Development of an aqua floating feeder system for linear fish farm/
Bordones, Kielle I.
Development of an aqua floating feeder system for linear fish farm/ Kielle I. Bordones, Joshua G. Constantino, Joshua Q. Lardizabal, John Carlo D. Mendoza, and Earl Zyril N. Pesigan.-- - Manila: Technological University of the Philippines, 2025. - xii, 125pages: 29cm.
Bachelor's thesis
College of Industrial Technology.--
Includes bibliographic references and index.
Agriculture was a key sector in the Philippine economy, with Fisheries and
Aquaculture being one of its four sub-sectors. In 2020, the Bureau of Fisheries and
Aquatic Resources reported that the country ranked 11th globally in aquaculture
production, contributing 826.01 thousand metric tons (MT), or 1.01%, to the global
output of 82.10 million MT. This study focused on addressing the issues associated
with fish feeding. Despite its significance, manual fish feeding was labor-intensive,
physically demanding, and potentially risky due to the high temperatures in the
Philippines. The aim of this research project was to develop, test, and assess an
automated fish feeding system to alleviate the burden on fishery operators and
caretakers. By leveraging technology, feeding could be made more efficient and less
physically demanding. This research initiative aligned TUP/DOST's objectives by
promoting sustainable aquaculture practices, enhancing food security, and driving
development.
Aquaculture technology
Automated fish feeding
UN SDG 9
BTH QA 16.9 / B67 2025
Development of an aqua floating feeder system for linear fish farm/ Kielle I. Bordones, Joshua G. Constantino, Joshua Q. Lardizabal, John Carlo D. Mendoza, and Earl Zyril N. Pesigan.-- - Manila: Technological University of the Philippines, 2025. - xii, 125pages: 29cm.
Bachelor's thesis
College of Industrial Technology.--
Includes bibliographic references and index.
Agriculture was a key sector in the Philippine economy, with Fisheries and
Aquaculture being one of its four sub-sectors. In 2020, the Bureau of Fisheries and
Aquatic Resources reported that the country ranked 11th globally in aquaculture
production, contributing 826.01 thousand metric tons (MT), or 1.01%, to the global
output of 82.10 million MT. This study focused on addressing the issues associated
with fish feeding. Despite its significance, manual fish feeding was labor-intensive,
physically demanding, and potentially risky due to the high temperatures in the
Philippines. The aim of this research project was to develop, test, and assess an
automated fish feeding system to alleviate the burden on fishery operators and
caretakers. By leveraging technology, feeding could be made more efficient and less
physically demanding. This research initiative aligned TUP/DOST's objectives by
promoting sustainable aquaculture practices, enhancing food security, and driving
development.
Aquaculture technology
Automated fish feeding
UN SDG 9
BTH QA 16.9 / B67 2025