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Design and construction of urine power generation system / by John Joel C. Abejero and Rogelio G. Paulino Jr.

By:

Abejero, John Joel C [author]

Contributor(s):

Material type: Text

TextLanguage: English Publication details: Indang, Cavite : Cavite State University- Main Campus, 2018.Description: xviii, 78 pages : illustrations ; 28 cmContent type:

text

Media type:

unmediated

Carrier type:

volume

Subject(s):

DDC classification:

621.36 Ab1 2018

Online resources:

Click here to view thesis abstract and table of contents

Production credits:

College of Engineering and Information Technology (CEIT), Department of Computer and Electronics Engineering

Abstract: ABEJERO, JOHN JOEL C. and PAULINO JR., ROGELIO G. Design and Construction of Urine Power Generation System. Undergraduate Thesis. Bachelor of Science in Electrical Engineering. Cavite State University, Indang, Cavite. July 2018. Adviser: Prof Ronald P. Pea. The study was conducted from December 2017 to January 2018 inside the premises of Cavite State University — Main Campus, Engineering Science Building, 2nd floor male comfort room. The study was consisted of five (6) methods: (1) design and construction of Microbial Fuel Cells; (2) testing the power output of each MFC/s (3) construction of the MFC stack, (4) assembling the male urinal system, (5) test and evaluate the urine power generation system; through pilot testing and (6) conduct cost computation. The study covered proposal of microbial fuel cell design and its construction of urine power generation system that was evaluated. Test and evaluation were done by determining the 18 series microbial fuel cells peak output open circuit voltage of 8.15V with 10.12 mA short circuit current. The configuration of microbial fuel cell stack was made of 9 cells in parallel together and able to supply a 1 watt 5mm LED rated 3.3V, 20mA for 10 hours without continuous feed of urine having a storage capacity of 107mAH. Outputs also include the soft and hard copy of the evaluation results, circuit diagrams and graphs. The total cost of the study was 20, 400 and the cost of 18 (eighteen) microbial fuel cells was 1,984 pesos.

List(s) this item appears in: Peña, Ronald

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Holdings ( 1 )
Title notes ( 5 )

Holdings
Item type	Current library	Collection	Call number	Materials specified	URL	Status	Notes	Date due	Barcode
Theses / Manuscripts	Ladislao N. Diwa Memorial Library Theses Section	Non-fiction	621.36 Ab1 2018 (Browse shelf(Opens below))		Link to resource	Room use only	T-7664		00077356

Thesis (Bachelor of Science in Electrical Engineering) Cavite State University.

Includes bibliographical references.

College of Engineering and Information Technology (CEIT), Department of Computer and Electronics Engineering

ABEJERO, JOHN JOEL C. and PAULINO JR., ROGELIO G. Design and Construction of Urine Power Generation System. Undergraduate Thesis. Bachelor of Science in Electrical Engineering. Cavite State University, Indang, Cavite. July 2018. Adviser: Prof Ronald P. Pea.
The study was conducted from December 2017 to January 2018 inside the premises of Cavite State University — Main Campus, Engineering Science Building, 2nd floor male comfort room. The study was consisted of five (6) methods: (1) design and construction of Microbial Fuel Cells; (2) testing the power output of each MFC/s (3) construction of the MFC stack, (4) assembling the male urinal system, (5) test and evaluate the urine power generation system; through pilot testing and (6) conduct cost computation. The study covered proposal of microbial fuel cell design and its construction of urine power generation system that was evaluated. Test and evaluation were done by determining the 18 series microbial fuel cells peak output open circuit voltage of 8.15V with 10.12 mA short circuit current. The configuration of microbial fuel cell stack was made of 9 cells in parallel together and able to supply a 1 watt 5mm LED rated 3.3V, 20mA for 10 hours without continuous feed of urine having a storage capacity of 107mAH. Outputs also include the soft and hard copy of the evaluation results, circuit diagrams and graphs. The total cost of the study was 20, 400 and the cost of 18 (eighteen) microbial fuel cells was 1,984 pesos.

Submitted to the University Library September 17, 2018 T-7664