Medium-shallow water homodromous wave current generating method and experimental water channel

A water tank and shallow water technology, which is applied in the experimental research of coast and offshore engineering, and in the field of ports, to achieve the effect of saving experimental water and saving experimental costs

Inactive Publication Date: 2013-10-09
SOUTHWEST PETROLEUM UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] The above-mentioned experimental device can only create waves or currents alone, while waves and currents exist in the actual ocean environment. A multi-functional experimental water tank that creates waves and currents at the same time, for teaching and research use

Method used

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  • Medium-shallow water homodromous wave current generating method and experimental water channel
  • Medium-shallow water homodromous wave current generating method and experimental water channel
  • Medium-shallow water homodromous wave current generating method and experimental water channel

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0035] Embodiment 1: In order to carry out the dynamic response test of the structure under the action of waves, after the installation of the experimental water tank 1 is completed, the water storage tank 22 is filled with water, and the outlet gate 11 of the side flow channel 12 and the valve 20 on the tail drop pipe 17 are closed , open the inlet gate 8 and the tail gate 13 of the shunt channel 4, and install the wave absorbing device 16 at the tail end of the water tank 1; open the water pump 23, and the water pump 23 absorbs water from the water storage tank 22 to supply water to the reservoir 3 through the water supply pipe 25, and passes the water depth scale 32 Observe the change of the water depth in the tank 1, and when the liquid level in the tank 1 reaches a predetermined height, close the inlet gate 8 and the water pump 23; start the wave maker 9, and the wave maker 9 pushes the wave plate 10 to move forward to realize wave making , by controlling the driving frequ...

Embodiment 2

[0036] Embodiment 2: In order to carry out the dynamic response test of structures under the action of ocean currents, after the installation of the experimental water tank 1 is completed, the water storage tank 22 is filled with water, the tail gate 13 is closed, the entrance gate 8 and the exit gate 11 are opened; the water pump 23 is turned on , the water pump 23 absorbs water from the water storage tank 22 to supply water to the reservoir 3 through the water supply pipe 25, adjusts the liquid level height of the reservoir 3 by adjusting the opening of the inlet gate 8, and the liquid level height of the reservoir 3 can be measured by the water level probe 26; The opening degree of the gate 11 is used to adjust the height of the liquid level of the water tank 1, which can be measured by the water depth scale 32; the flow direction of the water flow into the water tank 1 can be changed by adjusting the angle of the deflector of the flow guide device 7, so that the inflow direc...

Embodiment 3

[0037] Embodiment 3: In order to carry out the dynamic response test of the structure under the joint action of waves and currents, after the installation of the experimental water tank 1 is completed, fill the water storage tank 22 with water, close the tail gate 13, close the valve 20 on the tail drop pipe 17, and open The inlet gate 8 and the outlet gate 11; open the water pump 23, the water pump 23 absorbs water from the water storage tank 22 to supply water to the reservoir 3 through the water supply pipe 25, adjust the liquid level height of the reservoir 3 by adjusting the opening of the inlet gate 8, and the liquid level height of the reservoir 3 It can be measured by the water level probe 26; the height of the liquid level in the tank 1 can be adjusted by adjusting the opening of the outlet gate 11, and the height of the liquid level in the tank 1 can be measured by the water depth scale 32; the angle of the deflector can be changed by adjusting the deflector 7 The flo...

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Abstract

The invention discloses a medium-shallow water homodromous wave current generating method and an experimental water channel. The generating method and the experimental water channel are characterized in that flow distribution channels which are symmetrically bent to the water channel are formed in the two ends of a reservoir, one end of the water channel is fixed on the ground through a triangular fixing support, the other end of the water channel is supported by a lifter, changes of the slope of the water channel can be achieved through adjustment of the lifting height of the lifter, the front end of the water channel is provided with a wave generation plate connected with a wave generation machine, the tail end of the water channel is provided with a side flow channel, a wave-eliminating fixed slope, an arc lifting plate and a wave eliminating device, the tail end of the side flow channel of the water channel is connected with a down pipe and then connected to a water storage tank through a collecting pipe, the water storage tank is connected with a water supply pipe, the tail end of the water supply pipe perpendicularly stretches into the reservoir, and water supply for the reservoir is achieved with the action of a water pump. According to the manufacturing method and the experimental water channel, independent wave current generating can be achieved, homodromous wave current generating also can be achieved, and the experimental research and teaching requirement for load response of a structural object under the action of wave currents at the same time can be met.

Description

technical field [0001] The invention relates to the field of port, coast and offshore engineering test research, in particular to a method for manufacturing co-directional wave flow in medium and shallow water and an experimental water tank. Background technique [0002] The 21st century is the century of the ocean. With the rapid development of society, the demand for energy in various countries is increasing day by day. It has become an inevitable trend to vigorously exploit and develop offshore oil and gas. The oil and gas resources in the sea area under our jurisdiction are very rich, especially in the South my country Sea, which is known as the second "Persian Gulf". In recent years, in order to vigorously develop marine resources, many oil production platforms and drilling platforms have been built in offshore waters and a large number of submarine oil pipelines have been laid. Nearshore waves are one of the most important dynamic factors in the nearshore marine envir...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01M10/00
Inventor 朱红钧林鹏智戚兴刘清友林元华冯光周守为姜伟赵洪南
Owner SOUTHWEST PETROLEUM UNIV
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