CN107575198A - A kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation - Google Patents

Abstract

The invention discloses a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation, it is related to gas hydrates development field.Device includes air supply system, liquid-supplying system, simulation system, frac system, flood pattern, production system and monitoring system, apparatus of the present invention use main body of the back-up sand case as simulation system, can the row's of simulation formula horizontal-well network, pass through air supply system, liquid-supplying system supplies natural gas into simulation system and water forms gas hydrates, fracturing work is implemented to simulation gas hydrates storage by frac system, driven water-replacing and chemical agent are injected by flood pattern to exploit to simulate chemical flooding, produced gas and water are implemented to collect by production system, complete monitoring is implemented to experimentation by monitoring system, experimental provision of the present invention is implemented to simulate using three dimensional constitution to chemical flooding exploitation of gas hydrate, there is certain directive function to the research of gas hydrates chemical flooding withdrawal mechanism.

Description

A kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation

Technical field

The invention discloses a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation, it is related to natural gas Hydrate development field, it is particularly used for simulating a kind of laboratory experiment dress of row's formula horizontal well chemical flooding exploitation of gas hydrate Put.

Background technology

Gas hydrates (natural gas hydrate, abbreviation NGH) are natural gases under certain low temperature, high pressure The non-stoichiometry cage compound formed with water, also referred to as " combustible ice ".1m³Gas hydrates can contain 164m³Methane gas And 0.8m³Water." combustible ice " is the product of growing nonparasitically upon another plant of natural gas, and application is roughly the same with natural gas, is a kind of typical Oil substitutes." combustible ice " easily burns, under equal conditions, energy ratio coal caused by " combustible ice " burning, oil, natural Gas will be higher by decades of times, be described as " belonging to the super energy that end is come ".

The flammable ice reserves very abundant in China, according to investigation, the gas hydrates in China are mainly distributed on south Marine site, Area of The East China Sea, Qinghai-Tibet tundra and northeast tundra.

Artificially break the phase balance condition that gas hydrates are stabilized, promote its decomposition, be that current exploitation is natural The main method of gas hydrate.According to the equilbrium phase diagram of gas hydrates, heating, chemical method, decompression can be generally divided into The class of method three.

Heating：Steam, hot water, hot salt brine or other hot fluid mediums are mainly pumped into natural gas by the method from ground Hydrate reservoir, also using the fire flooding used when exploiting heavy oil or drill string heater can be utilized.Hot production technique it is main not Foot is to cause substantial amounts of heat loss, and efficiency is very low.

Add chemical agent：The chemical agent such as some chemical agents, salt solution, methanol, ethanol, ethylene glycol, glycerine can change Become the phase balance condition of gas hydrate synthesis, reduce hydrate equilibrium temperature.The shortcomings that adding chemical agent maximum is that expense is too expensive. Because the pressure of big midocean gas hydrates is higher, thus the method should not be used.

Voltage drop method：Cause the movement of the stable phase equilibrium line of gas hydrates by reducing pressure, so as to reach Promote the purpose of gas hydrate dissociation.Free gas under exploitation hydrate layer is that the one kind for reducing reservoir pressure has efficacious prescriptions Method, the purpose of control reservoir pressure can be reached additionally by the extraction rate of regulation natural gas, and then controls hydrate The effect of decomposition.The characteristics of voltage drop method maximum is continuous agitation that need not be expensive, thus it is likely to become and opened on a large scale from now on Adopt one of effective ways of gas hydrates.

But exploitation of gas hydrates technology is opened gas hydrates still in stage of fumbling, countries in the world at present Hair not yet makes the standard of a sleeve forming, and the method for in-house laboratory investigation is still the main body of combustible ice production technique research, CN101710088A announces a kind of gas hydrates generation and decomposition test method and device, passes through one-dimensional back-up sand resistivity mould Type pipe implements simulated experiment to gas hydrates.CN103206210B announces a kind of hot fluid pressure break exploitation of gas hydrate The experimental provision of Tibetan, supervised by the axle frac system of hydrate core three, pressure break flood pattern, natural gas extraction system and sound emission Examining system implements gas hydrates simulated experiment.CN101246117B announces a kind of gas hydrates synthesis and macromechanics Property comprehensive experimental system, by gas hydrates synthesis module, mechanical property experiment module and microscopic measurement module to day Right gas hydrate carries out simulated experiment.Above-mentioned patent equipment can not simulation water horizontal well exploitation of gas hydrate, and be unable to reach Visualized experiment.CN105909224A announces a kind of experiment dress of dual horizontal well electrical heating secondary buck exploitation of gas hydrate Put and method of work, pass through gas injection system, power system, gas hydrates reaction system, data monitoring processing system, gas-liquid Separate measurement system carries out simulated experiment to gas hydrates.But stored up using power system heated natural gas hydrate merely Tibetan can not simulate horizontal well displacement operation in actual production.In view of this, the present inventor proposes a kind of simulation gas hydrates The device of row's formula horizontal well chemical flooding exploitation, to meet the requirement of current three-dimensional simulation experimental provision, and overcomes prior art Defect, and apparatus of the present invention main body is transparent visual material, can carry out finer sight to chemical flooding exploitation of gas hydrate Examine.

The content of the invention

The invention discloses a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation, device includes supplying Gas system, liquid-supplying system, simulation system, frac system, flood pattern, production system and monitoring system, apparatus of the present invention are adopted By the use of back-up sand case as the main body of simulation system, natural gas and water shape are supplied into simulation system by air supply system, liquid-supplying system Into gas hydrates, fracturing work is implemented to simulation gas hydrates storage by frac system, noted by flood pattern Enter driven water-replacing and chemical agent to simulate chemical flooding exploitation, produced gas and water are implemented to collect by production system, are by monitoring System implements complete monitoring to experimentation, and experimental provision of the present invention is real to chemical flooding exploitation of gas hydrate using three dimensional constitution Simulation is applied, has certain directive function to the research of gas hydrates chemical flooding withdrawal mechanism.

Wherein described air supply system is connected with simulation system, and the liquid-supplying system is connected with simulation system, the pressure Split system with simulation system to be connected, the flood pattern is connected with simulation system, the production system and simulation system phase Connection, the monitoring system respectively with the air supply system, liquid-supplying system, simulation system, frac system, flood pattern and production System is connected.

