Development Of Seabound.-- A Portable Thermal Desalination Device: Josh Christian T. Ching, Tricia Nicole S. Conor, Ned Jasper C. Estrella and John Paul S. Estrella.--

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Ching, Josh Christian T [author]

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Material type: Text

TextPublication details: Technological University Of The Philippines, Manila. 2023Description: xii, 108 pages. 29 cmContent type:

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BTH QA 76.9 C45 2023

Dissertation note: College of Industrial Technology.-- Bachelor of Engineering Technology Major in Computer Engineering Technology: Technological University Of The Philippines, Manila. 2023 Summary: Water is a precious resource on our planet while water scarcity is a critical global challenge, particularly for coastal communities facing limited access to desalinated water. While desalination offers a potential solution, current technologies have limitations in terms of accessibility, affordability, energy consumption, cost-effectiveness, and environmental impact. This study aims to address these issues and contribute to the alleviation of water scarcity. The primary objective of this research is to help alleviate water scarcity through the effective desalination of salt water as an alternative water source. Specific objectives include designing a portable system with improved condensate accumulation and easy component access, integrating real-time IoT monitoring for enhanced control, developing the system using the DDTC model, and testing its functional efficiency and time behavior. Additionally, the system's quality was assessed based on ISO 25010:2011 standards. The study's findings indicate very good results in terms of functional efficiency and time behavior, with the most effective formulation achieving a score of 4.375. The system also demonstrates excellent performance across 5 ISO 25010:2011 quality standards, receiving an overall rating of 4.73. To further enhance the system, suggestions include conducting third-party laboratory testing for potability and integrating solar panels to reduce electricity consumption. This research aligns with the United Nations Sustainable Development Goal 6, promoting clean water and sanitation.

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Holdings
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 C45 2023 (Browse shelf(Opens below))	c.1.	Not for loan		BTH0005567

Bachelor's thesis

College of Industrial Technology.-- Bachelor of Engineering Technology Major in Computer Engineering Technology: Technological University Of The Philippines, Manila. 2023

Includes bibliographic references and index.

Water is a precious resource on our planet while water scarcity is a critical global challenge,
particularly for coastal communities facing limited access to desalinated water. While
desalination offers a potential solution, current technologies have limitations in terms of
accessibility, affordability, energy consumption, cost-effectiveness, and environmental
impact. This study aims to address these issues and contribute to the alleviation of water
scarcity. The primary objective of this research is to help alleviate water scarcity through
the effective desalination of salt water as an alternative water source. Specific objectives
include designing a portable system with improved condensate accumulation and easy
component access, integrating real-time IoT monitoring for enhanced control, developing
the system using the DDTC model, and testing its functional efficiency and time behavior.
Additionally, the system's quality was assessed based on ISO 25010:2011 standards. The
study's findings indicate very good results in terms of functional efficiency and time
behavior, with the most effective formulation achieving a score of 4.375. The system also
demonstrates excellent performance across 5 ISO 25010:2011 quality standards, receiving
an overall rating of 4.73. To further enhance the system, suggestions include conducting
third-party laboratory testing for potability and integrating solar panels to reduce electricity
consumption. This research aligns with the United Nations Sustainable Development Goal
6, promoting clean water and sanitation.

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