CN201335803Y - Devices for coal-bed gas high pressure desorption instrument - Google Patents
Devices for coal-bed gas high pressure desorption instrument Download PDFInfo
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- CN201335803Y CN201335803Y CNU2008200302603U CN200820030260U CN201335803Y CN 201335803 Y CN201335803 Y CN 201335803Y CN U2008200302603 U CNU2008200302603 U CN U2008200302603U CN 200820030260 U CN200820030260 U CN 200820030260U CN 201335803 Y CN201335803 Y CN 201335803Y
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Abstract
The utility model provides devices for a coal-bed gas high pressure desorption instrument. At present, a coal-bed gas high pressure isothermal adsorption instrument tests the isothermal adsorption parameters of coal-bed gas by utilizing coal powder sample; and the coal-bed gas desorption test is generally used in normal pressure desorption devices, and measures parameters such as coal-bed gas content, adsorption time and the like of a drill well coal core. The devices comprise three parts which are an automatic temperature control water bath device, a stainless steel mechanical device, and an image and pressure data acquisition system, wherein, the stainless steel mechanical device comprises an air collection cylinder, a sample cylinder, an air adjusting cylinder, a bracket, a high pressure pipeline, and a valve; the cylinder bodies are fixed on the bracket; the bracket and the cylinder bodies are located in the automatic temperature control water bath device; and the bracket is connected with a crane. The utility model can simulate a reservoir bed environment and exhaust and collection working system efficiently, realizes the conversion from a gas-solid biphase system to a gas-liquid-solid triple phase system under high pressure condition, and desorption, air collection and measuring procedures under high pressure water injection condition, can observe the desorption process of the coal-bed gas efficiently, and tests a plurality of parameters such as desorption pressure, desorption quantity, loss gas quantity and the like.
Description
Technical field
The utility model is a kind of device of coalbed gas high pressure desorption instrument, Real Time Observation coal-seam gas desorb situation under the water filling condition under high pressure, test datas such as collecting temperature pressure; By data processing, can obtain parameters such as desorption time, desorption pressures, desorption quantity, loss tolerance.
Background technology
Coal-seam gas is composed and is existed among the coal seam, must measure the technical parameter of coal-seam gas desorb before exploratory development utilizes.At present, coalbed gas high pressure isothermal absorption instrument utilizes fine coal sample testing coal-seam gas isothermal absorption parameter; The normal pressure stripping apparatus is generally used in coal-seam gas desorb test, and drilling well coal core is carried out coal bed gas content and the isoparametric mensuration of adsorption time.And coalbed methane reservoir has certain pressure and it is saturated by underground water to think, some parameters such as desorption time, desorption pressures, loss amount need under high pressure and measure under the water filling condition, present testing apparatus can not satisfy the high pressure water injection test condition, therefore the apparatus system that needs the development coalbed gas high pressure desorption instrument is to satisfy an urgent demand of scientific experimentation research and actual production.
The utility model content
The purpose of this utility model is to provide a kind of device that simulation test critical desorption pressures, coal bed gas well are carried the coalbed gas high pressure desorption instrument of core loss tolerance, coal bed gas well aerogenesis dynamic tracking function that has, and it provides the necessary parameter foundation for coal bed gas well aerogenesis dynamic tracking.
In order to achieve the above object, the technical solution adopted in the utility model is:
A kind of device of coalbed gas high pressure desorption instrument, its special character is: it comprises temperature automatically controlled water-bath device, stainless steel machinery device, image and pressure data acquisition system three parts, and described stainless steel machinery device comprises gas collection cylinder, sample cylinder, regulating the qi flowing in the channels cylinder, support and pressure piping and valve; Cylinder body is fixed on the support, and support and cylinder body are arranged in temperature automatically controlled water-bath device, and support is connected with loop wheel machine;
Described sample cylinder is connected with pipeline with regulating the qi flowing in the channels cylinder top, and the centre is provided with valve, and the bottom connects with pipeline, and valve is equipped with in the centre, and sample cylinder and regulating the qi flowing in the channels cylinder and connecting tube, valve form the closed-loop path; Top duct is connected with high pressure gas pipeline and emptying pipe, in the middle of the pipeline valve is housed, and the high pressure gas pipeline is connected with high pressure helium gas cylinder, methane gas cylinder, nitrogen cylinder, and emptying pipe communicates with atmosphere; Bottom pipe is connected with tank by inlet and outlet pipe lines, and valve is housed in the middle of the inlet and outlet pipe lines; Be implemented in and carry out in the sample cylinder exchanging under the gas-liquid two-phase high pressure, make the gas-liquid-solid three-phase coexistence, under high pressure regulate, carry out the simulation of coal-seam gas desorption process by the pressure of regulating the qi flowing in the channels cylinder.
