| PROPOSED DISINFECTANT SPRAYER PIPING SYSTEM FOR UNIVERSITY OF BATANGAS MILLENNIUM CAMPUS |
| Author |
| Aaron Jel A. Cua
Jimboy A. De Villa
Aron Rayner S. Melo,
Dranreb D. Rosales
Research Adviser: Mr. Carl Ivan B. Villanueva |
| Views: 331 |
|
Cited: 0 |
| Downloads: 2 |
|
|
| Click here to download
|
| Abstract |
| The study about the Proposed Disinfectant Sprayer Piping System aimed to provide solutions to the problems brought by the Coronavirus Pandemic in different sectors in the society, specifically education. The study seeks to answer the features of the Proposed Disinfectant Sprayer Piping System in terms of conceptual, detailed and preliminary design. It also answers the processes involved, evaluate the product in terms of safety, cost and efficiency and it will also answer the benefit of the product and will provide a promotional material that may be proposed.The study will benefit the administrators, faculty and employees, students, engineers, architects, infrastructure owners, and future researchers. It uses the experimental method of research. The researchers utilized the use of data gathering instrument to collect data that are essential to pursue the study. The researchers selected five (5) members of the school administration, five (5) licensed engineers, five (5) safety officers, five (5) teachers, and ten (10) students using stratified random sampling. The statistical tools used in the study were, ranking, weighted mean, and T-test. In the end, the Proposed Disinfectant Sprayer Piping System was proven to be acceptable in terms of safety, cost and efficiency, since the proposal was deemed beneficial to the subjects of the study. The processes involved in the Proposed Disinfectant Sprayer Piping System are requesting and gathering, preparing and estimating the materials, designing and solving. Lastly, the researchers proposed the use of other materials, which may be more advanced, to enhance the system proposed during the present study. |
| Keywords |
| Keywords: Coronavirus, disinfectant, pipeline, system, experimental, building, infrastructure |
| References |
Stewart, M. (2016) Pipeline Systems. Retrieved from https://www.researchgate.net/publication/314689147_Pipeline_systems
Consumer Energy Alliance (2017) Retrieved from https://consumerenergyalliance.org/2017/05/importance-pipeline-infrastructure/?fbclid=IwAR0P8s5usur8xdULR-WDoWNd1g3Vzi8lGM7NEv-solFbk4LY_NJgTE2l_xY
Smart Building (2018) Retrieved from https://smartbuilding.gr/?fbclid=IwAR0PJH87m4iWVYAQv0j6cGbOgQ8LHqe0-o8KEjB7C6SeDD9bWbavbYKkTP0
Inspectioneering (2020) Retrieved from https://inspectioneering.com/tag/piping?fbclid=IwAR3A03ZBm2aejNR6vALxxhOiZo288RbiG98Ag4bfuEkqLs_If_noYyEsdlo
Tumber, S. (2019) Pipe Systems and Materials Design Considerations. Retrieved from https://www.csemag.com/articles/pipe-systems-and-materials-design-considerations/?fbclid=IwAR1T2_XMR218nHi3aHHsSZIT0_IxBCh4CcrFMlwbftPbnciMO3xaDCM7Xrw
Steel JRV (2018) Retrieved from https://www.steeljrv.com/what-is-a-piping-system.html?fbclid=IwAR1ZekUdxTF_05i326oy6eaDWWkoOG6QNXKV68CloO4F3cgJZDxBgCUBlw8
Rechenberger & Mair (2017) Vibration Control of Piping Systems and Structures Using Tuned Mass Dampers. Retrieved from https://asmedigitalcollection.asme.org/PVP/proceedings-abstract/PVP2017/57953/V03BT03A035/283360?fbclid=IwAR0PsGvUDrqNrYxVm1_u9OBrF4bDEWHkPyX5thf2woJywp-4RK5PoRZb2EM
Alvarado & Hernandez (2017) Modeling of Critical Transient Events in Piping Systems. Retrieved from https://onepetro.org/PSIGAM/proceedings-abstract/PSIG17/All-PSIG17/PSIG-1706/2069