The air supply system is used to provide natural gas for synthesis of natural gas hydrate inside the simulation system；The feed flow System is used to provide water for synthesis of natural gas hydrate inside the simulation system；The frac system is used for real to simulation system Apply fracturing work；The flood pattern is used to inject driven water-replacing and chemical agent for the simulation system, to simulate actual production Middle water injection well；The production system is used to produce caused natural gas and water in the simulation system, and analyzes the output gas Yield, aquatic products amount, to simulate producing well in actual production；The simulation system be used for simulate gas hydrates pressure, Temperature, saturation degree, permeability and conventional formation parameter, and simulate and formula horizontal well hole pattern is arranged in gas hydrates； The monitoring system is used for air supply system, liquid-supplying system, simulation system, frac system, flood pattern, production described in real-time collecting System operational parameters, data caused by writing task parameter, and experimental implementation is controlled by monitoring system.

Preferably, air supply system of the invention includes natural gas bottle, control valve, supercharging device, gas flowmeter, pressure Sensor, temperature sensor, high pressure line, tap valve；Natural gas bottle outlet is connected to supercharging device by high pressure line and entered Mouthful, control valve plays the feed speed effect of regulation natural gas, supercharging device outlet between natural gas bottle and supercharging device Tap valve inlet is connected to by high pressure line, gas flowmeter, pressure sensor, temperature sensor be located at supercharging device with Between tapping valve, play a part of monitoring gas flow, pressure, temperature, tap valve export is connected with the simulation system Connect.

Natural gas bottle is conventional chambers experimental facilities in the air supply system, the control valve be with signal transmission and The traditional regulation valve arrangement of remote control function, the gas flowmeter, pressure sensor, temperature sensor are with signal The conventional chambers experimental facilities of transfer function, the tap valve is the conventional chambers experimental facilities with diverter function, described Supercharging device can be constant speed pump group, constant current pump group, constant pressure pump group and other application in the pump group of laboratory experiment.

Preferably, liquid-supplying system of the invention includes water storage device, control valve, supercharging device, fluid flowmeter, pressure Sensor, temperature sensor, high pressure line, tap valve；Water storage device outlet is connected to supercharging device by high pressure line and entered Mouthful, control valve plays the feed speed effect of regulation water between water storage device and supercharging device, and supercharging device outlet passes through High pressure line is connected to tap valve inlet, and fluid flowmeter, pressure sensor, temperature sensor are located at supercharging device and tap Between valve, play a part of monitoring fluid flow, pressure, temperature, tap valve export is connected with the simulation system.

In the liquid-supplying system water storage device include water bottle, intermediate receptacle, beaker and other there is the routine of water storage function Laboratory experiment equipment, the water storage device internal liquid include stratum water, seawater, simulated formation water and other experimental waters, institute Control valve is stated as the traditional regulation valve arrangement with signal transmission and remote control function, the fluid flowmeter, pressure Sensor, temperature sensor are the conventional chambers experimental facilities with signal transfer functions, and the tap valve is with shunting The conventional chambers experimental facilities of function, the supercharging device can be constant speed pump group, constant current pump group, constant pressure pump group and other should Pump group for laboratory experiment.

Preferably, frac system of the invention includes water storage device, agitating device, control valve, supercharging device, liquid flow Gauge, pressure sensor, temperature sensor, high pressure line, check-valves, water injection well attachment means；Water storage device outlet passes through height Pressure pipeline is connected to agitating device entrance, for will feed agitating device with liquid water inside water storage device, and in agitating device Mixing forms fracturing fluid with liquid water and additive, and agitating device outlet connects supercharging device entrance, regulating valve by high pressure line For door between agitating device and supercharging device, supercharging device outlet is connected to water injection well attachment means, liquid by high pressure line Flowmeter body, pressure sensor, temperature sensor, check-valves play prison between supercharging device and water injection well attachment means The effect of flow quantity, pressure, temperature is split in pressure measurement, and prevents fracturing fluid from flowing back, water injection well attachment means and the simulation system phase Connection.

In the frac system water storage device include water bottle, intermediate receptacle, beaker and other there is the routine of water storage function Laboratory experiment equipment, the water storage device internal liquid include the experimental water for being applied to configuration fracturing fluid, the agitating device For the conventional chambers experimental facilities with agitating function, the control valve is normal with signal transmission and remote control function Control valve equipment is advised, the supercharging device can be constant speed pump group, constant current pump group, constant pressure pump group and other application in interior The pump group of experiment, the fluid flowmeter, pressure sensor, temperature sensor are real for the conventional chambers with signal transfer functions Equipment is tested, the check-valves is the conventional chambers experimental facilities with individual event circulating function, and the water injection well attachment means are tool There is the conventional chambers experimental facilities of connection simulation water injection well and sealing function.

Preferably, flood pattern of the invention includes water storage device, control valve, supercharging device, fluid flowmeter, pressure Sensor, temperature sensor, high pressure line, three-way connection, check-valves, liquid intermediate receptacle, agitating device, tap valve, note Well attachment means；Water storage device outlet is connected to supercharging device entrance by high pressure line, and control valve is located at water storage device Between supercharging device, the feed speed effect of regulation driven water-replacing is played, supercharging device outlet is connected to threeway by high pressure line Fitting inlet, fluid flowmeter, pressure sensor, temperature sensor, check-valves rise between supercharging device and three-way connection To the effect of monitoring displacement water-carrying capacity, pressure, temperature, and prevent driven water-replacing from flowing back；The outlet of liquid intermediate receptacle passes through high-voltage tube Line is connected to supercharging device entrance, and control valve plays regulation liquid supply between liquid intermediate receptacle and supercharging device Speed is acted on, and liquid intermediate receptacle exit is provided with check-valves, prevents liquid from flowing back, and supercharging device outlet is connected by high pressure line Agitating device entrance is connect, agitating device is used to the liquid agitation that supercharging device is fed chemical agent is uniformly made, and agitating device goes out Mouth is connected to three-way connection entrance by high pressure line, and fluid flowmeter, pressure sensor, temperature sensor, check-valves are located at Between agitating device and three-way connection, play a part of the chemical agent flux of monitoring, pressure, temperature, and prevent chemical agent from flowing back；Three Pass joint is connected to tap valve by high pressure line, and tap valve is connected to water injection well attachment means by high pressure line, noted Well attachment means are connected with the simulation system.

