Applied Sciences (Oct 2023)

Design and Analysis of the High-Speed Underwater Glider with a Bladder-Type Buoyancy Engine

  • Dae-Hyeong Ji,
  • Jung-Han Lee,
  • Sung-Hyub Ko,
  • Jong-Wu Hyeon,
  • Ji-Hyeong Lee,
  • Hyeung-Sik Choi,
  • Sang-Ki Jeong

DOI
https://doi.org/10.3390/app132011367
Journal volume & issue
Vol. 13, no. 20
p. 11367

Abstract

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This study entailed the design and analysis of a 400 m class underwater glider operated by a bladder-type buoyancy engine. The underwater glider was designed for high-speed movement with a maximum velocity of 2 knots. The shape of the hull was designed to reduce water resistance using the Myring hull profile equation. The reliability was verified by performing simulations using resistance coefficients. The relationship between the control value of the ballast discharged from the buoyancy engine and the glider’s speed according to the path angle was analyzed. Further, the relationship between the optimal glide angle and the design control value of the ballast was derived, and the optimal glider speed was estimated accordingly. Based on the analysis results, a bladder-type buoyancy engine was developed, and the maximum speed of the tested underwater glider was measured via sea trials.

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