Improving the efficiency of processing the bottomhole zone of oil formations: chemical treatment in conjunction with ultrasonic exposure
Advantages of combined exposure
- Increased impact efficiency during well treatment by reducing surface tension at the oil-water and oil-rock boundaries;
- Improving the efficiency of chemical treatment due to acoustic effects;
- Increased processing area due to the connection of low-permeability interlayers;
- Controlled activation of chemical processes in the acoustic impact zone;
- Increased oil recovery in difficult geological and physical conditions of facilities operation, as well as in the development of hard-to-recover reserves.
Distinctive features of ultrasonic equipment
The power of the device in the well – 4 kW;
The device is lowered into the well using a geophysical cable in the tubing;
The possibility of interval treatment of the reservoir;
Control of the parameters of the ultrasonic drilling tool (power, frequency).
Filtration studies to determine changes in the permeability of a linear bulk reservoir model for oil before and after treatment with an acid composition of the SNPH grade with and without ultrasonic exposure
Summary results of the conducted research
| Model No | Reagent | Model length, cm | Absolute permeability | Pore volume | Water permeability | Oil permeability | Volume of injected reagent | Reagent permeability | Oil permeability | ccon |
|---|---|---|---|---|---|---|---|---|---|---|
| 1 | SNPH-9010J | 50 | 0,47 | 107,7 | 0,20 | 0,10 | 108 | 0,01 | 0,19 | 1,9 |
| 2 | SNPH-9010J + acoustics | 44 | 0,50 | 106 | 0,27 | 0,17 | 106 | 0,01 | 0,36 | 3,3 |
| 3 | SNPH-9010J + acoustics + colmatant * | 44 | 0,84 | 101,7 | 0,40 | 0,06 / 1,16** | 50 ( colmatant / 102 (reagent) | STOP /0,03 ** | 0,37** | 2,3 |
* colmatating agent (10% clay solution in reservoir water), before filtration attenuation; STOP-pressure rise from 2.3 MPa to 4.0 MPa – there was no filtration;
** together with acoustic effects.
Based on the results, it is established:
- Acid composition. An increase in the permeability of the reservoir model for oil by 1.9 times.
- Acid composition in combination with ultrasound exposure. An increase in oil permeability by 3.3 times.
- Acidic and ultrasonic effects contribute to the decalmatation of the porous medium and increase oil permeability by 2 times compared to acid composition treatment.
Laboratory and field tests have shown an increase in the efficiency of chemical treatment due to acoustic effects
- Increasing the processing area and joining the development of new interlayers;
- Increasing the oil permeability of the reservoir;
- Decalmatation of the porous medium in the bottomhole zone;
- Increasing the injection rate of chemical reagent;
- Reduction of work time during the development of low-permeability, colmatated, difficult-to-recover productive formations;
- The combined use of solvent with ultrasonic treatment can increase the efficiency of the method by ~20%;
- Ultrasonic effect enhances the strength characteristics of cement stone by 1.5-2 times.
In 2019, pilot field tests were conducted on chemical treatment technology in conjunction with ultrasound exposure (acid injection and ultrasound treatment) at 2 wells of the Vereiskiy horizon (C2ver).
| Well No. 5213 of the Staro-Kadeevskoye field | Well No. 5273 of the Staro-Kadeevskoye field |
|---|---|
| Mastering the transition to C2ver. | Intensification of inflow. |
| The planned flow rate of 100% has been reached. Reduction of work time during well development from 2-3 days to 10 hours. | Increase of the initial flow rate of the well by 80-100%. |