In the flood pattern water storage device include water bottle, intermediate receptacle, beaker and other there is the routine of water storage function Laboratory experiment equipment, the control valve is the traditional regulation valve arrangement with signal transmission and remote control function, described Fluid flowmeter, pressure sensor, temperature sensor are the conventional chambers experimental facilities with signal transfer functions, the supercharging Device can be that constant speed pump group, constant current pump group, constant pressure pump group and other application are in the pump group of laboratory experiment, the check-valves Conventional chambers experimental facilities with individual event circulating function, the agitating device set for the conventional chambers experiment with agitating function Standby, the tap valve is the conventional chambers experimental facilities with diverter function, and the water injection well attachment means are with connection Simulate the conventional chambers experimental facilities of water injection well and sealing function.

Preferably, production system of the invention includes producing well attachment means, tap valve, control valve, pressure sensing Device, temperature sensor, high pressure line, back-pressure valve, gas-liquid separator, water storage device, gas intermediate receptacle；Producing well attachment means It is connected with tap valve by high pressure line, back pressure valve inlet is connected with tap valve by high pressure line, control valve, pressure Sensor, temperature sensor play a part of monitoring output object pressure, temperature, back pressure between tap valve and back-pressure valve Valve plays the effect of simulated formation pressure, and the back pressure valve outlet is connected with gas-liquid separator, and gas-liquid separator is real by output object Gas-liquid separation is applied, and output water is fed into water storage device, output gas feeds gas intermediate receptacle；Producing well attachment means and simulation System is connected, and output object caused by simulation system work enters production system by producing well attachment means.

Producing well attachment means are the conventional room with connection simulated production well head and sealing function in the production system Interior experimental facilities, the tap valve are the conventional chambers experimental facilities with diverter function, and the control valve is with letter Number transmission and remote control function traditional regulation valve arrangement, the pressure sensor, temperature sensor be with signal pass The conventional chambers experimental facilities of transmission function, the back-pressure valve are the conventional chambers experimental facilities with back pressure function, the gas-liquid Separator is the conventional chambers experimental facilities with gas-liquid separating function, and the water storage device includes water bottle, intermediate receptacle, beaker And other have the conventional chambers experimental facilities of water storage function.

Preferably, simulation system of the invention include insulating box, reaction vessel, simulation water injection well, simulated production well head, Air supply inlet, feed flow entrance, temperature measuring equipment, pressure tester, bolt hole, upper cover plate, simulation wellbore hole, simulation sand body, X ray occur Device, X ray detector；Reaction vessel is the high pressure resistant clear sheet of cuboid, and the upper cover plate is located at the reaction vessel top, The cuboid confined space formed by bolt hole with bolt seal, simulation water injection well, simulated production well head, temperature measuring equipment connect Mouth, pressure tester interface are respectively positioned on upper cover plate surface, and the air supply inlet, feed flow entrance are located at reaction vessel surface, simulate sand Body is located at reaction vessel interior, and for simulation wellbore hole inside simulation sand body, the temperature measuring equipment and the pressure tester are located at mould Intend inside sand body, X-ray emitter, X ray detector be located at reaction vessel both sides, the reaction vessel, simulate water injection well, Simulated production well head, air supply inlet, feed flow entrance, temperature measuring equipment, pressure tester, bolt hole, upper cover plate, simulation wellbore hole, simulation Sand body, X-ray emitter, X ray detector are respectively positioned in insulating box.

The reaction vessel is the high pressure resistant high strength glass of rectangular shape, its length, width range 1-2m, height model Enclose for 0.5-1m, thickness range 3-10cm, highest simulated storage pressure 35Mpa, the reaction vessel and upper cover plate contact surface Provided with sealing ring, for increasing simulation system sealing, the sealing ring material is high pressure resistant rubber, and the temperature measuring equipment is tool There are temperature-monitoring function and the conventional chambers experimental facilities of signal transfer functions, the pressure tester is with pressure monitoring function And the conventional chambers experimental facilities of signal transfer functions, the simulation sand body include quartz sand, rock core powder and other conventional moulds Intend storage sand body.

The simulation wellbore hole includes stainless steel tube, sealing original paper and drawing out type filler, will be simulated by sealing original paper Pit shaft is fixed on upper cover plate surface, and stainless steel tube includes simulation straight well section, dummy level section and analogue perforation, natural to simulate Gas hydrate storage in horizontal well, the drawing out type filler include rubber bar, nylon rod, and other have it is low temperature resistant, With deformation function, the filler with some strength.

The specifically used method of simulation wellbore hole is：When simulation sand body is added in reaction vessel, simulation wellbore hole is placed In sand body, drawing out type filler is positioned over inside stainless steel tube, and natural gas and water are fed into reaction vessel and keeps low Warm high pressure, after simulation sand body is internally formed gas hydrates and keeps stable, drawing out type filler is taken out, and will sealing Original paper modulates closure state.

Horizontal water injection well can be in the same direction or reverse with horizontal production well direction in row's formula horizontal-well network 's；Horizontal water injection well and the horizontal segment of horizontal production well can be isometric or non-etc. in row's formula horizontal-well network Long；Horizontal water injection well and horizontal production well can be aligned fashion or dislocation point in row's formula horizontal-well network Cloth；The horizontal flood well horizontal segment depth and the horizontal production well horizontal segment depth can be contour, the levels Water injection well horizontal segment can also be located above or below the horizontal production well horizontal segment.

Valve is tapped in the air supply system by high pressure line with air supply inlet to be connected, and is divided in the liquid-supplying system institute Connect valve by high pressure line with feed flow entrance to be connected, water injection well attachment means and simulation water injection well in the frac system It is connected, water injection well attachment means are connected with simulation water injection well in the flood pattern, producing well in the production system Attachment means are connected with simulated production well head.

The X-ray emitter, X ray detector are connected with monitoring system Computer, send and receive X ray letter Number, it is different from transmitance using absorption of the different densities material to X ray, can be with after being handled by computer data The three-dimensional image of simulation system internal simulation sand body is obtained, can gas hydrates be stored with length, the width of fracturing fracture Degree, direction and other fracturing parameters are intuitively observed.

Preferably, monitoring system of the invention includes computer and transmission cable, the air supply system, liquid-supplying system, mould Plan system, frac system, flood pattern, production system are connected by transmission cable with computer, in experimentation Real-time collecting temperature, pressure, output logistics capacity, x-ray imaging and other experimental datas, and experiment behaviour is controlled by monitoring system Make.

A kind of device beneficial effect of simulation gas hydrates row's formula horizontal well chemical flooding exploitation of the embodiment of the present invention For：

1) air supply system and liquid-supplying system are separate in the present invention, have multiple air supply inlets and confession on reaction vessel surface Liquid entrance, the natural gas and moisture portion for making injection reaction vessel interior are more uniformly distributed, and separate feeding pipe is to mould It is higher that precision is injected when natural gas and water are injected in plan system, by controlling air supply system and liquid-supplying system injection rate, can be simulated Different gas hydrates saturation degree storages.

