Abstract
As a new type of underwater observation platform, underwater glider is widely used in marine explorations and military surveys, and most gliders are powered by their own batteries whose capacities are limited. It is therefore necessary to analyze the energy consumption of underwater glider. In this article, the variation law of seawater density changing with depth is considered; based on the theory of rigid body dynamics, the motion model of blended-wing-body underwater glider is established; the energy consumption model of each component module is accounted by analyzing the energy consumption composition in the working process of blended-wing-body underwater glider; and the energy consumption under different navigation depths, different glide ratios, and different buoyancy adjustments regulation is simulated. The results demonstrate that as the glide depth is increased, the total energy consumption increases in a single cycle and decreases per gliding distance, leading to a smaller energy consumption ratio for the attitude adjustment module; on the other hand, as the buoyancy adjustment is increased, more energy is consumed in a single cycle and less energy is consumed per gliding distanced, resulting in a larger energy consumption ratio for the attitude adjustment module. As the glide ratio increases, the total energy consumption in a single cycle first increases and then decreases, while the energy consumption of per gliding distance and the energy consumption ratio of the attitude adjustment module are decreased.
Highlights
Underwater glider is a new type of ocean exploration platform which combines the technology of float and underwater robot, whose basic principle is to realize the gliding motion of floating up and diving by adjusting the size of gravity or buoyancy and the position of centroid
The most advanced underwater gliders mainly include Slocum Electric Glider produced by Webb Company, Seaglider developed by Washington University, Spray Glider developed by Scripps Institute of Oceanography,[5] Sea-Wing Glider
Developed by China Shenyang Institute of Automation, and the new blended-wing-body layout underwater glider Xray and Zray developed by US Navy Laboratory.[6]
Summary
Underwater glider is a new type of ocean exploration platform which combines the technology of float and underwater robot, whose basic principle is to realize the gliding motion of floating up and diving by adjusting the size of gravity or buoyancy and the position of centroid. Underwater glider can carry out a large-scale and longterm monitoring task of marine environmental parameters in the target sea area by carrying a variety of detection sensors with different functions It has the advantages of low energy consumption, long endurance, low maintenance cost, and high concealment. In order to analyze the energy consumption of underwater glider, this article takes the self-designed underwater glider with blended-wing-body layout as an example, considering the law of seawater density changing with depth. The energy consumption components of the blended-wing-body underwater glider are analyzed, and the energy consumption models of each component module are established respectively. In order to establish the energy consumption model of blended-wing-body underwater glider, there are some assumptions as following: Motion model. Before establishing the motion model, two coordinate systems are defined: the ground coordinate system O0x0y0 and
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