| DESIGN AND DEVELOPMENT OF HANDCRAFTED ELECTRIC PUMP THROUGH UTILIZING OLD MECHANICAL PARTS |
| Author |
| Mark Lawrence T. Barte, Ahlber John B. De Castro, Nesshea Bert A. Gabi, Mawhie Joy C. Ignacio, Kyle Jilian Gabrielle D. Mendoza, Mark Johnwayne S. Salazar, Mrs. Cinderela P. Rosales, LPT |
| Views: 59 |
|
Cited: 0 |
| Downloads: 0 |
|
|
| Click here to download
|
| Abstract |
| This comprehensive study delves into the design, development, and capabilities of a handcrafted electric air pump utilizing recycled mechanical parts, targeting mechanical engineers and automotive mechanics. Through statistical analysis of data collected via survey questionnaires, the study explores efficiency, durability, and safety aspects, along with proposing specifications for improvement. Materials and processes in crafting the pump are detailed, emphasizing sustainability and resource utilization. The study employs an experimental approach, analyzing data using various statistical methods and involving 30 respondents through stratified random sampling. Findings reveal the pump's efficiency, durability, and safety, with no significant differences in assessments between mechanical engineers and mechanics. The proposed specifications focus on enhancing performance, safety, and eco-friendliness, addressing energy efficiency, material durability, and regulatory compliance. Conclusions underscore the pump's effectiveness, versatility, and durability, affirming its value in various settings. Additionally, the study recommends prioritizing durable materials, exploring motor efficiency innovations, integrating safety enhancements and user-friendly design elements, and expanding research to explore additional features and involve broader user groups. Ultimately, this study contributes to sustainable engineering solutions and highlights the potential of handcrafted electric pumps in addressing industrial and environmental challenges. |
| Keywords |
| Handcrafted, Electric Air Pump, Efficiency, Durability, Safety, Sustainability |
| References |
Krupnik, et al. (2019). Studying fiber ¬reinforced concrete for casting housing parts of pumps.https://www.semanticscholar.org/paper/Studying-fiber%C2%ADreinforced-concre te-for-casting-of-Krupnik-Yelemessov/4276beb5f4a6c3b1cde8b60c75cd91854c7c315e
Kim, H. (2019). Statistical notes for clinical researchers: the independent samples t-test. Restorative Dentistry & Endodontics, 44(3). https://doi.org/10.5395/rde.2019.44.e26
MechStudies, & MechStudies. (2022). What is an Electric Air Pump? Definition, Parts, Working, How to Choose? www.mechstudies.com. https://www.mechstudies.com/what-electric-air-pump-definition-parts-working-how-choos e/?expand_article=1&fbclid=IwAR0y_rrs3WhwNqQhBssNYMFVkABkbjVvW6ntBZRFPT 3Kd6nivdGq-w_vsAo
Longva, K. K., & Foss, L. (2019b). Measuring impact through experimental design in entrepreneurship education: A literature review and research agenda. Industry and Higher Education, 32(6), 358–374. https://doi.org/10.1177/0950422218804912
Ilker Etikan, & Rufai Iliyasu. (2021). Comparison of quota sampling and stratified random sampling: Vol. Volume 10 Issue 1-2021. https://d1wqtxts1xzle7.cloudfront.net/85176951/BBIJ-10-00326-libre.pdf?1651243602=& response-content-disposition=inline%3B+filename%3DComparison_of_quota_sampling _and_stratif.pdf&Expires=1715926941&Signature=b3en6Quf8lQnuwbysyBNs0vvyNWsJ IGawapb5fNkdiy7F702C-d6XiUjy28tgD~MagO6Tbp2vEoS4xV-TAe22GzU3CX8vs82~se CRFgdjkIxQQD-39HDGkflDXG7a5iSTeTQZ4UmXhgIND4a~uVJrR0eqDHFjspOp6qDEv XoG7fcv3bCZkbqZgWgzUnS-gEByCBIhJvPDOK2yAz3v6d58Ka3Is4vdTRln5qqJqz-Nge qkJHL3tTim6NOLbOz-uqZosVy~wM |