02772nam a22003017a 4500003000400000005001700004008004100021040002900062050002500091100003200116245015800148260006600306300002500372336001500397337001300412338001500425500002200440502016300462504004900625520159400674650002702268650001102295650002202306700003502328700003402363700003302397700004002430OSt20260616090202.0260616b        |||||||| |||| 00| 0 eng d  bEnglishcTUPMdTUPMerda  aBTH TK 870bD47 2025  aDe Pedro, Joshua D.eAuthor  aDevelopment of Biomass E-Burner/cJoshua D. De Pedro, Rodolfo A. Ramos II, Jimmy Boy A. Serevilla, Jerison B. Taguinod, and David Angelo C. Villanueva..-  aManila:bTechnological University of the Philippines, c2025.  aix, 67 pages:c29cm.  2rdacontent  2rdamedia  2rdacarrier  aBachelor's Thesis  aCollege of Industrial Technology..-bBachelor of Engineering Technology Major in Electronics Technology:cTechnological University of the Philippines, d2025.  aIncludes bibliographic references and index.  aThe growing demand for sustainable waste management and alternative energy solutions
emphasizes the need for systems capable of converting biodegradable food waste into
usable fuel. This study presents the development of a biomass E-Burner that utilizes biogas
derived from biodegradable food waste for household cooking applications. The system
incorporates an electronic ignition mechanism and integrated safety features, including
flame detection and gas leak sensors, to improve operational safety and reliability.
Performance testing was conducted under controlled indoor and outdoor conditions in
accordance with ISO 23550:2021, which specifies safety and performance requirements
for gas burners and gas-burning appliances. The evaluation focused on ignition rate and
sensor responsiveness using t-test methods. Results show that the developed E-Burner
achieved a mean ignition time of 1.32 seconds, compared to 1.28 seconds for the
conventional gas burner, indicating comparable ignition performance. The flame sensor
demonstrated a mean response time of 1.49 seconds indoors and 1.52 seconds outdoors,
while the gas leak sensor responded within 1.27 seconds indoors and 1.48 seconds
outdoors. These findings confirm that the developed system satisfies the required safety

and performance criteria and demonstrates reliable operational efficiency. The biomass E-
Burner is therefore a viable and safe alternative cooking solution that supports sustainable

energy utilization.

Keywords: Biogas, Electronic Burner, Food Waste, Clean Energy, Safety, UN-SDG 7, UN-
SDG 12, UN-SDG 13  aElectronics Technology  aBiogas  aElectronic Burner  aRamos, Rodolfo, A., IIeAuthor  aSerevilla, Rodolfo A.eAuthor  aTaguinod, Jerison B.eAuthor  aVillanueva, David Angelo C.eAuthor