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Year 2024, Volume: 9 Issue: 1, 12 - 28, 10.06.2024

Mehmet Gürsoylu Ahmet Erkliğ Burhan Şahin

Abstract

References

  • [1] Mısır, M., & Mısır, N. (2021). Evaluation of forest fires in terms of Climate Change. Forest Fires, 33.
  • [2] Flannigan, M. D., Stocks, B. J., & Wotton, B. M. (2000). Climate change and forest fires. Science of the total environment, 262(3), 221-229.
  • [3] YILDIZ, D., & ÖZGÜLER, H. (2021). Kuraklık, Orman Yangınları ve Ekosistem Dengesi.
  • [4] Restas, Agoston. "Examining the effectiveness of aerial firefighting with the components of firebreak requirements and footprint geometry—Critics of the present practice." Fire 6.9 (2023): 351.
  • [5] Eker, Ö., & Abdurrahmanoğlu, D. M. (2018). ORMAN YANGINLARIYLA MÜCADELE HARCAMALARININ ANALİZİ: KAHRAMANMARAŞ ORMAN BÖLGE MÜDÜRLÜĞÜ ÖRNEĞİ. Turkish Journal of Forest Science, 2(1), 34-48.
  • [6] Stehle, L. M. (2022). Methods to Rapidly Load and Effectively Dispense Firefighting Retardant for Firefighting Aircraft.
  • [7] Satoh, K., Maeda, I., Kuwahara, K., & Yang, K. (2005). A numerical study of water dump in aerial fire fighting. Fire Safety Science, 8, 777-787.
  • [8] Seyzinski, D. T., Georgiev, I., Panayotov, H. P., & Penchev, S. I. (2019, October). Effective use of a helicopter with a Bambi bucket firefighting system in Bulgaria. In IOP Conference Series: Materials Science and Engineering (Vol. 664, No. 1, p. 012005). IOP Publishing.
  • [9] Zhao, X., Zhou, P., Yan, X., Weng, Y., & Yang, X. L. (2018, September). Numerical simulation of the aerial drop of water for fixed-wing airtankers. In 31st International congress of the aeronautical science (ICAS 2018)’Available at https://www. icas. org/ICAS_ARCHIVE/ICAS2018/data/papers/ICAS2018_0474_paper. pdf.
  • [10] Zbigniew, C. Z. Y. Ż., et al. "NUMERICAL CALCULATIONS OF WATER DROP USING A FIREFIGHTING AIRCRAFT." Applied Computer Science 19.3 (2023): 47-63.
  • [11] Shademani, R., Ghadimi, P., Zamanian, R., & Dashtimanesh, A. (2013). Assessment of air flow over an equilateral triangular obstacle in a horizontal channel using FVM. J. Math. Sci. Appl, 1(1), 12-16.
  • [12] Ramesh, M., Vijayanandh, R., Kumar, G. R., Mathaiyan, V., Jagadeeshwaran, P., & Kumar, M. S. (2021). Comparative structural analysis of various composite materials based unmanned aerial vehicle’s propeller by using advanced methodologies. In IOP Conference Series: Materials Science and Engineering (Vol. 1017, No. 1, p. 012032). IOP Publishing.
  • [13] Tsirkas, Sotirios & D, Kanigaridou & V, Basioti & Grammatikopoulos, Spyridon & Koutsojannis, Constantinos. (2021). Exoskeleton Mechanism for Foot Drop Causes. 2. 1-6.

GENERAL PURPOSE FIREFIGHTER HELICOPTER ACCORDION MODEL WATER TANK

Year 2024, Volume: 9 Issue: 1, 12 - 28, 10.06.2024

Mehmet Gürsoylu Ahmet Erkliğ Burhan Şahin

Abstract

In this article, a unique internal tank and water discharge system are studied for the Sikorsky S-70 model helicopter. CAD design was made, CFD and Static Structural analyses are shown in simulated real-life cases. This alternative design has been proposed to encourage aerial fire extinguishing efforts by using a simpler system at a lower cost and to convert general-purpose helicopters into fire helicopters when necessary. The examination of test methodologies simulating real-life scenarios was conducted using Ansys Fluent and Ansys Static Structural. Research findings indicate that the integration of the new generation water tank within the cabin has resulted in substantial enhancements and has diversified aerial extinguishing capabilities.