2) flood pattern and production system of the present invention are all connected to the simulation wellbore hole entrance on upper cover plate surface, and simulation wellbore hole It is in row's formula horizontal well formula branch in reaction vessel interior, it is natural can more accurately simulates row's formula horizontal wells in actual production The design parameter of gas hydrate.

3) reaction vessel main body is transparent, the hydration it is observed that chemical flooding taps natural gas in simulation system of the present invention The change of different time sections simulation sand body, has certain guidance to make to chemical flooding exploitation of gas hydrate study mechanism during thing With.

4) application based on monitoring system, can effectively gather in experiment temperature in different time section, pressure, Liquid output and Other experimental datas, Mathematical Model Analysis can be carried out in input computer in real time, for by Physical simulation experiment and numerical simulation Experimental result is combined.

5) use based on simulation wellbore hole, mould effectively can be carried out to horizontal well hole pattern, perforating modes in actual production Intend, experimental precision can be effectively improved.

6), can be effectively to simulating gas water based on frac system and X-ray emitter, the application of X ray detector Compound storage implements fracturing work, and by X-ray emitter, X ray detector to the length of fracturing fracture, direction and exploitation During crack change three-dimensional synchronously visualization display.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, make required in being described below to embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for For those skilled in the art, it can also be obtained on the premise of not paying creative work according to these accompanying drawings other attached Figure.

Fig. 1 is the structural representation of experimental provision.

Fig. 2 is air supply system detailed construction schematic diagram.

Fig. 3 is liquid-supplying system detailed construction schematic diagram.

Fig. 4 is flood pattern detailed construction schematic diagram.

Fig. 5 is frac system detailed construction schematic diagram.

Fig. 6 is production system detailed construction schematic diagram.

Fig. 7 is simulation system detailed construction schematic diagram.

Fig. 8 is simulation system side view.

Fig. 9 is that upper cover plate arranges schematic diagram.

Figure 10 is simulation wellbore hole structural representation.

Figure 11 is dummy level well pattern aligned fashion schematic diagram in the same direction.

Figure 12 is the reverse aligned fashion schematic diagram of dummy level well pattern.

Figure 13 is that dummy level well pattern is dislocatedly distributed schematic diagram A in the same direction.

Figure 14 is that dummy level well pattern is dislocatedly distributed schematic diagram B in the same direction.

Figure 15 is that dummy level well pattern is reversely dislocatedly distributed schematic diagram A.

Figure 16 is that dummy level well pattern is reversely dislocatedly distributed schematic diagram B.

Figure 17 is dummy level section depth schematic diagram.

Drawing reference numeral：1st, natural gas bottle 2, control valve 3, supercharging device 4, gas flowmeter 5, pressure sensor 6, temperature Sensor 7, high pressure line 8, tap valve 9, water storage device 10, fluid flowmeter 11, check-valves 12, three-way connection 13, methanol Intermediate receptacle 14, ethanol intermediate receptacle 15, agitating device 16, water injection well attachment means 17, producing well attachment means 18, back-pressure valve 19th, gas-liquid separator 20, gas intermediate receptacle 21, insulating box 22, reaction vessel 23, simulation water injection well 24, simulated production well Mouth 25, air supply inlet 26, feed flow entrance 27, temperature measuring equipment 28, pressure tester 29, bolt hole 30, upper cover plate 31, simulation wellbore hole 32nd, sand body 33, X-ray emitter 34, X ray detector 35, drawing out type filler 36, sealing original paper 37, simulation are simulated directly Well section 38, dummy level section 39, analogue perforation 40, stainless steel tube 41, dummy level water injection well 42, dummy level producing well.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.Based on this Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained under the premise of creative work is not made Example is applied, belongs to the scope of protection of the invention.

As shown in figure 1, it is a kind of knot simulated gas hydrates and arrange the device of formula horizontal well chemical flooding exploitation of the present invention Structure schematic diagram, including air supply system, liquid-supplying system, simulation system, frac system, flood pattern, production system and monitoring system System；Wherein described air supply system is connected with simulation system, and the liquid-supplying system is connected with simulation system, the frac system It is connected with simulation system, the flood pattern is connected with simulation system, and the production system is connected with simulation system, institute State monitoring system respectively with the air supply system, liquid-supplying system, simulation system, frac system, flood pattern and production system phase Connection.

The air supply system is used to provide natural gas for synthesis of natural gas hydrate inside the simulation system；The feed flow System is used to provide water for synthesis of natural gas hydrate inside the simulation system；The frac system is used for real to simulation system Apply fracturing work；The flood pattern is used to inject driven water-replacing and chemical agent for the simulation system, to simulate actual production Middle water injection well；The production system is used to produce caused natural gas and water in the simulation system, and analyzes the output gas Yield, aquatic products amount, to simulate producing well in actual production；The simulation system be used for simulate gas hydrates pressure, Temperature, saturation degree, permeability and conventional formation parameter, and simulate and formula horizontal well hole pattern is arranged in gas hydrates； The monitoring system is used for air supply system, liquid-supplying system, simulation system, frac system, flood pattern, production described in real-time collecting System operational parameters, data caused by writing task parameter, and experimental implementation is controlled by monitoring system.

The device that below a kind of above-mentioned simulation gas hydrates are arranged with the exploitation of formula horizontal well chemical flooding is carried out further Description：

As shown in Fig. 2 in the present embodiment, air supply system includes natural gas bottle 1, control valve 2, supercharging device 3, gas stream Gauge 4, pressure sensor 5, temperature sensor 6, high pressure line 7, tap valve 8.

The outlet of natural gas bottle 1 is connected to the entrance of supercharging device 3 by high pressure line 7, and control valve 2 is located at natural gas bottle 1 Between supercharging device 3, regulation natural gas feed speed effect is played, the outlet of supercharging device 3 is connected to point by high pressure line 7 The entrance of valve 8 is connect, gas flowmeter 4, pressure sensor 5, temperature sensor 6 are located between supercharging device 3 and tap valve 8, Play a part of monitoring gas flow, pressure, temperature, the outlet of tap valve 8 is connected with the simulation system, as to simulation System supplies natural gas.

As shown in figure 3, in the present embodiment, liquid-supplying system includes water storage device 9, control valve 2, supercharging device 3, liquid flow Gauge 10, pressure sensor 5, temperature sensor 6, high pressure line 7, tap valve 8.

