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Experimental device for solid-state fluidized mining crushing of natural gas hydrate, and experimental method thereof

An experimental device, solid-state fluidization technology, applied in cyclone devices, chemical instruments and methods, measuring devices, etc., can solve the problems of high cost, complex structure, secondary crushing and separation of hydrate particles, and achieve simplified design, The effect of convenient parameter collection

Active Publication Date: 2018-11-16
SOUTHWEST PETROLEUM UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in the mining process, there are still some equipment design problems, process parameters and existing equipment optimization problems, such as the hydraulic parameters of the jet crushing device, the particle size distribution of hydrate particles after crushing, multi-phase transport equipment for hydrate particles, hydrate particle Secondary crushing and separation problems
[0004] At present, mechanical crushing has been adopted in the solid-state fluidization mining of natural gas hydrate, but there are two problems in this method: one is that the operation of crushing machinery on the seabed requires a large amount of energy to be transported from the ground to the seabed, which requires the laying of submarine power lines, and there are also The maintenance of mechanical equipment in the later stage; second, after the mechanical equipment crushes hydrate, a set of equipment is still required to transport the crushed hydrate mixed with seawater to the water surface, and the operation of multiple sets of equipment is complex and costly

Method used

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  • Experimental device for solid-state fluidized mining crushing of natural gas hydrate, and experimental method thereof
  • Experimental device for solid-state fluidized mining crushing of natural gas hydrate, and experimental method thereof
  • Experimental device for solid-state fluidized mining crushing of natural gas hydrate, and experimental method thereof

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specific Embodiment 1

[0037] Such as figure 1 and figure 2 As shown, the present invention provides a natural gas hydrate solid fluidization mining crushing experimental device, the experimental device includes: power fluid supply module 1, hydrate suction module 2, pipeline delivery module 3, hydrate fluidization crushing module 4 , secondary processing module 5 and experimental data information collection and processing module 6.

[0038] Among them, the power fluid supply module 1, which generates power fluid to provide power for the hydrate suction module 2 and the hydrate fluidization crushing module 4; Hydrate; the pipeline transport module 3, which includes an input pipeline 31 and an output pipeline 32, the input pipeline 31 transports the power fluid to the hydrate fluidization crushing module 4, and the output pipeline 32 transports the crushed hydrate to the hydrate suction module 2; The materialized crushing module 4 comprises an experimental tank 41, a support frame 42 placed above ...

specific Embodiment 2

[0045] Such as figure 1 As shown, according to the first embodiment, it can be further improved that the power fluid outlet 11 of the power fluid supply module 1 and or the fluid output port 24 of the hydrate suction module 2 are equipped with a flow and or pressure regulating device.

[0046] The experimental method of the improved experimental device is the same as the experimental method of the specific embodiment 1. The improvement of this embodiment is to change the pressure and flow of multiple points, including the pressure and flow of the power fluid outlet 11 and or the fluid output port 24, To find the best pressure and flow parameters of the experimental device.

specific Embodiment 3

[0047] Such as figure 1 , figure 2 and Figure 4 As shown, according to the first embodiment, the further improvement is that the vertical heights of the high pressure jumper pipe 45 and the suction jumper pipe 46 can be adjusted through the clamp 433 fixed on the moving slider 432 . The jet nozzle 471 is fixed on the spray head 47 through threads, and the spray head 47 is fixed on the high pressure jumper pipe 45 through threads; the recovery head 48 is fixed on the suction jumper pipe 46 through threads.

[0048] The experimental method of the improved experimental device is the same as the experimental method of the specific embodiment one. The improvement of this embodiment is that the high-pressure jumper 45, the suction jumper 46, the spray nozzle 47, the jet nozzle 471 and the recovery head are detachable to realize Multiple parameters can be adjusted, including adjusting the distance between the jet nozzle 471 and the sample 49, and replacing the jet nozzle 471 and / ...

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Abstract

The invention discloses an experimental device for solid-state fluidized mining crushing of natural gas hydrate. The experimental device comprises a power liquid supply module, a hydrate suction module, a pipeline conveying module, a hydrate fluidized crushing module, a secondary machining module and an experimental data information collecting and processing module. An experimental method of the experimental device comprises the steps that the power liquid supply module, the hydrate suction module, the pipeline conveying module, the hydrate fluidized crushing module and the secondary machiningmodule are started; and the experimental data information collecting and processing module collects pressure and flow data at multiple positions. The experimental device for solid-state fluidized mining crushing of the natural gas hydrate, and the experimental method thereof have the beneficial effects that a flow-jet solid fluidized mining process is simulated, meanwhile, a plurality of pressureand flow detecting points and crushed sample sampling openings are formed, and thus parameter collecting is conducted conveniently; the parameters of the multiple parts are flexible and variable andcomprise change of the dragging-back speed of a movable sliding block, the shape parameters of jet flow nozzles and the power liquid pressure and flow rate; and the experimental device is simplified through the design of spraying heads, and thus the dynamic process of jet flow crushing can be observed from the side face of an experimental groove.

Description

technical field [0001] The present invention relates to a natural gas hydrate solid fluidized mining crushing experimental device and experimental method, in particular to a natural gas hydrate solid fluidized mining crushing and recovery separation method suitable for deep-sea non-diagenetic natural gas hydrate solid fluidized jet mining Crushing test device and test method. Background technique [0002] Natural gas hydrate is an alternative energy source with development potential, and its total amount is about twice that of other fossil energy sources combined. About 85% of the gas hydrate in the South my country Sea occurs in the shallow sediments of the deep seabed in the form of weak cementation (non-diagenetic). At present, natural gas hydrate production methods include injection method, depressurization method, chemical agent injection method and the combined application of the above methods. Decomposition to generate natural gas has the potential risk of causing g...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E21B43/01E21B49/00
CPCE21B43/01E21B49/00E21B41/0099G01N1/286B02C19/068B04C9/00G01N2001/002B01D21/267B02C23/10
Inventor 王国荣杨浦周守为付强李清平钟林何玉发王雷振
Owner SOUTHWEST PETROLEUM UNIV
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