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Water park of the future: Monarch butterfly slide with eco-friendly design and smart water management

Year 2024, Volume: 8 Issue: 2, 78 - 84, 20.06.2024
https://doi.org/10.26701/ems.1430128

Abstract

In this study, an innovative water park concept slide that aims to keep water consumption low was designed and produced. Traditional water parks are out of use at a rate of approximately 65% because they are inefficient in water and energy consumption. This work will be a pioneering step in the sector with the combination of environmentally friendly design, smart water management systems, and sustainable technologies. Users entering the 43% inclined butterfly body will reach a speed of 16 m/sec while performing the vertical swing movement and will move with an acceleration of 0.5m/sec2 on the horizontal axis. Since the high-pressure water coming from the nozzles on the slide will be used only when there is movement, approximately 70% water and 50% energy savings will be achieved and sliding safety will also be increased. The proposed saving system will be produced using the inverter, integrated circuit, smart card, and software developed to be added to the pump and will be adapted to all slides. The fact that this study is a first in the sector will inspire other water parks and lead to the development of projects that consider sustainability and savings issues.

References

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  • Banihabib, E. M., & Pezhman, M. M. (2019). Extended linear and non-linear auto-regressive models for forecasting the urban water consumption of a fast-growing city in an arid region. Sustainable Cities and Society, 48, 101585. https://doi.org/10.1016/j.scs.2019.101585
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  • Chu, N., Wang, D., Wang, H., Liang, Q., Chang, J., Gao, Y., Jiang, Y., & Zeng, R. J. (2023). Flow-electrode microbial electrosynthesis for increasing production rates and lowering energy consumption. Engineering, 25, 157–167. https://doi.org/10.1016/j.eng.2022.10.016
  • Ozturk, H. K., Ozturk, H. M., & Dombaycı, A. (2018). Energy consumption and energy saving opportunities in tourism sector. Güncel Turizm Araştırmaları Dergisi, 2(1), 17-28. https://doi.org/10.22392/guntad.419604
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  • Kloepffer, W. (2008). Life cycle sustainability assessment of products. International Journal of Life Cycle Assessment, 13(1), 89-95. https://doi.org/10.1065/lca2008.02.376
  • Mudavanhu, S., Blignaut, J., Stegmann, N., Barnes, G., & Prinsloo Tuckett, A. (2017). The economic value of ecosystem goods and services: The case of Mogale’s Gate Biodiversity Centre, South Africa. Ecosystem Services, 26, 127–136. https://doi.org/10.1016/j.ecoser.2017.06.005
  • Yin, R., Liu, T., Yao, S., & Zhao, M. (2013). Designing and implementing payments for ecosystem services programs: Lessons learned from China’s cropland restoration experience. Forest Policy and Economics, 35(1), 66–72.
  • Doğan, M. (2023). Sürdürülebilirlik: Su ve suyun önemi. Eurasian Journal of Research in Social and Economics (EJRSE), 10(1), 176-192.
  • Yalcınkaya, P., Atay, L., & Karakas, E. (2018). Smart tourism applications Gastroia. Journal of Gastronomy and Travel Research, 2(2), 34-52.
  • Andrew, M. B. (2023). Development of an open-source soil water potential management system for horticultural applications. HardwareX, 15, e00458. https://doi.org/10.1016/j.ohx.2022.e00458
  • Irfan, M., Ullah, S., Razzaq, A., Cai, J., & Adebayo, T. S. (2023). Unleashing the dynamic impact of tourism industry on energy consumption, economic output, and environmental quality in China: A way forward towards environmental sustainability. Journal of Cleaner Production, 387, 135778. https://doi.org/10.1016/j.jclepro.2023.135778
  • Özgür, D., & Meltem, C. (2019). Analysis of hotel services by their symmetric and asymmetric effects on overall customer satisfaction: A comparison of market segments. International Journal of Hospitality Management, 81, 83-93. https://doi.org/10.1016/j.ijhm.2019.03.006
  • Yitong, C., Chang, Q., Yanan, Y., Xiaoxin, C., Xiang, Z., & Rong, C. (2023). Evolution and health risk of indicator microorganisms in landscape water replenished by reclaimed water. Journal of Environmental Sciences. https://doi.org/10.1016/j.jes.2023.06.039
  • Milman, A., Okumus, F., & Dickson, D. (2010). The contribution of theme parks and attractions to the social and economic sustainability of destinations. Worldwide Hospitality and Tourism Themes, 2, 338-345. https://doi.org/10.1108/17554211011052245
  • RTM process [Internet]; [cited 2023 Dec 25]. Available from: http://www.kossecomposite.com/muhendislik.html
Year 2024, Volume: 8 Issue: 2, 78 - 84, 20.06.2024
https://doi.org/10.26701/ems.1430128