The outlet of water storage device 9 is connected to the entrance of supercharging device 3 by high pressure line 7, and control valve 2 is located at water storage device 9 Between supercharging device 3, the feed speed effect of regulation water is played, the outlet of supercharging device 3 is connected to tap valve by high pressure line 7 8 entrances of door, fluid flowmeter 10, pressure sensor 5, temperature sensor 6 are located between supercharging device 3 and tap valve 8, played The effect of fluid flow, pressure, temperature is monitored, the outlet of tap valve 8 is connected with the simulation system, as to simulation system Supply water.

As shown in figure 4, in the present embodiment, flood pattern includes water storage device 9, control valve 2, supercharging device 3, liquid flow Gauge 10, pressure sensor 5, temperature sensor 6, high pressure line 7, three-way connection 12, check-valves 11, methanol intermediate receptacle 13, Ethanol intermediate receptacle 14, agitating device 15, tap valve 8, water injection well attachment means 16.

The outlet of water storage device 9 is connected to the entrance of supercharging device 3 by high pressure line 7, and control valve 2 is located at water storage device 9 Between supercharging device 3, the feed speed effect of regulation driven water-replacing is played, the outlet of supercharging device 3 is connected to three by high pressure line 7 The entrance of pass joint 12, fluid flowmeter 10, pressure sensor 5, temperature sensor 6, check-valves 11 are located at supercharging device 3 and threeway Between joint 12, play a part of monitoring displacement water-carrying capacity, pressure, temperature, and prevent driven water-replacing from flowing back；Methanol intermediate receptacle 13rd, the outlet of ethanol intermediate receptacle 14 is connected to the entrance of supercharging device 3 by high pressure line 7, and control valve 2 is located among methanol and held Between device 13, ethanol intermediate receptacle 14 and supercharging device 3, methanol intermediate receptacle 13, the exit of ethanol intermediate receptacle 14 are provided with only Valve 11 is returned, prevents liquid from flowing back, the outlet of supercharging device 3 connects the entrance of agitating device 15 by high pressure line 7, and agitating device 15 is used Chemical agent is uniformly made in the liquid agitation for feeding supercharging device 3, the outlet of agitating device 15 is connected to three by high pressure line 7 The entrance of pass joint 12, fluid flowmeter 10, pressure sensor 5, temperature sensor 6, check-valves 11 are located at agitating device 15 and three Between pass joint 12, play a part of the chemical agent flux of monitoring, pressure, temperature, and prevent chemical agent from flowing back；Three-way connection logical 12 Cross high pressure line 7 and be connected to tap valve 8, tap valve 8 is connected to water injection well attachment means 16, water filling by high pressure line 7 Well attachment means 16 are connected with the simulation system.

As shown in figure 5, in the present embodiment, frac system includes water storage device 9, agitating device 15, control valve 2, supercharging Device 3, fluid flowmeter 10, pressure sensor 5, temperature sensor 6, high pressure line 7, check-valves 11, water injection well attachment means 16。

The outlet of water storage device 9 is connected to the entrance of agitating device 15 by high pressure line 7, for the inside of water storage device 9 to be matched somebody with somebody Liquid water feeds agitating device 15, and mixing forms fracturing fluid with liquid water and additive in agitating device 15, and agitating device 15 goes out Mouth connects the entrance of supercharging device 3 by high pressure line 7, and control valve 2 is between agitating device 15 and supercharging device 3, supercharging The outlet of device 3 is connected to water injection well attachment means 16 by high pressure line 7, and fluid flowmeter 10, pressure sensor 5, temperature pass Sensor 6, check-valves 11 play monitoring pressure break flow quantity, pressure, temperature between supercharging device 3 and water injection well attachment means 16 The effect of degree, and prevent fracturing fluid from flowing back, water injection well attachment means 16 are connected with the simulation system.

As shown in fig. 6, in the present embodiment, production system includes producing well attachment means 17, tap valve 8, control valve 2nd, pressure sensor 5, temperature sensor 6, high pressure line 7, back-pressure valve 18, gas-liquid separator 19, water storage device 9, among gas Container 20.

Producing well attachment means 17 are connected with tap valve 8 by high pressure line 7, the entrance of back-pressure valve 18 and tap valve 8 Connected by high pressure line 7, control valve 2, pressure sensor 5, temperature sensor 6 positioned at tap valve 8 and back-pressure valve 18 it Between, play a part of monitoring output object pressure, temperature, back-pressure valve 18 plays the effect of simulated formation pressure, and the back-pressure valve 18 goes out Mouth is connected with gas-liquid separator 19, and output object is implemented gas-liquid separation by gas-liquid separator 19, and output water is fed into water storage dress 9 are put, output gas feeds gas intermediate receptacle 20, and producing well attachment means 17 are connected with simulation system, simulation system work production Raw output object enters production system by producing well attachment means 17.

As shown in Fig. 7,8,9, in the present embodiment, simulation system includes insulating box 21, reaction vessel 22, simulation water injection well 23rd, simulated production well head 24, air supply inlet 25, feed flow entrance 26, temperature measuring equipment 27, pressure tester 28, bolt hole 29, upper cover plate 30th, simulation wellbore hole 31, simulation sand body 32, X-ray emitter 33, X ray detector 34.

Reaction vessel 22 is the high pressure resistant clear sheet of cuboid, and upper cover plate 30 is located at the top of reaction vessel 22, by bolt hole The 29 cuboid confined spaces formed with bolt seal, simulation water injection well 23, simulated production well head 24, temperature measuring equipment 27, survey Pressure device 28 is respectively positioned on the surface of upper cover plate 30, and the air supply inlet 25, feed flow entrance 26 are located at the surface of reaction vessel 22, simulate sand Body 32 is located inside reaction vessel 22, and simulation wellbore hole 31 is inside simulation sand body 32, the temperature measuring equipment 27 and the pressure measurement Device 28 positioned at simulation sand body 32 inside, the reaction vessel 22, simulation water injection well 23, simulated production well head 24, supply into Mouth 25, feed flow entrance 26, temperature measuring equipment 27, pressure tester 28, bolt hole 29, upper cover plate 30, simulation wellbore hole 31, simulation sand body 32nd, X-ray emitter 33, X ray detector 34 are respectively positioned in insulating box 21.

