Design and development of water refilling station operations system / by Reniel B. Arellano, Jhorilyn G. Panganiban and Myra B. Payaban

By: Contributor(s): Material type: TextTextLanguage: English Publication details: Indang, Cavite, 2018. Cavite State University - Main CampusDescription: xiv, 124 pages : 28 cm. illustrationsContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
Subject(s): DDC classification:
  • 628.1  Ar3 2018
Online resources: Production credits:
  • College of Engineering and Information Technology (CEIT)
Abstract: ARELLANO, RENIEL B., PANGANIBAN, JHORILYN G. and PAYABAN, MYRA B. Design and Development of Water Refilling Station Operations System. Bachelor of Science in Industrial Engineering. Cavite State University, Indang, Cavite. January 2018. Adviser: Dr. Willie C. Buclatin. The demand at the water refilling stations -- water stores that sell purified water is now increasing. The quality of purified water conforms to the national standards for drinking water and is even better than the quality of water produced by traditional water supply systems in terms of removed impurities. Structurally, water refilling station can be operated with a minimum area of at least 20-25sq.m. It comprises the following sections: refilling and selling room, enclosed water purification room, container washing and sanitizing room, storage room for empty and refilled. The study aimed to assess the design and development of water refilling station operations system. This study aimed to assess the operations system of water refilling station. The primary sources of data were the owner of QualiPure Water Refilling Station, who invested, organized, put up and managed the business and their customers who benefited the operations system in terms of customer monitoring. Random sampling technique was used to determine the number of participants in the study. The total participants for the evaluation of the system were 71 customers including the owner of water refilling station. The Define-Measure Analyze-Design-Verify (DMADV) approach was used in undertaking this study. Developmental research was used in the study and Define, Measure, Analyze, Design and Verify (DMADV) method was followed as its research methodology. After identifying the current process and the problems encountered by the water refilling station, the researchers designed and developed the operations system using the gathered problems and different criteria. In terms of the quality and usability of the system, it yields a level of excellence from the respondents, and achieved the effectiveness, and efficiency of the operations system. This also gives a satisfaction level to the users. After the evaluation, it was found out that the water refilling station operations system met and achieved the different criteria for the interaction between the user and the system. All the parts of the system yield an excellent and a good rating from the respondents. The following criteria were applied: (1) guidance; (2) system Interface; (3) user Control; (4) adaptability; (5) error management; (6) consistency; (7) significance of code; and (8) compatibility. For further improvement of the Water Refilling Station Operations System, the researchers recommend to: (1) add more information on operations system to enhance the efficiency ant effectively of system; (2) adaptations of bigger business industry wide range of accounts are needed; (3) add convenience and visual comfortable for the user of the system; and (4) add much more easy monitoring of daily sales report that can be printable.
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Thesis (Bachelor of Science in Industrial Engineering) Cavite State University

Includes bibliographical references.

College of Engineering and Information Technology (CEIT)

ARELLANO, RENIEL B., PANGANIBAN, JHORILYN G. and PAYABAN, MYRA B. Design and Development of Water Refilling Station Operations System. Bachelor of Science in Industrial Engineering. Cavite State University, Indang, Cavite. January 2018. Adviser: Dr. Willie C. Buclatin.
The demand at the water refilling stations -- water stores that sell purified water is now increasing. The quality of purified water conforms to the national standards for drinking water and is even better than the quality of water produced by traditional water supply systems in terms of removed impurities. Structurally, water refilling station can be operated with a minimum area of at least 20-25sq.m. It comprises the following sections: refilling and selling room, enclosed water purification room, container washing and sanitizing room, storage room for empty and refilled. The study aimed to assess the design and development of water refilling station operations system. This study aimed to assess the operations system of water refilling station. The primary sources of data were the owner of QualiPure Water Refilling Station, who invested, organized, put up and managed the business and their customers who benefited the operations system in terms of customer monitoring. Random sampling technique was used to determine the number of participants in the study. The total participants for the evaluation of the system were 71 customers including the owner of water refilling station.
The Define-Measure Analyze-Design-Verify (DMADV) approach was used in undertaking this study. Developmental research was used in the study and Define, Measure, Analyze, Design and Verify (DMADV) method was followed as its research methodology.
After identifying the current process and the problems encountered by the water refilling station, the researchers designed and developed the operations system using the gathered problems and different criteria. In terms of the quality and usability of the system, it yields a level of excellence from the respondents, and achieved the effectiveness, and efficiency of the operations system. This also gives a satisfaction level to the users. After the evaluation, it was found out that the water refilling station operations system met and achieved the different criteria for the interaction between the user and the system. All the parts of the system yield an excellent and a good rating from the respondents. The following criteria were applied: (1) guidance; (2) system Interface; (3) user Control; (4) adaptability; (5) error management; (6) consistency; (7) significance of code; and (8) compatibility.
For further improvement of the Water Refilling Station Operations System, the researchers recommend to: (1) add more information on operations system to enhance the efficiency ant effectively of system; (2) adaptations of bigger business industry wide range of accounts are needed; (3) add convenience and visual comfortable for the user of the system; and (4) add much more easy monitoring of daily sales report that can be printable.

Submitted to the University Library 02/21/2019 T-7770

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