Sen (2017) Deflections and Stresses for a Power Piping Plant by CAESAR Software. Retrieved from https://www.researchgate.net/publication/317661668_Determination_of_Pipe_Deflections_and_Stresses_for_a_Power_Piping_Plant_by_CAESAR_Software?fbclid=IwAR0PsGvUDrqNrYxVm1_u9OBrF4bDEWHkPyX5thf2woJywp-4RK5PoRZb2EM
Hayes (2020) Definition of 'Stratified Sampling’. Retrieved from https://economictimes.indiatimes.com/definition/stratified%20sampling
McCombes (2019) Descriptive Research. Retrieved from https://www.scribbr.com/methodology/descriptive-research/?fbclid=IwAR3uhD_b8CaKmBui7y27dh5GblMCTcA9FPqUt2tAoU2CTZG1Yn9LyFeYB6g#:~:text=Descriptive%20research%20aims%20to%20accurately,investigate%20one%20or%20more%20variables
Mitchell, O. (2015) Experimental Research Design. Retrieved from https://onlinelibrary.wiley.com/doi/full/10.1002/9781118519639.wbecpx113?fbclid=IwAR32GfMmRLjuqU9NCgP1UW9wKhDhCrneWyQ5wfUF6XEvVhbbnFUZd3WE6zI
Sahas (2015) Pros and Cons of Website. Retrieved from https://honestproscons.com/pros-and-cons-of-websites/?fbclid=IwAR1ZekUdxTF_05i326oy6eaDWWkoOG6QNXKV68CloO4F3cgJZDxBgCUBlw8
Nikolao (2019) Conventional Construction. Retrieved from https://smartbuilding.gr/en/building-systems/conventional-construction
Saxena (2020) Coronavirus Disease. Retrieved from https://books.google.com.ph/books/about/Coronavirus_Disease_2019_COVID_19.html?id=qovgDwAAQBAJ&printsec=frontcover&source=kp_read_button&redir_esc=y#v=onepage&q&f=false
Swedish Industrial Design Foundation (2019) Retrieved from https://www.wemakescholars.com/trust-foundation/swedish-industrial-design-foundation-svid-/scholarships
Graco Inc. (n.d) Retrieved from https://www.graco.com/gb/en/contractor/products/disinfecting-sanitizing/disinfectant-sprayers.html
RapidSpray (2020) Retrieved from https://www.rapidspray.net/disinfectant-sprayers
Energy Information Administration (2020) Retrieved from https://www.eia.gov/energyexplained/electricity/
Keystone Fire Protection Co. (2019) Retrieved from https://www.keystonefire.com/blog/what-is-a-fire-protection-system/#:~:text=Fire%20protection%20systems%20include%20fire,variety%20of%20integrated%20protection%20systems.
Flinn (2017) Importance of Machines in Today's World. Retrieved from https://togwizard.net/importance-of-machines-in-todays-world/
Henni, Hu & Saadeldin (2015) Numerical Analysis of Buried Pipes Under Field Geo-Environmental Conditions. Retrieved from https://link.springer.com/article/10.1186/s40703-015-0005-4
Johnston (2019) Researching Historical Promotional Materials: Towards a New Methodology. Retrieved from https://www.tandfonline.com/doi/full/10.1080/01439685.2019.1615293
Quality Planning (2017) Retrieved from https://www.qualityplanning.org.nz/node/1135
WHO (2020) Retrieved from https://www.who.int/news-room/q-a-detail/coronavirus-disease-covid-19-cleaning-and-disinfecting-surfaces-in-non-health-care-settings
Kravitz (2020) Combating Covid-19 with Electrostatic Misters. Retrieved from https://spaces4learning.com/articles/2020/04/20/combating-covid19-with-electrostatic-misters.aspx
Johnson, R. Padmanabham, G., Rao, N., Sarada, B. & Vijay, R. (2020) Fight Against COVID-19: ARCI’s Technologies for Disinfection. Retrieved from https://link.springer.com/article/10.1007/s41403-020-00153-3
Cadnum, J., Donskey, C.,Jencson, A., Livingston, S., Li, D., Redmond, S., Pearlmutter, B. & Wilson, B. (2020) Evaluation of An Electrostatic Spray Disinfectant Technology for Rapid Decontamination of Portable Equipment and Large Open Areas in the Era of SARS-CoV-2. Retrieved from https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7275188/
Robertson (2016) Electrostatic Technology for Surface Disinfection in Healthcare Facilities. Retrieved from https://infectioncontrol.tips/2016/10/14/electrostatic-in-healthcare/ |