As shown in figure 8, it is simulation system side view, in the surface air supply inlet 25 of reaction vessel 22, feed flow entrance 26 in mistake Position alignment branch, X-ray emitter 33, X ray detector 34 are located at the both sides of reaction vessel 22, as shown in figure 9, being upper cover plate cloth Schematic diagram is put, simulation water injection well 23, simulated production well head 24, temperature measuring equipment 27, the branch of pressure tester 28 are in the table of upper cover plate 30 Face, in reverse alignment branch row's formula horizontal-well network, X-ray emitter 33, X ray detector 34 are located at the both sides of reaction vessel 22.

As shown in Figure 10, be simulation wellbore hole structural representation, simulation wellbore hole 31 include stainless steel tube 40, sealing original paper 36 and Drawing out type filler 35, simulation wellbore hole 31 is fixed on the surface of upper cover plate 30 by sealing original paper 36, stainless steel tube 40 includes Straight well section 37, dummy level section 38 and analogue perforation 39 are simulated, to simulate the horizontal well in gas hydrates storage.

Row's formula horizontal-well network that the simulation system can be simulated has following several arrangement modes：

As shown in figure 11, it is dummy level well pattern aligned fashion schematic diagram in the same direction, dummy level water injection well 41 and simulation water Flat producing well 42 is distributed in the same direction, and the horizontal segment of dummy level water injection well 41 is in laterally aligned point with the horizontal segment of dummy level producing well 42 Cloth；

As shown in figure 12, it is the reverse aligned fashion schematic diagram of dummy level well pattern, dummy level water injection well 41 and simulation water Flat producing well 42 is reversely distributed, and the horizontal segment of dummy level water injection well 41 is in laterally aligned point with the horizontal segment of dummy level producing well 42 Cloth；

As shown in figure 13, it is dislocatedly distributed in the same direction schematic diagram A, dummy level water injection well 41 and simulation water for dummy level well pattern Flat producing well 42 is distributed in the same direction, and the horizontal segment of dummy level water injection well 41 is with the horizontal segment of dummy level producing well 42 in transversion malposition point Cloth, and positioned at rear at the heel of dummy level producing well 42 at the heel of dummy level water injection well 41；

As shown in figure 14, it is dislocatedly distributed in the same direction schematic diagram B, dummy level water injection well 41 and simulation water for dummy level well pattern Flat producing well 42 is distributed in the same direction, and the horizontal segment of dummy level water injection well 41 is with the horizontal segment of dummy level producing well 42 in transversion malposition point Cloth, and it is located at front at the heel of dummy level producing well 42 at the heel of dummy level water injection well 41；

As shown in figure 15, reversely it is dislocatedly distributed schematic diagram A, dummy level water injection well 41 and simulation water for dummy level well pattern Flat producing well 42 is reversely distributed, and the horizontal segment of dummy level water injection well 41 is with the horizontal segment of dummy level producing well 42 in transversion malposition point Cloth, and it is located at front at the tiptoe of dummy level producing well 42 at the heel of dummy level water injection well 41；

As shown in figure 16, reversely it is dislocatedly distributed schematic diagram B, dummy level water injection well 41 and simulation water for dummy level well pattern Flat producing well 42 is reversely distributed, and the horizontal segment of dummy level water injection well 41 is with the horizontal segment of dummy level producing well 42 in transversion malposition point Cloth, and positioned at rear at the tiptoe of dummy level producing well 42 at the heel of dummy level water injection well 41；

Row's formula horizontal-well network depth that the simulation system can be simulated has following several ways, is water as shown in figure 16 Flat section depth schematic diagram：

Figure 17 A are that the horizontal segment depth of setting of dummy level water injection well 41 is less than the horizontal segment tripping in of dummy level producing well 42 depth Degree；

Figure 17 B are that the horizontal segment depth of setting of dummy level water injection well 41 is equal to the horizontal segment tripping in of dummy level producing well 42 depth Degree；

Figure 17 C are that the horizontal segment depth of setting of dummy level water injection well 41 is more than the horizontal segment tripping in of dummy level producing well 42 depth Degree.

In the present embodiment, the monitoring system includes computer (in figure not depending on) and transmission cable (not regarded in figure), institute State air supply system, liquid-supplying system, simulation system, frac system, flood pattern, production system and pass through transmission cable and computer phase Connection, to real-time collecting temperature, pressure, output logistics capacity, x-ray imaging and other experimental datas in experimentation, and Experimental implementation is controlled by monitoring system.

Device of embodiment of the present invention workflow is introduced as follows below based on above-mentioned accompanying drawing, work of the embodiment of the present invention It is divided into following steps as flow：

Step 1：Actual gas hydrates are simulated by simulation system to store, the filling simulation sand in reaction vessel 22 Body 32 paves compacting, some simulation wellbore holes 31 of tripping in during sand body 32 is simulated in filling, to the row's of simulation formula horizontal-well network, Simulation water injection well 23, simulated production well head 24 are connected with upper cover plate 30, sealed, by under temperature measuring equipment 27 and pressure tester 28 Enter to simulate inside sand body 32, temperature measuring equipment 27 and pressure tester 28 are connected with upper cover plate 30, sealed, passes through bolt hole 29 and spiral shell Reaction vessel 22 and upper cover plate 30 are carried out bolt seal and form simulated formation space by bolt, and simulation system is put into insulating box 21； Simulation sand body 32 dosage, the length of simulation wellbore hole 31 and depth of setting and other conventional parameters are adjusted according to actual storage parameter It is whole.

Natural gas and water generation gas hydrates, supply are fed into simulation system by air supply system, liquid-supplying system Supercharging device 3 in system, liquid-supplying system provides operating pressure for simulation system, and insulating box 21 is adjusted to analog temperature, will Control valve 2 is opened in air supply system, and natural gas enters in supercharging device 3 and is pressurized in natural gas bottle 1, is connected by tapping valve 8 Air supply inlet 25 in grafting simulation system, open supercharging device 3 and feed natural gas in simulation system, pass through gas flowmeter 4, pressure Monitoring supply parameter, infeed natural gas close tap valve 8 with shape after reaching scheduled volume in real time for force snesor 5, temperature sensor 6 Into confined space；Control valve in liquid-supplying system 2 is opened, supply water, which enters in supercharging device 3, in water storage device 9 is pressurized, and leads to Cross tap valve 8 and connect feed flow entrance 26 in simulation system, opening supercharging device 3 will supply in water infeed simulation system, pass through Fluid flowmeter 10, pressure sensor 5, temperature sensor 6 monitor feed flow parameter in real time, and supply water reaches closing point after scheduled volume Valve 8 is connect to form confined space；After natural gas and supply water enter simulation system, simulation system constant temperature is placed, it is to be generated Into gas hydrates physical property it is stable after carry out next step operation.

