CN108827830A - A kind of high-temperature high-pressure drilling fluid mobile performance test device and method - Google Patents

Abstract

The invention discloses a kind of high-temperature high-pressure drilling fluid mobile performance test device and methods.The device is mainly made of fluid line, temperature regulating device 1, pressure sensor, sampling container 17, three-phase magnetic driving device 18, driving motor 19, the vertical section 3 of the fluid line, horizontal pipe section 4 and inclination pipeline section 2 are end to end, form the drilling-fluid circulation system like triangle, it bypasses on 5 liang of end Jie horizontal pipe sections 4 of pipeline section, bypassing the horizontal pipe section between pipeline section both ends is sampling pipeline section 6, and sampling pipeline section connects sampling container 17；Driving motor 19 drives the circulation of drilling fluid flowing in fluid line by three-phase magnetic driving device 18.During deep-well and ultra-deep well drilling can be simulated using the device, under high-temperature and high-pressure conditions to during being returned on drilling fluid flowing velocity and the mobile performances such as shear rate test.The principle of the invention is reliable, easy to operate, provides experiment and theoretical direction to the judgement of drilling fluid flow pattern and associated fluid calculating.

Description

A kind of high-temperature high-pressure drilling fluid mobile performance test device and method

Technical field

The present invention relates to high-temperature high-pressure drilling fluid mobile performance a kind of in oil exploration and development fields drilling process tests to fill It sets and method.

Background technique

During deep-well and ultra-deep well drilling, drilling fluid is influenced in shaft bottom by high temperature and pressure, small volume, flow velocity Relatively slow, during returning to ground from shaft bottom with drilling fluid, temperature, the pressure of drilling fluid shoal with well depth and are lower, and bore Well liquid volume becomes larger, and flow velocity becomes faster, thus drilling fluid flow parameters such as flow rate and shearing rate during upper return constantly become Change, difficulty is brought to fluid calculation and drilling liquid parameter selection.Therefore, drilling fluid flow rate under high-temperature and high-pressure conditions is studied Variation with shear rate is a problem of crucial importance of deep-well and ultra-deep well drilling.

Drilling fluid is in the state of high temperature and pressure in underground, and mobile performance is influenced very greatly by high temperature and pressure, and current domestic The experimental method of drilling fluid mobile performance test is tested or both for the mobile performance of drilling fluid under normal temperature and pressure in high temperature The rheology testing of drilling fluid under stationary state is carried out in autoclave.

Patent " a kind of high-temperature high-pressure rheological property tester "（CN201594064U）It is main to be carried out by high temperature and high pressure kettle The test of drilling fluid rheology performance, does not consider that drilling fluid is in flow circuit state." it is excellent that horizontal eccentric annulus replaces parameter to patent Change design method "（CN103277067）Pass through the stream of dummy level well eccentric annulus state measurement drilling fluid at normal temperatures and pressures Variable element does not consider that drilling fluid is in high-temperature high-pressure state.Patent " heteromorphic tube type drilling fluid rheology measurement method " （CN103076263A）It is flowed in shape tube by drilling fluid, carries out the rheological characteristic automatic online measurement of drilling fluid, also not Consider that drilling fluid is in high-temperature high-pressure state.

Generally speaking, laboratory experiment equipment does not consider the drilling fluid in deep-well and ultradeep well comprehensively while being in stream at present Dynamic and two states of high temperature and pressure.Therefore, the experiment dress that practical down-hole drilling fluids flow regime carries out mobile performance test is established It sets and method, the mobile performance research of drilling fluid during deep-well and ultra-deep well drilling is had a very important significance.

Summary of the invention

The purpose of the present invention is to provide a kind of high-temperature high-pressure drilling fluid mobile performance test devices, which can It leans on, it is easy to operate, during deep-well and ultra-deep well drilling can be simulated, during under high-temperature and high-pressure conditions to being returned on drilling fluid Flowing velocity and the mobile performances such as shear rate tested.

Another object of the present invention is also resided in offer and is surveyed using above-mentioned apparatus to high-temperature high-pressure drilling fluid mobile performance The method of examination, this method principle is reliable, easy to operate, at the same consider wellbore fluids pressure, temperature is dropped with returning on drilling fluid Low, the factors such as flow velocity becomes faster consider formation condition, flox condition and actual condition to the stream of circulation of drilling fluid more perfectly The influence of dynamic rate and shear rate.

To reach the above technical purpose, the present invention uses following technical scheme.

A kind of high-temperature high-pressure drilling fluid mobile performance test device, including fluid line unit, fluid line heated for controlling temperature Unit, pressure acquisition unit, sampling unit, pressure release unit, three-phase magnetic driving unit, air injection unit and fluid injection unit.

