Engineering Transactions

Insufficient water supply in rural areas has prompted many communities to opt for manually operated water pumps. However, these water pumps can be demanding to operate and may pose physical difficulties for users. This study addresses this issue by developing a pedal-operated water pump with a modified reciprocating piston pump and a seating system that users can comfortably operate for a prolonged period of time. The study tested thirty respondents categorized into three groups based on demographic parameters such as age, weight, and height. Results demonstrated that the newly developed pedal-operated water pump achieved its highest mechanical efficiency of 62.73% and discharge efficiency of 99.50%. Furthermore, the study found that age, weight, and height have a very low correlation with cycling speed, with correlation levels of 3.93%, 1.83%, and 1.83%, respectively. The cycling speed also exhibited a low correlation level of 2.17% with the calories burned by the user. Thus, the developed water pump only required minimal physical effort from users of various age groups to produce adequate water outputs of up to 40.46 liters per minute. This study highlights the efficiency and user convenience of the newly developed pedal-operated water pump, which can be useful in communities for domestic and agricultural water supply.

Department of the Interior and Local Government, A total of 7,460 projects have been completed under DILG’s water supply and sanitation programs, giving 3.9 million households access to safe and sufficient water and sanitation, 2023, https://dilg.gov.ph/news/A-totalof-7460-projects-have-been-completed-under-DILG%20s-water-supply-and-sanitation-programs-giving-39-million-households-access-to-safe%20-and-sufficient-water-and-sanitation-/NC-2021-1056 (retrieved 2023.10.05).

Walag A.M.P., Canencia O.P., Fiedler B.A., Water Quality: Mindanao Island of the Philippines, [in:] Translating National Policy to Improve Environmental Conditions Impacting Public Health Through Community Planning, Fiedler B.A. (ed.), Springer, Cham, pp. 219–253, 2018, doi: 10.1007/978-3-319-75361-4_12.

Government of Japan, Ministry of Foreign Affairs, Improvement of Water Supply Equipment Management Capacity for the Establishment of Peace in Mindanao, 2019, https://www.ilo.org/manila/projects/WCMS_734317/lang--en/index.htm (retrieved 2023.10.08).

Magtibay B., Water refilling station: an alternative source of drinking water supply in the Philippines, 2004, https://core.ac.uk/download/pdf/288364717.pdf (retrieved 2023.10.09).

Archived Perspective Notice SSWM, Find tools for sustainable sanitation and water management, 2023, https://sswm.info/sites/default/files/reference_attachments/-BAUMANN%202011%20Low%20Cost%20Hand%20Pumps.pdf (retrieved 2023.10.05).

United Nations, Intersessional Panel of the United Nations Commission on Science and Technology for Development (CSTD), 2022, https://unctad.org/system/files/non-official-document/CSTD2022-23_c14_W_Philippines_en.pdf (retrieved 2023.10.08).

Sampath S.S., Shetty S., Pendanathu A.M., Javaid W., Selvan M.C.P., Estimation of power and efficiency of hydraulic ram pump with Re-circulation system, International Journal of Computer-aided Mechanical Design and Implementation, 1(1): 7–18, 2015, doi: 10.14257/ijcmdi.2015.1.1.02.

McKay A., The Water Buffalo: Design of a portable bicycle powered irrigation pump for small-scale African farmers, Master’s Thesis, University of California, Davis, 2018.

Abhijith R., Darshan P.K., Akshay K.P., Muhammed S.N.P., Pedal powered water pumping and purification, International Journal of Emerging Technologies and Innovative Research (www.jetir.org), 6(5): 83–85, 2019.

Dixit J., Ali M., Bashir B., Design and development of bicycle powered portable irrigation pump for marginal land holdings, SKUAST Journal of Research, 18(1): 24–31, 2016.

Radha N.T., Dorathi K., Fabrication of bicycle driven water pumping and power generation system, International Journal of Advances in Production and Mechanical Engineering (IJAPME), 3(1): 2394–6202, 2017.

