Development of a Battery-Operated Liquid Fertilizer Applicator with an Electronically Controlled Metering Device

Authors

  • Kurt B. Abeya Department of Agricultural and Biosystems Engineering, Benguet State University, La Trinidad, Benguet, 2601 Philippines
  • Dellor D. Ngalides Department of Agricultural and Biosystems Engineering, Benguet State University, La Trinidad, Benguet, 2601 Philippines
  • Erickson N. Dominguez Department of Agricultural and Biosystems Engineering, Benguet State University, La Trinidad, Benguet, 2601 Philippines
  • John James F. Malamug Department of Agricultural and Biosystems Engineering, Benguet State University, La Trinidad, Benguet, 2601 Philippines

DOI:

https://doi.org/10.61310/mjst.v23i2.2454

Keywords:

fertilizer applicator, fertilizer injector, liquid fertilizer, microcontroller, precision agriculture

Abstract

Most farmers face high fertilizer prices and suffer economic losses due to uncontrolled
fertilizer application on their farms. The common method of applying liquid fertilizer
is with a watering can. The developed liquid fertilizer applicator is a battery-powered
knapsack sprayer equipped with a program-based electronic metering device to deliver
a more accurate amount of liquid fertilizer based on crop needs. The device includes
a tank, pump, switch button, microcontroller, solenoid valve, liquid flow sensor, and
lance. It was tested using two types of lance (injector-type and open-type) and
compared to the traditional application method. Results showed that the uniformity
coefficient exceeded the recommended 85%, with the open-type lance reaching 97.95%
and the injector-type lance 96.09%. The device's actual field capacity was 248.70
m²/hr with the open-type lance and 134.96 m²/hr with the injector-type lance.
Additionally, the injector-type lance's application rate and power consumption were
355.97 mL/m² and 9.26 Wh, respectively, while the open-type lance had 354.17 mL/m²
and 5.17 Wh. These results indicate a higher uniformity coefficient, wider actual field
capacity, and lower application rate compared to traditional methods, which had
72.74%, 110.15 m²/hr, and 538.58 mL/m², respectively. Therefore, the developed
device improves liquid fertilizer application by efficiently dispensing the required
amount, reducing labor and time, and cutting labor costs for the same field area
compared to traditional methods.

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Published

2025-09-05