SU1613569A1 - Automatic system for controlling cleaning of drilling mud - Google Patents

Abstract

The invention relates to the drilling of oil and gas wells. The goal is to increase the degree of purification of the drilling fluid. For this purpose, the sensor of tensioning the vibrating screen 14 is installed at the input of the unit 11 hydrocyclones. The latter is connected to the automatic control unit 7, to which the actuator 15, the alarm detectors 21, 22, the pressure sensor 16 and the induction flow sensors 18, 19 are respectively connected. When driving a sand packing on the hydrocyclones in block 11, the flow parameters in the conical part of the hydro cyclones in front of the sand packing change dramatically. The sensors 18, 19 on the cone of hydrocyclones in front of the sand nozzle produce a signal, which in block 7 is compared with the specified one. In proportion to the error, a signal is generated about the emergency state of the system. The pulp section on hydrocyclones pulp enters the tank, where it is disposed of. 1 il.

Description

The invention relates to the drilling of oil and gas wells and can be used to control the degree of purification of drilling fluids.

The aim of the invention is to increase the degree of purification of the drilling fluid.

II ;, the drawing shows a diagram of the system. The automatic system contains a vibrating screen I installed at the well outlet for cleaning the drilling fluid, connected by a transport line 2 to a receiving tank 3, a hopper 4 for bulk materials with a dispenser 5. connected to a mixer 6, an automatic control unit 7, an adjustable gate valve 8, a first on / off gate valve 9 , prices; Robotic pump K ", unit II of hydrocyclones, a storage tank 12. A pulp supply unit 13, a vibrating screen tension sensor 14, an actuator 15, a pressure sensor 16, a second on / off valve

17, the first and second induction sensors

18. 19 flow rate and mud pumps 20 installed at the output of the receiving tank 3, the first and second alarm-signaling devices 21. 22.

The output of the mixer 6 and the input of the pump 10 are connected to the transport line 2. The output of the pump 10 is connected through the first on-off slide 9 to the first input of the pulp supply unit, the second input of which is connected to the output of the storage tank 1 '?. the output is connected to the transport bus 2 The input of the hydrocyclone unit 11 is connected via an adjustable slide valve 8 to the transport line 2 and through the second on-off valve 17 with the output of the centrifugal pump 10. The output of the hydro-cyclone unit 11 is connected to the transport line 2. The first input of the automatic control unit 7 is connected to pressure sensor 16, the second input is connected to the vibrating screen tension sensor, the third and fourth inputs are connected respectively by the <first and second induction sensors 18. 19 flow rate. The first, second, third and fourth you odes of the automatic control unit 7 are connected respectively to the control input of the adjustable engine

8. the actuator 15, the first and second alarm devices 21, 22.

Block 7 а in the <’mathematical control contains two PID controllers and two threshold type comparison elements

Si. gema work in the following manner-g.

The drilling fluid continuously flows from the well οι vibrating screen 1 along the transport line 2 (for example, a gutter). On the vibrating screen 1 there is a separation of the solid phase with a particle size of from 0.16 to 0.9 mm The change in the tension of the grid of the vibrating screen 1 is associated with a change in the mass of the drilling fluid passing through it. In this case, the signal from the sensor 14 and ignition generator is compared with the specified setpoint in block ^7. , Nt ». Ι from -.- control. Proportional to the mismatch by block 7, a signal is generated that arrives at the actuator 15. which changes ciegg / gh and ομπ / γι · g oud vibration oscillations .. 1

This is the impact of μ. · Μ <: "?:" ·· network bandwidth. ,.1 . 1. .1 as a result of which the set value of the mesh tension is restored. Maintaining the constancy of the mass of the solution on the vibrating screen; " 1 leads to a stoy.puyu · and us.: O, .gb · separation and provides with gt g, aching b.-heat of cleaning VIbrosi: ;; Ϊ.

Thus, the first stage of purification occurs.

The second and third stages of purification are blocks of 11 gigropiclones, where in a purified solution, post ./drunk from the transport line 2 · centimeter ") of the run-down pump 19, separation of the solid phase with oa.” Particle particle hger 0.07-0.16 and 0.04--9.07 yut-g'm lB'-Hiio. When changing the pressure in front of unit 1 | · Π drocyclonosis from pressure gauge 16 is compared in automatic control unit 7 with a predetermined setting. 11, according to the mismatch, in the block 7, a signal is generated that is sent to the control "! -" low input; r of an adjustable gate valve 8 E g. · ^G signal changes the degree of opening ·. · *,. "·· glasses 8 t »a block bypass line блока! dg.sshyu.-..- STY In reZ'-ltage varies soups solution flowing unit and January 1 hydrocyclones and a predetermined pressure value before the block I <vosstanavtivdetg I Maintaining constant pressure before January 1 -block hydrocyclones reducible> · stabchtchnosti separation conditions and about "-heggive.te: stability of the degree of purification.

When driving ι >> »· nozzles on hydrocyclones in the block 1 1 r · jo, the flow parameters in the conical part of the hydrocyclones change before the sand i.a <ice. Induction sensors 18. 19 flow rates on the hydrocyclone cone in front of the sand nozzle are produced by I’n Ignat, cat in the automatic control unit 7 with; It complies with the specified Prog. option (in order to start working out, • - • the screen is paused. · 'about the unknown state of the system.

Detachable on gidrotsik.yunah pulp enters smkost 12 wherein tiviziruetsya _h. If the flesh of the aunt is large enough due to the fact that it’s saved, then through the feed unit 13 the p'-flakes o; ·. · »Pg · are given to the transport chii 2. Dummies (two-position 9. 17 '· adjustable 8) allow you to divert part mud through the bypass line to the transport line, bypassing the block 11 of hydrocyclones. The finished drilling mud is pumped 20

Claims (1)

Claim An automatic system for regulating the degree of cleaning of the drilling fluid, containing a vibrating screen for cleaning the drilling fluid installed at the well outlet, connected by a conveyor line to a receiving tank, a hopper for bulk materials with a dispenser connected to a mixer, the outlet of which is connected to the conveyor line, a centrifugal pump, a unit of hydrocyclones accumulating capacity for the pulp, pulp supply unit, mud pumps installed at the outlet of the receiving capacity, two on / off and adjustable gate valves, auto block control unit, while the input of the centrifugal pump is connected to the transport line, the output is connected through the first on-off valve to the first input of the pulp supply unit, the second input of which is connected to the output of the storage tank, the output is connected to the transport line, the input of the hydrocyclone block is connected via an adjustable valve to the transport the line and through the second on-off valve - with the output of the centrifugal pump, the output of the hydrocyclone block 5 is connected to the transport line, and the first output of the automatic block board is connected to the control input of an adjustable valve, wherein. that, in order to increase the degree of purification of the drilling fluid, it is equipped with a tension gauge ¹⁰ vibrosieve installed at the inlet of the hydrocyclone block, a pressure gauge, two induction flow sensors, an actuator and two emergency alarms, while the strain gauge tension jig is connected to the second input of the automatic block control, the second third, fourth outputs and the first, third, fourth inputs of which are respectively connected to the actuator, the first and second alarms20 , a pressure sensor, the first and second induction flow sensors.