Step 2：Decompression exploitation is implemented by production system, drawing out type filler 35 in simulation wellbore hole 31 is extracted out；Will Producing well attachment means 17 are connected respectively with simulation water injection well 23, simulated production well head 24 in production system, by back-pressure valve 18 Simulated storage pressure is modulated, control valve 2 is opened, implements simulation decompression exploitation, it is real to output object by gas-liquid separator 19 Gas-liquid separation is applied, recovered water is collected by water storage device 9, output gas is collected by gas intermediate receptacle 20, Pass through pressure sensor 5, temperature sensor 6 the decompression operational parameter of record simulation in real time；By temperature measuring equipment in simulation system 27, Operational parameter in simulation system in the recovery process of record decompression in real time of pressure tester 28.

Step 3：Fracturing work is implemented to simulation system by frac system, the simulation water injection well of fracturing work will be implemented Mouth 23 is connected with water injection well attachment means 16 in frac system, and the inside of water storage device 9 is fed into agitating device 15 with liquid water, and Mixing forms fracturing fluid with liquid water and additive in agitating device 15, control valve 2 is opened, by fracturing fluid in agitating device 15 Supercharging device 3 is fed, and injects fracturing fluid via supercharging device 3, high pressure line 7, check-valves 11, water injection well attachment means 16 Water injection well 23 is simulated, fracturing work is implemented to simulation system, passes through fluid flowmeter 10, pressure sensor 5, temperature sensor 6 monitor injection parameter in real time, feed after fracturing fluid reaches scheduled volume and close supercharging device 3, control valve 2；Lead to during fracturing work Cross X-ray emitter 33, X ray detector 34 and monitor fracturing fracture delta data in real time, and stored by monitoring system.

Step 4：Chemical flooding is implemented to simulation system by flood pattern, by simulation water injection well 23 and flood pattern Water injection well attachment means 16 are connected, and open the control valve 2 being connected with water storage device 9, and driven water-replacing enters increasing in water storage device 9 It is pressurized in pressure device 3, enter three-way connection 12 by check-valves 11 injects simulation water injection well 23 by driven water-replacing, passes through liquid flow Gauge 10, pressure sensor 5, temperature sensor 6 monitor injection parameter in real time, feed after driven water-replacing reaches scheduled volume and close regulation Valve 2；Added in agitating device 15 and prepare water, open the regulating valve being connected with methanol intermediate receptacle 13, ethanol intermediate receptacle 14 Door 2, feeds agitating device 15, being agitated to form in agitating device 15 by predetermined amount by methanol, ethanol by supercharging device 3 Agent is learned, enter three-way connection 12 by check-valves 11 injects simulation water injection well 23 by chemical agent, passes through fluid flowmeter 10, pressure Force snesor 5, temperature sensor 6 monitor injection parameter in real time, feed after chemical agent reaches scheduled volume and close control valve 2；Weight Above-mentioned steps are answered to realize that driven water-replacing, chemical agent alternately inject.

Output object collection is implemented by the production system being connected with simulated production well head 24, back-pressure valve 18 is modulated into simulation storage Pressure is hidden, control valve 2 is opened, gas-liquid separation is implemented to output object by gas-liquid separator 19, by water storage device 9 to adopting Water outlet is collected, and output gas is collected by gas intermediate receptacle 20, real by pressure sensor 5, temperature sensor 6 Shi Jilu simulation decompression operational parameters；Recorded in real time in recovery process by temperature measuring equipment in simulation system 27, pressure tester 28 Operational parameter in simulation system.

Above-mentioned steps carry out during, the monitoring system by temperature measuring equipment 27, pressure tester 28, pressure sensor 5, Temperature sensor 6, gas flowmeter 4, fluid flowmeter 10 are monitored in real time, and record each stage design parameter of experiment, Experimentation is manipulated by connecting control valve 2.

Particular embodiments described above, the purpose of the present invention, technical scheme and beneficial effect are carried out further in detail Describe in detail it is bright, should be understood that the foregoing is only the present invention specific embodiment, the guarantor being not intended to limit the present invention Scope is protected, within the spirit and principles of the invention, any modification, equivalent substitution and improvements done etc., should be included in this Within the protection domain of invention.

Claims (9)

1. A kind of 1. device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation, it is characterised in that the experimental provision Including air supply system, liquid-supplying system, simulation system, frac system, flood pattern, production system and monitoring system；

   Wherein described air supply system is connected with simulation system, and the liquid-supplying system is connected with simulation system, the pressure break system System is connected with simulation system, and the flood pattern is connected with simulation system, and the production system is connected with simulation system, The monitoring system respectively with the air supply system, liquid-supplying system, simulation system, frac system, flood pattern and production system It is connected；

   The air supply system is used to provide natural gas for synthesis of natural gas hydrate inside the simulation system；The liquid-supplying system For providing water for synthesis of natural gas hydrate inside the simulation system；The frac system is used to simulation system is implemented to press Split operation；The flood pattern is used to inject driven water-replacing and chemical agent for the simulation system, is noted to simulate in actual production Well；The production system be used for produce caused natural gas and water in the simulation system, and analyze the output gas yield, Aquatic products amount, to simulate producing well in actual production；The simulation system be used for simulate gas hydrates pressure, temperature, Saturation degree, permeability and conventional formation parameter, and simulate and formula horizontal well hole pattern is arranged in gas hydrates；The prison Control system is used for air supply system, liquid-supplying system, simulation system, frac system, flood pattern, production system work described in real-time collecting Make parameter, data caused by writing task parameter, and experimental implementation is controlled by monitoring system.
2. 2. a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation as claimed in claim 1, its feature It is, the air supply system includes natural gas bottle, control valve, supercharging device, gas flowmeter, pressure sensor, temperature and passed Sensor, high pressure line, tap valve；

   Natural gas bottle outlet is connected to supercharging device entrance by high pressure line, and control valve is located at natural gas bottle and supercharging device Between, the feed speed effect of regulation natural gas is played, supercharging device outlet is connected to tap valve inlet, gas by high pressure line Flowmeter body, pressure sensor, temperature sensor are located between supercharging device and tap valve, play monitoring gas flow, pressure The effect of power, temperature, tap valve export are connected with the simulation system.
3. 3. a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation as claimed in claim 1, its feature It is, the liquid-supplying system includes water storage device, control valve, supercharging device, fluid flowmeter, pressure sensor, temperature and passed Sensor, high pressure line, tap valve；