Above-mentioned gas collection cylinder top is connected with gas meter by gas exhaust duct.
Above-mentioned temperature automatically controlled water-bath device is grouped into by water tank, well heater, water circulating pump and electrical control division, and water tank, outlet conduit, well heater, water circulating pump, inlet channel series connection form the water route circulation.
Above-mentioned sample cylinder and regulating the qi flowing in the channels cylinder are provided with pressure transducer and temperature sensor, and sample cylinder is equipped with camera; The signal that pressure transducer and temperature sensor are gathered to signal processing module, is transferred to controller behind the temperature and pressure transmitter; The signal of camera collection through the image collection integrated circuit board to controller; Controller obtains data message by signal processing software, by input-output device show image, data and curve, and by data processing software, editor and printing test data.
Compared with prior art, advantage of the present utility model is as follows:
1, the utility model adopts constant temperature, high pressure and water filling test condition, can effectively simulate the reservoir environment;
2, the utility model has realized that gas-solid two-phase is to the conversion of gas-liquid-solid three-phase system under the condition of high voltage;
3, the utility model adopts the pattern of gas phase control system pressure, and effectively working system is adopted by the row of simulation;
4, the utility model has been realized desorb, gas collection and the measuring process under the high pressure water injection condition;
5, the utility model has been realized visually, can effectively observe the desorption process of coal-seam gas;
6, the utility model can be tested a plurality of parameters such as desorption pressures, desorption quantity, loss tolerance by the adjusting of system architecture.
Description of drawings
Fig. 1 is a coalbed gas high pressure desorption instrument apparatus system synoptic diagram;
Fig. 2 is image and data acquisition system (DAS) synoptic diagram.
Among the figure, 1-gas meter, 2-gas collection cylinder, 3-sample cylinder, 4-regulating the qi flowing in the channels cylinder, 5-support, the temperature automatically controlled water-bath device of 6-, 7-image and data acquisition system (DAS), the 8-loop wheel machine, 9-stainless steel machinery device, 10-pressure transducer, the 11-temperature sensor, the accurate camera of 12-, 13-temperature and pressure transmitter, the 14-signal processing module, 15-image collection integrated circuit board, 16-controller, the 17-signal processing software, 18-data processing software, 19-input-output device;
Embodiment
Below in conjunction with accompanying drawing the utility model is described further.
Referring to Fig. 1, device of the present utility model comprises temperature automatically controlled water-bath device 6, stainless steel machinery device 9, image and pressure data acquisition system 7 three parts;
Its stainless steel machinery device 9 comprises gas collection cylinder 2, sample cylinder 3, regulating the qi flowing in the channels cylinder 4, support 5 and pressure piping and valve; Cylinder body is fixed on the support 5, and support 5 is arranged in temperature automatically controlled water-bath device 6 with cylinder body, and support 5 is connected with loop wheel machine 8;
Described sample cylinder 3 is connected with pipeline with regulating the qi flowing in the channels cylinder 4 tops, and the centre is provided with valve, and the bottom connects with pipeline, and valve is equipped with in the centre, and sample cylinder 3 and regulating the qi flowing in the channels cylinder 4 and connecting tube, valve form the closed-loop path; Top duct is connected with high pressure gas pipeline and emptying pipe, in the middle of the pipeline valve is housed, and the high pressure gas pipeline is connected with high pressure helium gas cylinder, methane gas cylinder, nitrogen cylinder, and emptying pipe communicates with atmosphere; Bottom pipe is connected with tank by inlet and outlet pipe lines, and valve is housed in the middle of the inlet and outlet pipe lines; Be implemented in and carry out in the sample cylinder 3 exchanging under the gas-liquid two-phase high pressure, make the gas-liquid-solid three-phase coexistence, under high pressure regulate, carry out the simulation of coal-seam gas desorption process by the pressure of regulating the qi flowing in the channels cylinder 4.
Temperature automatically controlled water-bath device 6 in the utility model is grouped into by water tank, well heater, water circulating pump and electrical control division, and water tank, outlet conduit, well heater, water circulating pump, inlet channel series connection form the water route circulation.Temperature automatically controlled water-bath device 6 can be set in reservoir temperature with temperature, and the stainless steel machinery device is immersed in the water, reaches the purpose of constant temperature.
