Development of an automatic irrigation system with ATS/ Kyron Carl A. Deluso, Adrian C. Peñasales, Junnelle James C. Portillano, and Johnlord C. Sagales

By:

Deluso, Kyron Carl A [author]

Contributor(s):

Material type: Text

TextManila: Technological University of the Philippines, 2020Description: 143pages: 28cm. CD-ROM (4 3/4 in.) IllustrationSubject(s):

LOC classification:

BTH TC 805 D45 2020

Online resources:

Preliminary pages

Dissertation note: College of Industrial Education -- Bachelor of Technology major In Electrical Engineering Technology, Technological University of the Philippines 2020. Summary: This study, entitled Development of Automatic Irrigation System with ATS, aims to establish a system that can help the farmers in watering crops with less human intervention while utilizing the energy coming from the sun as a source of power. Nowadays, most of the farms use irrigation system in obtaining water for the crops. The collection of water is simpler with the help of electrical pump and tubes. However, irrigation system requires electricity to function its main components and some farms are located on rural areas with consistent power outage. The project is consisted of 3 major system; power system, control system, and watering system. With the presence of ATS in the system, the power supply can switch between utility source and solar source during power interruption. The fabrication and testing of the prototype was conducted at Biñan, Laguna. Tests were conducted to measure the capability, functionality and acceptability of the prototype. The solar panels can charge the battery with the help of MPPT charge controller. The inverter could also run the water pump that supply water to the pressurize tank. Once the soil moisture sensor is triggered by low moisture level, the solenoid valves open to release water on soil. As a result of evaluation, the prototype obtains a total mean of 4.58 rating in overall criteria which is equivalent to "Excellent" rating. The results make the prototype efficient and useful to the local farmers. -- Author's abstract

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Holdings
Item type	Current library	Shelving location	Call number	Copy number	Status	Notes	Date due	Barcode
Bachelor's Thesis CIT	TUP Manila Library	Thesis Section-2nd floor	BTH TC 805 D45 2020 (Browse shelf(Opens below))	c.1.	1	For library use only		BTH0003167

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Previous	BTH TA 145 A23 2019 Development of particle board using coffee husk as raw material and waste polybag as binder/	BTH TA 145 A43 2019 Abaca fiber as reinforcement to coffee husk-isocyanate binder particle board/	BTH TA 440 B47 2020 Development of concrete pavement blocks using crushed dog conch shell " sikad shell" as partial substitute to fine aggregates/	BTH TC 805 D45 2020 Development of an automatic irrigation system with ATS/	BTH TD 794.5 D45 2022 Development of edible straw using corn stover waste/	BTH TD 224 A95 2022 Development of automatic floating waste collector for waterways/	BTH TD 430 J37 2020 Development of water treatment by electrocoagulation using solar power/	Next

Thesis (undergraduate) --

College of Industrial Education -- Bachelor of Technology major In Electrical Engineering Technology, Technological University of the Philippines 2020.

Includes bibliography

This study, entitled Development of Automatic Irrigation System with ATS, aims to establish a system that can help the farmers in watering crops with less human intervention while utilizing the energy coming from the sun as a source of power. Nowadays, most of the farms use irrigation system in obtaining water for the crops. The collection of water is simpler with the help of electrical pump and tubes. However, irrigation system requires electricity to function its main components and some farms are located on rural areas with consistent power outage. The project is consisted of 3 major system; power system, control system, and watering system. With the presence of ATS in the system, the power supply can switch between utility source and solar source during power interruption. The fabrication and testing of the prototype was conducted at Biñan, Laguna. Tests were conducted to measure the capability, functionality and acceptability of the prototype. The solar panels can charge the battery with the help of MPPT charge controller. The inverter could also run the water pump that supply water to the pressurize tank. Once the soil moisture sensor is triggered by low moisture level, the solenoid valves open to release water on soil. As a result of evaluation, the prototype obtains a total mean of 4.58 rating in overall criteria which is equivalent to "Excellent" rating. The results make the prototype efficient and useful to the local farmers. -- Author's abstract

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