Three-body-combined offshore laser radar wind measuring buoyage

Abstract

The invention discloses a three-body-combined offshore laser radar wind measuring buoyage. The three-body-combined offshore laser radar wind measuring buoyage comprises a buoy, a wind measuring laser radar, a motion sensor module, a fan assembly, storage batteries, meteorological measurement modules, a seawater measurement module and a mooring system for positioning, wherein the wind measuring laser radar, the motion sensor module, the fan assembly, the storage batteries, the meteorological measurement modules and the seawater measurement module are mounted on the buoy. The buoyage can combine the laser radar and the ocean buoy and has advantages in cost and use flexibility in a working process for finishing corresponding offshore wind profile measurement; further, the buoy adopts a three-body-combined structure, the motion response amplitude in waves is smaller, the hydrodynamic performance is excellent, the structural components are convenient and easy to dismount and assemble, the size of the buoyage is relatively small and can meet the requirement for loading into a standard container, package and transport of the whole system by the container can be realized, requirements of land transportation and sea transportation can be met, and the buoyage has the advantages of convenience, rapidness, high flexibility, high price/performance ratio and the like in an optional mode of transportation.

Description

technical field [0001] The invention belongs to the field of wind profile measurement of offshore wind field and marine data buoy. Background technique [0002] With the development of science and technology in human society, governments of various countries have increased policy support and capital investment in the development of new energy, especially in the development and utilization of offshore wind energy resources. The development prospects of the offshore wind power industry are promising, and in the future, it will gradually develop towards large-scale, large-scale and large-scale deep waters. In the process of development and utilization of offshore wind energy resources, the abundance of wind energy resources will directly affect the development cost and investment benefits. Therefore, at the beginning of offshore wind energy development, the collection of high-precision, high-reliability The wind profile data is very important, it is an important basis for offs...

AI Technical Summary

Problems solved by technology

However, with the development of offshore wind power in the deep sea, the cost and difficulty of design, construction, operation and maintenance of large offshore wind measuring towers have increased sharply; in the measurement of wind conditions, only discontinuous wind speed and direction data in the horizontal direction can be collected, such as wind shear Important wind data such as variable wind conditions and turbulence cannot be collected; a large offshore wind measuring tower is a fixed offshore structure, and there is no flexibility at all when changing the location of the sea area

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