Referring to Fig. 2, image and pressure data acquisition system 7 comprise pressure transducer 10, temperature sensor 11, accurate camera 12, temperature and pressure transmitter 13, signal processing module 14, image collection integrated circuit board 15, controller 16, signal processing software 17, data processing software 18, input-output device 19 compositions such as grade.
Software comprises signal processing software 17 and data processing software 18 softwares, and running environment is at windows2000 and above version.Signal processing software 17 is called in software database with the weak electric signal of module collection, and generation temperature, pressure data are stored on the backstage.Back-end data is called in test interface, can carry out the real-time monitoring of data, the data history curve with the checking and analyzing of real-time curve.Data processing software 17 is that the temperature and pressure data and the gas desorption quantity data of gathering are carried out overall treatment, draws the analysis software of test parameter.
The utility model device simulation coalbed methane reservoir and exploration, production run actual state, coal-seam gas loss amount in can simulation test coal core leaching process, coal-seam gas desorption quantity under the desorption pressures of coal-seam gas and the different pressures is the system of methodology and equipment innovation under the test reservoir conditions.This utility model can play a role in the exploratory development of coal-seam gas and related science research, has important scientific meaning and practical value.
The concrete course of work is as follows:
Connect test macro, at first carry out leakage test, comprise gas collection cylinder 2, sample cylinder 3, regulating the qi flowing in the channels cylinder 4 and pressure piping and valve etc.To the nitrogen of the injection 15Mpa of system, under the constant temperature, continue maintenance sealing in 48 hours after the pressure stability, can come into operation through inspection of hermetic seal is qualified.
The sample cylinder 3 of more representative coal sample being packed into seals, and mechanical hook-up is put into the water-bath that transfers to reservoir temperature with loop wheel machine 8.Open the high pressure methane gas cylinder, purge sample cylinder 3~5 times, purge pressure and should charge into methane gas by design pressure again, carry out methane absorption and finally reach balance greater than 1.0Mpa with methane gas.When sample cylinder 3 pressure are constant, be considered as reaching equilibrium state.In regulating the qi flowing in the channels cylinder 4, inject reservoir water then, can inject drilling fluid during test loss tolerance.Regulating the qi flowing in the channels cylinder 4 pressure are transferred to new equalized pressure, open the valve between two cylinders then, make cylinder body and pipeline be linked to be the closed-loop path, the liquid in the regulating the qi flowing in the channels cylinder 4 can slowly enter sample cylinder 3, and the gas of sample cylinder 3 can enter regulating the qi flowing in the channels cylinder 4.After pressure stability, close the valve between the two cylinder top ducts.
When losing the tolerance measurement, the core time is carried in the simulation drilling well, by micrometering valve control deflation rate, sample cylinder 3 pressure is reduced to normal pressure, measures at the gas desorption quantity of this section in the time.
Carry out desorption pressures when measuring, simulation reservoir gas-bearing situation, treat pressure stability after, by micrometering valve control deflation rate, regulate sample cylinder 3 pressure, determine the time and the pressure of beginning desorb by observing bubble, and then obtain desorption pressures.
When carrying out the measurement of different pressures section desorption quantity, in advance gas collection cylinder 2 is full of water, by regulating the qi flowing in the channels cylinder 4 sample cylinder 3 pressure are reduced to design pressure, by alternately closing of sample cylinder 3 and gas collection cylinder 2 valves, make the desorption gas in the sample cylinder 3 enter gas collection cylinder 2, the gas of deriving in the gas collection cylinder 2 measures, and obtains the desorption quantity of this pressure stage.
When carrying out the gas generation process simulation, the control rate of pressure reduction reduces the pressure of sample cylinder 3 gradually, in this process, constantly derive desorption gas by gas collection cylinder 2, the gas volume of sucking-off is separated in measurement, draws desorption quantity curve over time, calculates desorption time and desorption efficiency.