Abstract

References

  • Jain, A., Varshney, A. K., & Joshi, U. C. (2001). Short-term water demand forecast modeling at IIT Kanpur using artificial neural networks. Water Resources Management, 15(5), 299–321. https://doi.org/10.1023/A:1014415503473
  • Banihabib, E. M., & Pezhman, M. M. (2019). Extended linear and non-linear auto-regressive models for forecasting the urban water consumption of a fast-growing city in an arid region. Sustainable Cities and Society, 48, 101585. https://doi.org/10.1016/j.scs.2019.101585
  • United Nations. (2015). Transforming our world: The 2030 agenda for sustainable development. Resolution adopted by the General Assembly on 25 September 2015.
  • Arı, A. (2021). Yenilenebilir enerji, turizm, CO2 ve GSYH ilişkisinin Türkiye için analizi. Journal of Academic Approaches, 12(2). https://doi.org/10.54688/ayd.880406
  • Chu, N., Wang, D., Wang, H., Liang, Q., Chang, J., Gao, Y., Jiang, Y., & Zeng, R. J. (2023). Flow-electrode microbial electrosynthesis for increasing production rates and lowering energy consumption. Engineering, 25, 157–167. https://doi.org/10.1016/j.eng.2022.10.016
  • Ozturk, H. K., Ozturk, H. M., & Dombaycı, A. (2018). Energy consumption and energy saving opportunities in tourism sector. Güncel Turizm Araştırmaları Dergisi, 2(1), 17-28. https://doi.org/10.22392/guntad.419604
  • Brezet, H. (1997). Dynamics in ecodesign practice. Industrial Environment, 20, 21-24.
  • UNEP. (2006).
  • Bhamra, T., & Lofthouse, V. (2007). Design of sustainability: A practical approach. Gower Publishing, Ltd.
  • Kloepffer, W. (2008). Life cycle sustainability assessment of products. International Journal of Life Cycle Assessment, 13(1), 89-95. https://doi.org/10.1065/lca2008.02.376
  • Mudavanhu, S., Blignaut, J., Stegmann, N., Barnes, G., & Prinsloo Tuckett, A. (2017). The economic value of ecosystem goods and services: The case of Mogale’s Gate Biodiversity Centre, South Africa. Ecosystem Services, 26, 127–136. https://doi.org/10.1016/j.ecoser.2017.06.005
  • Yin, R., Liu, T., Yao, S., & Zhao, M. (2013). Designing and implementing payments for ecosystem services programs: Lessons learned from China’s cropland restoration experience. Forest Policy and Economics, 35(1), 66–72.
  • Doğan, M. (2023). Sürdürülebilirlik: Su ve suyun önemi. Eurasian Journal of Research in Social and Economics (EJRSE), 10(1), 176-192.
  • Yalcınkaya, P., Atay, L., & Karakas, E. (2018). Smart tourism applications Gastroia. Journal of Gastronomy and Travel Research, 2(2), 34-52.
  • Andrew, M. B. (2023). Development of an open-source soil water potential management system for horticultural applications. HardwareX, 15, e00458. https://doi.org/10.1016/j.ohx.2022.e00458
  • Irfan, M., Ullah, S., Razzaq, A., Cai, J., & Adebayo, T. S. (2023). Unleashing the dynamic impact of tourism industry on energy consumption, economic output, and environmental quality in China: A way forward towards environmental sustainability. Journal of Cleaner Production, 387, 135778. https://doi.org/10.1016/j.jclepro.2023.135778
  • Özgür, D., & Meltem, C. (2019). Analysis of hotel services by their symmetric and asymmetric effects on overall customer satisfaction: A comparison of market segments. International Journal of Hospitality Management, 81, 83-93. https://doi.org/10.1016/j.ijhm.2019.03.006
  • Yitong, C., Chang, Q., Yanan, Y., Xiaoxin, C., Xiang, Z., & Rong, C. (2023). Evolution and health risk of indicator microorganisms in landscape water replenished by reclaimed water. Journal of Environmental Sciences. https://doi.org/10.1016/j.jes.2023.06.039
  • Milman, A., Okumus, F., & Dickson, D. (2010). The contribution of theme parks and attractions to the social and economic sustainability of destinations. Worldwide Hospitality and Tourism Themes, 2, 338-345. https://doi.org/10.1108/17554211011052245
  • RTM process [Internet]; [cited 2023 Dec 25]. Available from: http://www.kossecomposite.com/muhendislik.html
There are 20 citations in total.

