314-3 Low-Cost Sensor-Based Irrigation System Powered By Solar Energy.

Poster Number 1205

See more from this Division: SSSA Division: Soil & Water Management & Conservation
See more from this Session: Soil & Water Management & Conservation: III

Tuesday, November 17, 2015
Minneapolis Convention Center, Exhibit Hall BC

Rhuanito Ferrarezi1, Stuart S. Weiss2, Kenneth P. Beamer3 and Thomas C Geiger1, (1)Agricultural Experiment Station, University of the Virgin Islands, St. Croix, Virgin Islands (U.S.)
(2)University of the Virgin Islands, St. Croix, VA
(3)University of the Virgin Islands, Kingshill, US Virgin Islands
Poster Presentation
  • ASA, CSSA, and SSSA 2015 Low-cost open-source solar-powered irrigation controller v1.pdf (5.4 MB)
  • Abstract:
    Soil volumetric water content (VWC) has been successfully used to automate irrigation systems for both agricultural and domestic applications. Measurements are taken using capacitance sensors, and the voltage readings are converted to VWC using soil- or substrate-specific calibration equations. Expensive dataloggers are used to collect the data and supply plants with on-demand irrigation. When the VWC drop below pre-set thresholds, the irrigation is turned on by using solenoid valves. Recently new, low-cost and open-source microcontrollers can be used to assemble those systems. However, the use of solar energy to power these systems are yet to be tested. Our objective was to design and build an automated system to monitoring VWC powered by solar energy and to test the system in the laboratory and at two independent experimental locations cultivated with kale (Brassica oleracea var. sabellica) and sweet pepper (Capsicum annuum) ‘Cubanelle’. Both crops were cultivated in a mildly alkaline Fredensborg clay (fine carbonatic, isohyperthermic, Typic Rendolls, Mollisol) soil subjected to a range of mulching treatments (sunn hemp [Crotalaria juncea] cover crop residue sheet mulch, clear biodegradable plastic mulch, guinea grass [Megathyrsus maximus] hay mulch and no mulch) for weed management. We used a low-cost and open-source microcontroller (Mega; Arduino, Ivrea, Italy) with a logging shield (model 2.0; Adafruit, New York, NY) connected to twelve capacitance soil moisture sensors (10HS; Decagon Devices, Pullman, WA). The system was powered by a 15-W solar panel connected to a 12/24VDC charge controller and two 12VDC 7.2 Ah batteries. The technology is accessible and relatively inexpensive (microcontroller and accessories cost $150 and each sensor cost $115). This system effectively monitored VWC over time. The irrigation controller required little maintenance over the course of both trials. The microcontroller can be used with latching 6 to 18-V direct current (DC) solenoid valves to control irrigation based on real-time readings. The low cost of this irrigation controller makes it useful in many applications, including both research and commercial production.

    See more from this Division: SSSA Division: Soil & Water Management & Conservation
    See more from this Session: Soil & Water Management & Conservation: III