Keywords

Design Fluent Firefighting Helicopter

References

  • [1] Mısır, M., & Mısır, N. (2021). Evaluation of forest fires in terms of Climate Change. Forest Fires, 33.
  • [2] Flannigan, M. D., Stocks, B. J., & Wotton, B. M. (2000). Climate change and forest fires. Science of the total environment, 262(3), 221-229.
  • [3] YILDIZ, D., & ÖZGÜLER, H. (2021). Kuraklık, Orman Yangınları ve Ekosistem Dengesi.
  • [4] Restas, Agoston. "Examining the effectiveness of aerial firefighting with the components of firebreak requirements and footprint geometry—Critics of the present practice." Fire 6.9 (2023): 351.
  • [5] Eker, Ö., & Abdurrahmanoğlu, D. M. (2018). ORMAN YANGINLARIYLA MÜCADELE HARCAMALARININ ANALİZİ: KAHRAMANMARAŞ ORMAN BÖLGE MÜDÜRLÜĞÜ ÖRNEĞİ. Turkish Journal of Forest Science, 2(1), 34-48.
  • [6] Stehle, L. M. (2022). Methods to Rapidly Load and Effectively Dispense Firefighting Retardant for Firefighting Aircraft.
  • [7] Satoh, K., Maeda, I., Kuwahara, K., & Yang, K. (2005). A numerical study of water dump in aerial fire fighting. Fire Safety Science, 8, 777-787.
  • [8] Seyzinski, D. T., Georgiev, I., Panayotov, H. P., & Penchev, S. I. (2019, October). Effective use of a helicopter with a Bambi bucket firefighting system in Bulgaria. In IOP Conference Series: Materials Science and Engineering (Vol. 664, No. 1, p. 012005). IOP Publishing.
  • [9] Zhao, X., Zhou, P., Yan, X., Weng, Y., & Yang, X. L. (2018, September). Numerical simulation of the aerial drop of water for fixed-wing airtankers. In 31st International congress of the aeronautical science (ICAS 2018)’Available at https://www. icas. org/ICAS_ARCHIVE/ICAS2018/data/papers/ICAS2018_0474_paper. pdf.
  • [10] Zbigniew, C. Z. Y. Ż., et al. "NUMERICAL CALCULATIONS OF WATER DROP USING A FIREFIGHTING AIRCRAFT." Applied Computer Science 19.3 (2023): 47-63.
  • [11] Shademani, R., Ghadimi, P., Zamanian, R., & Dashtimanesh, A. (2013). Assessment of air flow over an equilateral triangular obstacle in a horizontal channel using FVM. J. Math. Sci. Appl, 1(1), 12-16.
  • [12] Ramesh, M., Vijayanandh, R., Kumar, G. R., Mathaiyan, V., Jagadeeshwaran, P., & Kumar, M. S. (2021). Comparative structural analysis of various composite materials based unmanned aerial vehicle’s propeller by using advanced methodologies. In IOP Conference Series: Materials Science and Engineering (Vol. 1017, No. 1, p. 012032). IOP Publishing.
  • [13] Tsirkas, Sotirios & D, Kanigaridou & V, Basioti & Grammatikopoulos, Spyridon & Koutsojannis, Constantinos. (2021). Exoskeleton Mechanism for Foot Drop Causes. 2. 1-6.
There are 13 citations in total.

Details

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

Mehmet Gürsoylu 0009-0004-1094-1493

Ahmet Erkliğ 0000-0003-3906-3415

Burhan Şahin 0000-0002-8777-7925

Publication Date June 10, 2024
Submission Date May 24, 2024
Acceptance Date June 10, 2024
Published in Issue Year 2024 Volume: 9 Issue: 1

Cite

APA Gürsoylu, M., Erkliğ, A., & Şahin, B. (2024). GENERAL PURPOSE FIREFIGHTER HELICOPTER ACCORDION MODEL WATER TANK. The International Journal of Energy and Engineering Sciences, 9(1), 12-28.

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