The fluid line unit includes vertical section, horizontal pipe section, inclination pipeline section, bypass pipeline section and sampling pipeline section, pipe Diameter is 25mm, and stainless steel material, maximum pressure-bearing is 150MPa, and resistance to extreme temperature is 250 DEG C.Vertical section, horizontal pipe section and incline Inclined tube section is end to end, forms the drilling-fluid circulation system like triangle, and bypass pipeline section both ends connect on horizontal pipe section respectively, take Sample pipeline section is a part of horizontal pipe section.

The fluid line heated for controlling temperature unit includes that general power is the stainless steel heating coil of 100KW, Pt100 temperature sensing Device, insulating layer, insulating layer and stainless steel heating coil are covered on entire flowing pipeline section.

The pressure acquisition unit includes that 4 sets of ranges are 0 ~ 120MPa, and precision is the band logical of the 316L diaphragm of ± 0.2%FS The PID intelligence instrument of communication interface, respectively installed in vertical section upper and lower part it is a set of, horizontal pipe section and bypass pipeline section connection It is a set of to locate each installation.

The sampling unit includes the high-temperature high pressure valve and 500mL/100MPa for sampling pipeline section, 3 200 DEG C/100MPa Sampling container.2 high-temperature high pressure valves are placed between horizontal pipe section and bypass connection between pipe sections, are sampling between two valves Pipeline section, sampling pipeline section are connected with sampling container by pipeline section, pass through a high-temperature high pressure valve in sampling pipeline section and sampling container It is connected.

The pressure release unit includes the high-temperature high pressure valve for bypassing pipeline section and 1 200 DEG C/100MPa.

The three-phase magnetic driving unit includes gas, liquid, solid three-phase magnetic driving device and driving motor, and three-phase magnetic drives Dynamic device operating pressure is 100MPa, and operating temperature is 200 DEG C.One end of three-phase magnetic driving device is separately connected gas boosting Machine and nitrogen cylinder, liquid booster pump and clear water reserviors, other end connecting fluid pipeline, driving motor pass through the changeable stream of frequency control Body circulation speed.

The air injection unit includes the high pressure of nitrogen cylinder, the gas-booster that range is 0 ~ 100MPa and 50 DEG C/100MPa Valve.Nitrogen cylinder is connected with gas-booster by pipeline, and gas-booster is filled by pipeline and the driving of valve and three-phase magnetic It sets connected.

The fluid injection unit includes the high pressure of clear water reserviors, the liquid booster pump that range is 0 ~ 100MPa and 50 DEG C/100MPa Valve.Clear water reserviors are connected with liquid booster pump by pipeline, and liquid booster pump is filled by pipeline and the driving of valve and three-phase magnetic It sets connected.

The method tested using above-mentioned apparatus high-temperature high-pressure drilling fluid mobile performance, is successively included the following steps：

（1）Full of fluid line and make it with initial velocity V by three-phase magnetic driving device drilling fluid_JustSpeed loop stream Dynamic, circulating direction is vertical section-inclination pipeline section-horizontal pipe section-vertical section, opens gas-booster, liquid Booster pump, increases pressure with certain gas liquid ratio, increases temperature by temperature regulating device, drilling fluid in fluid line is made to reach most deep Temperature and pressure at stratum, and make drilling fluid with V by three-phase magnetic driving device₀Speed loop flowing；

（2）The shear rate γ that drilling fluid flows at this time is measured by three-phase magnetic driving device₀；

（3）A part of drilling fluid is taken out from sampling pipeline section by sampling container, tests and record the corresponding rheological parameter of drilling fluid, And the pressure in fluid line is reduced by sampling process, the temperature in fluid line is reduced by temperature regulating device, to establish The pressure and temperature condition of next certain depth in stratum, by the speed V that the depth is accordingly calculated₁, and pass through three-phase Magnetic driving equipment makes the circulation rate of drilling fluid reach V₁, measure shear rate γ of the drilling fluid in the depth₁；

（4）It repeats above-mentioned（3）Process, until drilling fluid reaches the temperature and pressure on ground.

Compared with prior art, the present invention has the advantages that：

In simulation high-temperature high-pressure drilling fluid cyclic process, at the same consider wellbore fluids pressure, temperature with returning on drilling fluid and It reduces, flow velocity such as becomes faster at the factors, considers formation condition, flox condition and actual condition more perfectly to circulation of drilling fluid The influence of flow rate and shear rate provides experiment and theoretical direction to the judgement of drilling fluid flow pattern and associated fluid calculating.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of high-temperature high-pressure drilling fluid mobile performance test device.