Claims (4)
1, a kind of device of coalbed gas high pressure desorption instrument, it is characterized in that: it comprises temperature automatically controlled water-bath device (6), stainless steel machinery device (9), image and pressure data acquisition system (7) three parts, and described stainless steel machinery device (9) comprises gas collection cylinder (2), sample cylinder (3), regulating the qi flowing in the channels cylinder (4), support (5) and pressure piping and valve; Cylinder body is fixed on the support (5), and support (5) is arranged in temperature automatically controlled water-bath device (6) with cylinder body, and support (5) is connected with loop wheel machine (8);
Described sample cylinder (3) is connected with pipeline with regulating the qi flowing in the channels cylinder (4) top, and the centre is provided with valve, and the bottom connects with pipeline, and valve is equipped with in the centre, and sample cylinder (3) and regulating the qi flowing in the channels cylinder (4) and connecting tube, valve form the closed-loop path; Top duct is connected with high pressure gas pipeline and emptying pipe, in the middle of the pipeline valve is housed, and the high pressure gas pipeline is connected with high pressure helium gas cylinder, methane gas cylinder, nitrogen cylinder, and emptying pipe communicates with atmosphere; Bottom pipe is connected with tank by inlet and outlet pipe lines, and valve is housed in the middle of the inlet and outlet pipe lines; Be implemented in and carry out in the sample cylinder (3) exchanging under the gas-liquid two-phase high pressure, make the gas-liquid-solid three-phase coexistence, under high pressure regulate, carry out the simulation of coal-seam gas desorption process by the pressure of regulating the qi flowing in the channels cylinder (4).
2, the device of coalbed gas high pressure desorption instrument according to claim 1 is characterized in that: described gas collection cylinder (2) top is connected with gas meter (1) by gas exhaust duct.
3, the device of coalbed gas high pressure desorption instrument according to claim 1 and 2, it is characterized in that: described temperature automatically controlled water-bath device (6) is grouped into by water tank, well heater, water circulating pump and electrical control division, water tank, outlet conduit, well heater, water circulating pump, inlet channel series connection form the water route circulation.
4, the device of coalbed gas high pressure desorption instrument according to claim 3 is characterized in that: described sample cylinder (3) and regulating the qi flowing in the channels cylinder (4) are provided with pressure transducer (10) and temperature sensor (11), and sample cylinder (3) is equipped with camera (12); The signal that pressure transducer (10) and temperature sensor (11) are gathered to signal processing module (14), is transferred to controller (16) behind temperature and pressure transmitter (13); The signal that camera (12) is gathered arrives controller (16) through image collection integrated circuit board (15); Controller (16) obtains data message by signal processing software (17), by input-output device (19) show image, data and curve, and by data processing software (18), editor and printing test data.
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CNU2008200302603U CN201335803Y (en) | 2008-09-12 | 2008-09-12 | Devices for coal-bed gas high pressure desorption instrument |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101845949A (en) * | 2010-04-28 | 2010-09-29 | 中国科学院力学研究所 | Indoor simulation device for testing injection/pressure fall of coal bed methane |
CN102998204A (en) * | 2012-12-20 | 2013-03-27 | 中国矿业大学 | Device and method for preparing water-containing coal sample and testing adsorption |
CN104697887A (en) * | 2015-03-31 | 2015-06-10 | 中国石油大学(华东) | Dynamic desorption-flowing isothermal and constant-pressure experimental facility for gas in coal shale |
CN106908578A (en) * | 2017-03-07 | 2017-06-30 | 西南石油大学 | A kind of experimental system and method for coal bed gas liquid phase adsorption |
-
2008
- 2008-09-12 CN CNU2008200302603U patent/CN201335803Y/en not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101845949A (en) * | 2010-04-28 | 2010-09-29 | 中国科学院力学研究所 | Indoor simulation device for testing injection/pressure fall of coal bed methane |
CN101845949B (en) * | 2010-04-28 | 2013-05-01 | 中国科学院力学研究所 | Indoor simulation device for testing injection/pressure fall of coal bed methane |
CN102998204A (en) * | 2012-12-20 | 2013-03-27 | 中国矿业大学 | Device and method for preparing water-containing coal sample and testing adsorption |
CN102998204B (en) * | 2012-12-20 | 2015-01-21 | 中国矿业大学 | Device and method for preparing water-containing coal sample and testing adsorption |
CN104697887A (en) * | 2015-03-31 | 2015-06-10 | 中国石油大学(华东) | Dynamic desorption-flowing isothermal and constant-pressure experimental facility for gas in coal shale |
CN104697887B (en) * | 2015-03-31 | 2018-02-23 | 中国石油大学(华东) | The isothermal constant pressure experimentation device of gas-dynamic desorption flowing in danks |
CN106908578A (en) * | 2017-03-07 | 2017-06-30 | 西南石油大学 | A kind of experimental system and method for coal bed gas liquid phase adsorption |
CN106908578B (en) * | 2017-03-07 | 2019-03-01 | 西南石油大学 | A kind of experimental system and method for coal bed gas liquid phase adsorption |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
C17 | Cessation of patent right | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20091028 Termination date: 20110912 |