Amda S.K., A schematic design and analysis of pedal power water pumping system, Anveshana’s International Journal of Research in Engineering and Applied Sciences, 2(5): 126–136, 2017.

Islam M.S., Hossain M.Z., Khair M.A., Design and development of pedal pump for low-lift irrigation, Journal of Agriculture and Rural Development, 5(1–2): 116–126, 2007.

Ejiko O.S., Omojogberun Y.V., Aluko A.O., Development of a pedal powered water pump (PPWP), [in:] Proceedings of the 12th Engineering Forum, School of Engineering, The Federal Polytechnic Conference Centre, Ado-Ekiti, Ekiti State, Nigeria, Vol. 2, pp. 259–267, 2019.

Chandramouli K., Sree J., Chaitanya N., Yogeshwarao P., A review on centrifugal and reciprocating pumps, International Journal of Research Publication and Reviews Journal, 4(2): 1626-1630, 2023.

Eller J.D., Water System with a Pedal Powered Reciprocating Pump, U.S. Patent No. 5,772,405. Washington, DC: U.S. Patent and Trademark Office, 1998.

Dassault Systèmes SolidWorks Corporation, Dec. 1993, SOLIDWORKS® 2021.

Dassault Systèmes SolidWorks Corporation, Dec. 1993, SOLIDWORKS® 2021 PREMIUM Flow Simulation.

Philippine Agricultural Engineering Standard, Agricultural Machinery – Centrifugal, Mixed Flow and Axial Flow Water Pumps – Methods of Test, 2000, https://amtec.ceat.uplb.edu.ph/wp-content/uploads/2019/07/PAES-115-2000.pdf (retrieved 2023.09.27).

Rao P.S.V.R., Naidu A.L., Design and fabrication of pedal operator centrifugal pump, Open Journal of Technology and Engineering Disciplines (OJTED), 2: 25–39, 2015.

Mohammed U.A., The design and development of peddling water pumping machine, Federal University Oye, Doctoral dissertation, 2016, http://repository.fuoye.edu.ng/handle/123456789/2151 (retrieved 2023.10.30).

Shirbhate A.N., Sharma A.S., Shrirao P.R., Sharma K.H., Talan V.B., Tayde, C.S., Development and fabrication of pedal operated multi-operational machine, International Journal of Emerging Technologies in Engineering Research, 4(5): 129–133, 2016.

Mogaji P.B., Development of an Improved pedal powered water pump, International Journal of Scientific and Engineering Research, 7(2): 1115–1123, 2016.

Bihar Animal Sciences University, Reciprocating Pumps, 2017, https://www.basu.org.in/wp-content/uploads/2020/03/RECIPROCATING-PUMPS.pdf (retrieved 2023.10.26).

Google, Talandang, Tugbok, Davao City, Davao del Sur, Philippines satellite image, 2023, https://www.google.com/maps/place/Talandang.

Human Research Protection Program, Institutional Review Board, Snowball Sampling, Oregon State University, 2017, https://research.oregonstate.edu/irb/policies-and-guidance-investigators/guidance/snowball-sampling (retrieved 2023.10.27).

Tolentino N.J.Y., Sigua R.G., Characteristics of walking and cycling in Metro Manila, Philippines, Philippine Transportation Journal, 5(1): 20–40, 2022.

Mercê C., Branco B., Catela D., Lopes F., Rodrigues L.P., Cordovil R., Learning to cycle: are physical activity and birth order related to the age of learning how to ride a bicycle?. Children, 8(6): 487, 2021, doi: 10.3390/children8060487.

Usman M.N., Mbajiorgu C.C., Vinking J.M., Design, construction and testing of a hand operated water pump for small scale farmers in Nigeria, International Journal of Advanced Research in Science, Engineering and Technology, 6(10): 11290–11298, 2019.