In figure：1-temperature regulating device, 2-inclination pipeline sections, 3-vertical sections, 4-horizontal pipe sections, 5-bypass pipeline sections, 6- Sampling pipeline section, 7,8,9,10-high-temperature high pressure valves, 11,12-high pressure valves, 13,14,15,16-pressure sensors, 17- Sampling container, 18-three-phase magnetic driving devices, 19-driving motors, 20-nitrogen cylinders, 21-gas-boosters, 22-liquid Booster pump, 23-clear water reserviors.

Specific embodiment

The present invention is further illustrated below according to drawings and examples.

Referring to Fig. 1.

A kind of high-temperature high-pressure drilling fluid mobile performance test device, by fluid line, temperature regulating device 1, pressure sensor 13-16, sampling container 17, three-phase magnetic driving device 18, driving motor 19, gas-booster 21, nitrogen cylinder 20, liquid increase Press pump 22, clear water reserviors 23 form.

The fluid line includes vertical section 3, horizontal pipe section 4, inclination pipeline section 2, bypass pipeline section 5, vertical section 3, water Flat tube section 4 and inclination pipeline section 2 are end to end, form the drilling-fluid circulation system like triangle, and bypass 5 both ends of pipeline section connect respectively On horizontal pipe section 4, bypassing the horizontal pipe section between pipeline section both ends is sampling pipeline section 6；The temperature regulating device 1 includes heating coil, protects Warm layer and temperature sensor, heating coil, insulating layer are covered on entire fluid line；It is 3 upper and lower ends of vertical section, described Pressure sensor 13-16 is installed in the left and right junction of horizontal pipe section 4 and bypass pipeline section 5 respectively；The connection of sampling pipeline section 6 is adopted Sample container 17 is respectively provided with high temperature high pressure valve between sampling 6 both ends of pipeline section, sampling pipeline section 6 and sampling container 17, on bypass pipeline section 5 Door 7-10；The three-phase magnetic driving device 18 connects gas-booster 21 and nitrogen cylinder by high pressure valve 12,11 respectively 20, liquid booster pump 22 and clear water reserviors 23, are also connected with driving motor 19, and driving motor is driven by three-phase magnetic driving device 18 Circulation of drilling fluid flowing in fluid line.

The pressure sensor 13 and 14 being mounted in vertical section 3, can acquire the number pressure of different location in vertical section 3 According to being mounted on horizontal pipe section 4 and bypass the pressure sensor 15 and 16 of the junction of pipeline section 5, can acquire on horizontal pipe section 4 different The pressure data of position.

The direction that circulates of the three-phase magnetic driving device driving drilling fluid is that vertical section 3-tilts pipeline section 2- 4-vertical section of horizontal pipe section 3.

The driving motor 19 changes fluid circulation rate by frequency control, and the three-phase magnetic driving device 18 acquires Drilling fluid flow rate and shear rate data.

High-temperature high pressure valve 7,8 is set at sampling pipeline section both ends, sampling between pipeline section 6 and sampling container 17 also has high temperature height Pressure valve 10 closes high-temperature high pressure valve 7,8, and the drilling fluid sampled in 6 in pipeline section can be put by opening high-temperature high pressure valve 10 In sampling container 17, for analyzing drilling fluid relevant featuring parameters.

High-temperature high pressure valve 9 is installed on the bypass pipeline section 5, high-temperature high pressure valve 9 is opened when needing pressure release and is let out Pressure.

The nitrogen cylinder 20, gas-booster 21 are connected by pipeline, high pressure valve 12 with three-phase magnetic driving device 18, Fluid flow pressure in circulation pipeline section can be controlled.

The clear water reserviors 23, liquid booster pump 22 are connected by pipeline, high pressure valve 11 with three-phase magnetic driving device 18, Fluid flow pressure in circulation pipeline section can be controlled.

The method tested using above-mentioned apparatus high-temperature high-pressure drilling fluid mobile performance, is successively included the following steps：

A, early-stage preparations are tested：

Horizontal pipe section, vertical section and inclination pipeline section and relevant apparatus are installed, check whether fluid fills in nitrogen cylinder and tank Foot；All valves are all provided with and are in off state；Check whether all appts instrument works normally.

B, experimental facilities is opened：

The valve for opening gas-booster, liquid booster pump and the connection of three-phase magnetic driving device, opens simultaneously on horizontal pipe section Two valves increased by drilling fluid full of flow duct and circulating it by three-phase magnetic driving device by gas The Fluid pressure recycled in pipeline section is pressurized to most deep stratum pressure by press and liquid booster pump；Temperature regulating device switch is opened, it is right Fluids within pipes are heated to set temperature；Three-phase magnetic driving device is driven to increase the flow velocity of fluid in pipeline by driving motor It is added to setting speed, closes gas-booster, liquid booster pump, closes temperature regulating device.

