per acre: fl oz per acre / fl oz per gallon

Example: 3,144 fl oz per acre / 128 fl oz per gallon =24.5 gallons per acre

Footnotes

1This sprayer calibration procedure applies to “over the top” ground equipment only. (back to top)

For Further Reading

A-610: Extension Pesticide Applicator Training Series #1: Pest Identification
http://aces.nmsu.edu/pubs/_a/A610/welcome.html

A-611: Extension Pesticide Applicator Training Series #2: Pest Management Practices
http://aces.nmsu.edu/pubs/_a/A611/welcome.html

A-612: Extension Pesticide Applicator Training Series #3: Treatment Area Measurements
http://aces.nmsu.edu/pubs/_a/A612/welcome.html

All Agronomy Publications.

The pesticide recommendations in this publication are provided only as a guide. The authors and New Mexico State University assume no liability resulting from their use. Please be aware that pesticide labels and registration can change at any time; by law, it is the applicator’s responsibility to use pesticides ONLY according to the directions on the current label. Use pesticides selectively and carefully and follow recommended procedures for the safe storage and disposal of surplus pesticides and containers.

Original author: R. Craig Runyan, Extension Water Quality Specialist.


Photo of J. Breen Pierce.

J. Breen Pierce is a research and Extension entomologist at the NMSU Agricultural Science Center in Artesia. Her program focuses on integrated pest management of insect pests of alfalfa, pecan, and cotton, including biological control of alfalfa weevil and pecan nut casebearer, development of economic thresholds, and variation in plant resistance.


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Revised May 2016