Details

Primary Language English
Subjects Mechanical Engineering (Other)
Journal Section Research Article
Authors

Yusuf Uzun 0000-0002-7061-8784

Mehmet Kayrıcı 0000-0003-1178-5168

Nazmi Türkhan 0009-0002-2866-6544

Dila Yaz 0009-0000-3435-127X

Early Pub Date May 22, 2024
Publication Date June 20, 2024
Submission Date February 7, 2024
Acceptance Date May 22, 2024
Published in Issue Year 2024 Volume: 8 Issue: 2

Cite

APA Uzun, Y., Kayrıcı, M., Türkhan, N., Yaz, D. (2024). Water park of the future: Monarch butterfly slide with eco-friendly design and smart water management. European Mechanical Science, 8(2), 78-84. https://doi.org/10.26701/ems.1430128
AMA Uzun Y, Kayrıcı M, Türkhan N, Yaz D. Water park of the future: Monarch butterfly slide with eco-friendly design and smart water management. EMS. June 2024;8(2):78-84. doi:10.26701/ems.1430128
Chicago Uzun, Yusuf, Mehmet Kayrıcı, Nazmi Türkhan, and Dila Yaz. “Water Park of the Future: Monarch Butterfly Slide With Eco-Friendly Design and Smart Water Management”. European Mechanical Science 8, no. 2 (June 2024): 78-84. https://doi.org/10.26701/ems.1430128.
EndNote Uzun Y, Kayrıcı M, Türkhan N, Yaz D (June 1, 2024) Water park of the future: Monarch butterfly slide with eco-friendly design and smart water management. European Mechanical Science 8 2 78–84.
IEEE Y. Uzun, M. Kayrıcı, N. Türkhan, and D. Yaz, “Water park of the future: Monarch butterfly slide with eco-friendly design and smart water management”, EMS, vol. 8, no. 2, pp. 78–84, 2024, doi: 10.26701/ems.1430128.
ISNAD Uzun, Yusuf et al. “Water Park of the Future: Monarch Butterfly Slide With Eco-Friendly Design and Smart Water Management”. European Mechanical Science 8/2 (June 2024), 78-84. https://doi.org/10.26701/ems.1430128.
JAMA Uzun Y, Kayrıcı M, Türkhan N, Yaz D. Water park of the future: Monarch butterfly slide with eco-friendly design and smart water management. EMS. 2024;8:78–84.
MLA Uzun, Yusuf et al. “Water Park of the Future: Monarch Butterfly Slide With Eco-Friendly Design and Smart Water Management”. European Mechanical Science, vol. 8, no. 2, 2024, pp. 78-84, doi:10.26701/ems.1430128.
Vancouver Uzun Y, Kayrıcı M, Türkhan N, Yaz D. Water park of the future: Monarch butterfly slide with eco-friendly design and smart water management. EMS. 2024;8(2):78-84.

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