Phillips K.E., Hopkins W.G., Determinants of cycling performance: a review of the dimensions and features regulating performance in elite cycling competitions, Sports Medicine – Open, 6(1): 1-18, 2020, doi: 10.1186/s40798-020-00252-z.

Choudhary T., Does cycling increase height?, STYLECRAZE, 2014, https://www.stylecraze.com/articles/cling-help-you-gain-height/ (retrieved 2023.11.10).

Reiaz S., Mcharek I., Shabbir, R., Lim H.C., Talukder D., Udasi R., Malek M.F., Malek K., CalorieKiller: burning calories using mobile exergame with wearables, [in:] 2019 IEEE 7th International Conference on Serious Games and Applications for Health (SeGAH), 2019, doi: 10.1109/segah.2019.8882453.

Carson S. A., Female and male calories across the 19th and early 20th century distributions using quantile regression, CESifo Working, Paper No. 10051, 2022, doi: 10.2139/ssrn.4266616.

Vakil A., Green S.I., Stagnation pressure, the Bernoulli equation, and the steady-flow energy equation, International Journal of Mechanical Engineering Education, 39(2): 130–138, 2011, doi: 10.7227/ijmee.39.2.4.

Karthick R., Balachander S., Jeeva R., Kannan S., Design and fabrication of pedal powered water purification system, International Journal of Research Culture Society, 2(4): 68–72, 2018.

Havaldar S.N., Somani A., Pikle A., Siriah Y., Patil S., Pedal operated water filtration system (Mobifilt), International Journal of Current Engineering and Technology, Special Issue-4: 254–258, 2016, doi: 10.14741/Ijcet/22774106/spl.4.2016.52.

Celerinos P.J.S., Sanchez-Companion K.D., Determination of critical delivery head for hydraulic ram pump, Mindanao Journal of Science and Technology, 20(2): 1–29, 2022.

Linquip, Calculation of pump efficiency: formula and equation, 2021, https://www.linquip.com/blog/pump-efficiency/?fbclid=IwAR0yVwRjN2amZ203-QZGnRPMGv3LC25pScLK5qqR6CNQTuwZF22Ib6G0NxRc (retrieved 2023.11.07).

IBM SPSS Statistics for Windows, Version 22.0. Armonk, NY: IBM, 2013.

Brown B.B., Tharp D., Tribby C.P., Smith K.R., Miller H.J., Werner C.M., Changes in bicycling over time associated with a new bike lane: relations with kilocalories energy expenditure and body mass index, Journal of Transport and Health, 3(3): 357–365, 2016, doi: 10.1016/j.jth.2016.04.001.

Leary J., Design of the novel product using waste materials, Master’s Thesis, The University of Sheffield, 2008, http://www.mayapedal.org/LEARY_JL_2008_THESIS_1.pdf (retrieved 2023.04.03).

Brkić D., Ćojbašić Ž., Evolutionary optimization of Colebrook’s turbulent flow friction approximations, Fluids, 2(2): 15, 2017, doi: 10.3390/fluids2020015.

Li P., Seem J.E., Li Y., A new explicit equation for accurate friction factor calculation of smooth pipes, International Journal of Refrigeration, 34(6): 1535–1541, 2011, doi: 10.1016/j.ijrefrig.2011.03.018.

Guo Z., Ni Q., Wang L., Zhou K., Meng X., Influence of dry friction on the dynamics of cantilevered pipes conveying fluid, Applied Sciences, 12(2): 724, 2022, doi: 10.3390/app12020724.

Kudela H., Hydraulic losses in pipes, 2010, http://fluid.itcmp.pwr.wroc.pl/~znmp/dydaktyka/fundam_FM/Lecture11_12.pdf retrieved 2023.11.15).

Nam J.W., Sung Y.J., Cho S.W., Effective mooring rope tension in mechanical and hydraulic power take-off of wave energy converter, Sustainability, 13(17): 9803, 2021, doi: 10.3390/su13179803.