Turning the PHAUCET software on for Delta soybeans
Mississippi State University scientists are evaluating a free software tool that can increase irrigation efficiency for the state’s soybean producers.
MSU Extension Service irrigation specialist Jason Krutz, MSU Extension and research professor Tom Eubank, systems engineer Lyle Pringle and MSU Plant and Soil Sciences professor Joe Massey are field testing a computer program that calculates furrow irrigation system performance and helps improve irrigation effectiveness. Eubank, Pringle and Massey are also Mississippi Agricultural and Forestry Experiment Station researchers.
“The PHAUCET, or Pipe Hole and Universal Crown Evaluation Tool, has the potential to reduce water pumped from the Delta’s underground water supply. This supply has declined over the years because of traditional irrigation approaches and increased irrigation acreage,” Krutz said. “PHAUCET can also save irrigated crop production costs.”
The software was developed by engineers with the U.S. Department of Agriculture’s National Resources Conservation Service in Missouri.
The program uses engineering equations to calculate pipe pressure and flow rates for each watered furrow. It applies system flow rate, pipe diameter, watered furrow spacing, row lengths and elevations down the length of the pipe. The user can select a hole size design for each watered furrow to deliver water uniformly without bursting the pipe.
“The program can compute proper hole size designs for fields that vary in layout from fairly square to rectangular to less conventional layouts,” Pringle said.
The PHAUCET irrigation design should allow water to reach the end of long or short rows more uniformly. Thus the producer will not waste water through runoff while waiting for other rows to finish watering, saving time and money. The savings gained with PHAUCET could be lost if the irrigation is allowed to run longer than needed, so proper irrigation timing is necessary.
Timers that shut off the well automatically can help with irrigation management, said Massey.
“For example, if a producer expects that an irrigation set will finish early in the morning, say at 2 a.m., but he or she is unable to shut off the well at that time, excess water could run off the field, reducing the water and energy savings normally associated with PHAUCET,” Massey said. “Installation of a 24-hour spring-wound timer on both electric and non-electric wells would increase the efficiency of PHAUCET by letting the producer set the timer to shut the well off at a specific time.”