Development of esp32-based electrical energy generator using teg/ Jenevivia O. Cordero, Cyrill John R. Fernandez, Ma. Kathrina V. Mutuc, Angelo H. Rasalan, and Shane Nicky B. Ruanto.--

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Cordero, Jenevivia O [author]

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TextPublication details: Manila: Technological University of the Philippines, 2025.Description: xiv, 131pages: 29cmContent type:

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BTH QA 76.9 C67 2025

Dissertation note: College of Industrial Technology.-- Bachelor of engineering technology major in computer engineering technology: Technological University of the Philippines, 2025. Summary: Charging systems are prevalent in society. PV and TEG Based system inefficiency are the main predicament. The researchers aim to provide an efficient energy supply to marginalized communities by providing an alternative power source for small electrical devices during emergencies. To address this the researchers proposed a design of a box- type electric generator and a configuration of a Peltier Module. The researchers developed the system using the hybrid of Agile and Prototyping Methodology; it was assessed in terms of its Functionality, Efficiency, Safety, and User Acceptance and evaluated using ISO 25010:2023. Using the Likert Scale test results showed that the system functionality scale is 4.8. In terms of efficiency is 3.3, safety 3.3 with an overall average of 4.0. The hazard analysis test results are (48) Based on standard FMEA scoring, an RPN of 48 falls into a moderate risk category. Respondents evaluated the system as “Very Good” across all the criteria mentioned resulting to 4.1. It is aligned with the TUP R&D Agenda “N”-New Knowledge, etc., UN SDG Goal 7—Affordable and Clean Energy, and Goal 9—Industry, Innovation, and Infrastructure. Through the researcher’s system, it’ll provide the mentioned marginalized communities convenience and improve their quality of life.

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Item type	Current library	Shelving location	Call number	Copy number	Status	Date due	Barcode
Bachelor's Thesis CIT	TUP Manila Library	Thesis Section-2nd floor	BTH QA 76.9 C67 2025 (Browse shelf(Opens below))	c.1	Not for loan		BTH0006568

Bachelor's thesis

College of Industrial Technology.-- Bachelor of engineering technology major in computer engineering technology: Technological University of the Philippines, 2025.

Includes bibliographic references and index.

Charging systems are prevalent in society. PV and TEG Based system inefficiency are the
main predicament. The researchers aim to provide an efficient energy supply to
marginalized communities by providing an alternative power source for small electrical

devices during emergencies. To address this the researchers proposed a design of a box-
type electric generator and a configuration of a Peltier Module. The researchers developed

the system using the hybrid of Agile and Prototyping Methodology; it was assessed in
terms of its Functionality, Efficiency, Safety, and User Acceptance and evaluated using
ISO 25010:2023. Using the Likert Scale test results showed that the system functionality
scale is 4.8. In terms of efficiency is 3.3, safety 3.3 with an overall average of 4.0. The
hazard analysis test results are (48) Based on standard FMEA scoring, an RPN of 48 falls
into a moderate risk category. Respondents evaluated the system as “Very Good” across
all the criteria mentioned resulting to 4.1. It is aligned with the TUP R&D
Agenda “N”-New Knowledge, etc., UN SDG Goal 7—Affordable and Clean Energy, and
Goal 9—Industry, Innovation, and Infrastructure. Through the researcher’s system, it’ll
provide the mentioned marginalized communities convenience and improve their quality
of life.

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