   Water storage device outlet is connected to supercharging device entrance by high pressure line, and control valve is located at water storage device and supercharging device Between, the feed speed effect of regulation water is played, supercharging device outlet is connected to tap valve inlet, liquid flow by high pressure line Gauge, pressure sensor, temperature sensor are located between supercharging device and tap valve, play monitoring fluid flow, pressure, temperature The effect of degree, tap valve export are connected with the simulation system.
4. 4. a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation as claimed in claim 1, its feature It is, the frac system includes water storage device, agitating device, control valve, supercharging device, fluid flowmeter, pressure sensing Device, temperature sensor, high pressure line, check-valves, water injection well attachment means；

   Water storage device outlet is connected to agitating device entrance by high pressure line, is stirred for will be fed inside water storage device with liquid water Device is mixed, and mixing forms fracturing fluid with liquid water and additive in agitating device, agitating device outlet is connected by high pressure line Supercharging device entrance is connect, between agitating device and supercharging device, supercharging device outlet is connected control valve by high pressure line Water injection well attachment means are connected to, fluid flowmeter, pressure sensor, temperature sensor, check-valves are located at supercharging device and water filling Between well attachment means, play a part of monitoring pressure break flow quantity, pressure, temperature, and prevent fracturing fluid from flowing back, water injection well connection Device is connected with the simulation system.
5. 5. a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation as claimed in claim 1, its feature It is, the flood pattern includes water storage device, control valve, supercharging device, fluid flowmeter, pressure sensor, temperature and passed Sensor, high pressure line, three-way connection, check-valves, liquid intermediate receptacle, agitating device, tap valve, water injection well attachment means；

   Water storage device outlet is connected to supercharging device entrance by high pressure line, and control valve is located at water storage device and supercharging device Between, the feed speed effect of regulation driven water-replacing is played, supercharging device outlet is connected to three-way connection entrance, liquid by high pressure line Flowmeter body, pressure sensor, temperature sensor, check-valves play monitoring displacement between supercharging device and three-way connection The effect of water-carrying capacity, pressure, temperature, and prevent driven water-replacing from flowing back；The outlet of liquid intermediate receptacle is connected to increasing by high pressure line It is pressed posting port, control valve plays the feed speed effect of regulation liquid, liquid between liquid intermediate receptacle and supercharging device Body intermediate receptacle exit is provided with check-valves, prevents liquid from flowing back, and supercharging device outlet connects agitating device by high pressure line Entrance, agitating device are used to the liquid agitation that supercharging device is fed chemical agent is uniformly made, and agitating device outlet passes through high pressure Pipeline is connected to three-way connection entrance, fluid flowmeter, pressure sensor, temperature sensor, check-valves be located at agitating device with Between three-way connection, play a part of the chemical agent flux of monitoring, pressure, temperature, and prevent chemical agent from flowing back；Three-way connection passes through High pressure line is connected to tap valve, and tap valve is connected to water injection well attachment means, water injection well connection dress by high pressure line Put and be connected with the simulation system.
6. 6. a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation as claimed in claim 1, its feature Be, the production system include producing well attachment means, tap valve, control valve, pressure sensor, temperature sensor, High pressure line, back-pressure valve, gas-liquid separator, water storage device, gas intermediate receptacle；

   Producing well attachment means are connected with tap valve by high pressure line, and back pressure valve inlet passes through high pressure line with tap valve Connection, control valve, pressure sensor, temperature sensor play monitoring output object pressure between tap valve and back-pressure valve The effect of power, temperature, back-pressure valve play the effect of simulated formation pressure, and the back pressure valve outlet is connected with gas-liquid separator, gas Output object is implemented gas-liquid separation by liquid/gas separator, and output water is fed into water storage device, and output gas feeds gas intermediate receptacle；It is raw Production well attachment means are connected with simulation system, and output object caused by simulation system work is entered by producing well attachment means gives birth to Production system.
7. 7. a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation as claimed in claim 1, its feature It is, the simulation system includes insulating box, reaction vessel, simulation water injection well, simulated production well head, air supply inlet, feed flow Entrance, temperature measuring equipment, pressure tester, bolt hole, upper cover plate, simulation wellbore hole, simulation sand body, X-ray emitter, X ray detection Device；

   Reaction vessel is the high pressure resistant clear sheet of cuboid, and the upper cover plate is located at the reaction vessel top, used by bolt hole The cuboid confined space that bolt seal is formed, simulation water injection well, simulated production well head, temperature measuring equipment interface, pressure tester Interface is respectively positioned on upper cover plate surface, and the air supply inlet, feed flow entrance are located at reaction vessel surface, and simulation sand body holds positioned at reaction Inside device, inside simulation sand body, the temperature measuring equipment and the pressure tester are located in simulated formation sand body simulation wellbore hole Portion, the X-ray emitter, X ray detector are located at reaction vessel both sides, the reaction vessel, simulation water injection well, simulation Production wellhead, air supply inlet, feed flow entrance, temperature measuring equipment, pressure tester, bolt hole, upper cover plate, simulation wellbore hole, simulation sand body, X-ray emitter, X ray detector are respectively positioned in insulating box；

   Valve is tapped in the air supply system by high pressure line with air supply inlet to be connected, and valve is tapped in the liquid-supplying system institute Door is connected by high pressure line with feed flow entrance, and water injection well attachment means are connected with simulation water injection well in the frac system Connect, water injection well attachment means are connected with simulation water injection well in the flood pattern, and producing well connects in the production system Device is connected with simulated production well head.
8. 8. a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation as claimed in claim 1, its feature It is, horizontal water injection well and horizontal production well direction can be in the same direction or reverse in row's formula horizontal-well network； Horizontal water injection well and the horizontal segment of horizontal production well can be isometric or non-isometric in row's formula horizontal-well network 's；Horizontal water injection well can be aligned fashion with horizontal production well or be dislocatedly distributed in row's formula horizontal-well network 's；The horizontal flood well horizontal segment depth can be contour, the horizontal note with the horizontal production well horizontal segment depth Well horizontal segment can also be located above or below the horizontal production well horizontal segment.
9. 9. a kind of device for simulating gas hydrates row's formula horizontal well chemical flooding exploitation as claimed in claim 1, its feature It is, the monitoring system includes computer and transmission cable, the air supply system, liquid-supplying system, simulation system, pressure break system System, flood pattern, production system are connected by transmission cable with computer, in experimentation real-time collecting temperature, Pressure, output logistics capacity, x-ray imaging and other experimental datas, and experimental implementation is controlled by monitoring system.