C, high-temperature high-pressure drilling fluid mobile performance test experiments are carried out：

When 4 pressure sensors pressure data and tilt pipeline section temperature regulating device temperature data it is stable and be equal to the stratum of setting When innermost temperature, pressure, fluid in the pipeline section that temperature, pressure data and three-phase magnetic driving device at this time obtain is recorded The flow rate and shear rate of flowing are as first group of data.Then by equably taking out certain body from sampling pipeline section every time Long-pending drilling fluid is used to simulate the drilling fluid actual condition that pressure reduces during upper return, and simulates drilling well by radiating The liquid actual condition that formation temperature reduces during upper return, passes through every group of fluid gas, liquid, solid content analysis in sampling container The drilling fluid properties parameter of experiment increases circulation pipeline section fluid velocity inside by three-phase magnetic driving device and simulates drilling fluid upper The actual condition that flow velocity becomes faster during returning, drilling fluid of every taking-up, adjusts a circulation of drilling fluid flow velocity, pressure and temperature Degree, records all pressure, temperature, flow rate and shear rate data as one group of experimental data, until wellbore fluids pressure Until being reduced to setting value, experiment terminates.

D, interpretation：

Arrange and analyze acquired data.

Claims (5)

1. a kind of high-temperature high-pressure drilling fluid mobile performance test device, by fluid line, temperature regulating device（1）, pressure sensor, adopt Sample container（17）, three-phase magnetic driving device（18）, driving motor（19）, gas-booster（21）, nitrogen cylinder（20）, liquid increase Press pump（22）, clear water reserviors（23）Composition, which is characterized in that the fluid line includes vertical section（3）, horizontal pipe section（4）, incline Inclined tube section（2）, bypass pipeline section（5）, vertical section（3）, horizontal pipe section（4）With inclination pipeline section（2）It is end to end, it is formed like triangle The drilling-fluid circulation system of shape bypasses pipeline section（5）Both ends are connect respectively in horizontal pipe section（4）On, bypass the water between pipeline section both ends Flat tube section is sampling pipeline section（6）；The temperature regulating device（1）Including heating coil, insulating layer and temperature sensor, heating coil, heat preservation Layer is covered on entire fluid line；The vertical section（3）Upper and lower ends, the horizontal pipe section（4）With bypass pipeline section（5）'s Left and right junction is installed by pressure sensor respectively；The sampling pipeline section（6）Connect sampling container（17）；The three-phase magnetic driving Device（18）It is separately connected gas-booster（21）And nitrogen cylinder（20）, liquid booster pump（22）And clear water reserviors（23）, it is also connected with Driving motor（19）, driving motor pass through three-phase magnetic driving device（18）Drive the circulation of drilling fluid flowing in fluid line.

2. a kind of high-temperature high-pressure drilling fluid mobile performance test device as described in claim 1, which is characterized in that the sampling Pipeline section（6）Both ends, sampling pipeline section（6）With sampling container（17）Between be respectively provided with high-temperature high pressure valve.

3. a kind of high-temperature high-pressure drilling fluid mobile performance test device as described in claim 1, which is characterized in that the bypass Pipeline section（5）Upper installation high-temperature high pressure valve（9）, high-temperature high pressure valve is opened when needing pressure release（9）Carry out pressure release.

4. the method that high-temperature high-pressure drilling fluid mobile performance is tested using device described in claim 1,2 or 3, successively Include the following steps：

（1）Full of fluid line and make it with initial velocity V by three-phase magnetic driving device drilling fluid_JustSpeed loop stream It is dynamic, gas-booster is opened, liquid booster pump increases pressure with certain gas liquid ratio, increases temperature by temperature regulating device, make to flow Drilling fluid reaches the temperature and pressure at most deep stratum in body pipeline, and makes drilling fluid with V by three-phase magnetic driving device₀'s Speed loop flowing；

（2）The shear rate γ that drilling fluid flows at this time is measured by three-phase magnetic driving device₀；

（3）A part of drilling fluid is taken out from sampling pipeline section by sampling container, tests and record the corresponding rheological parameter of drilling fluid, And the pressure in fluid line is reduced by sampling process, the temperature in fluid line is reduced by temperature regulating device, to establish The pressure and temperature condition of next certain depth in stratum, reaches the circulation rate of drilling fluid by three-phase magnetic driving device V₁, measure shear rate γ of the drilling fluid in the depth₁；

（4）It repeats above-mentioned（3）Process, until drilling fluid reaches the temperature and pressure on ground.

5. method as claimed in claim 4, which is characterized in that the recycle stream of the three-phase magnetic driving device driving drilling fluid Dynamic direction is vertical section（3）- inclination pipeline section（2）- horizontal pipe section（4）- vertical section（3）.