The control of self-induced hydraulic fracturing process on RN-Yuganskneftegaz LLC oilfields

Authors: V.A. Baykov, I.M. Burakov, I.D. Latypov, A.A. Yakovlev (RN-UfaNIPIneft LLC, RF, Ufa), R.N. Asmandiyarov (RN-Yuganskneftegaz LLC, RF, Nefteyugansk)

Key words: hydraulic fracturing, self-induced hydraulic fracturing, fracture opening pressure, fracture closure pressure.

This work is devoted to the analysis of stimulated hydraulic fracturing dynamics on RN-Yuganskneftegaz LLC oilfields for the purpose of self-induced hydraulic fracturing condition assessment on the oilfield scale. This information allows to define the injection pressures range for the injection wells to control the self-induced hydraulic fracturing effect for the purpose of reservoir pressure maintenance optimization.

References

1. Afanas'eva A.V., Gorbunov A.T., Shustef I.N., Zavodnenie neftyanykh mestorozhdeniy pri vysokikh davleniyakh nagnetaniya (Waterflooding of oilfields at high pressure injection), Moscow: Nedra Publ., 1975, 215 p.

2. Davletbaev A., Baykov V., Ozkan E., Garipov T., Usmanov T., Asmandiyarov R., Slabetskiy A., Nazargalin E., Gidrodinamicheskie issledovaniya skvazhin v mnogoplastovykh nagnetatel'nykh skvazhin v usloviyakh prevysheniya davleniya zakachki nad davleniem raskrytiya treshchin (Multi-layer steady-state injection test with higher bottomhole pressure than the formation fracturing pressure), SPE 136199.

3. Baykov V.A., Davletbaev A.Ya., Usmanov T.S., Stepanova Z.Yu., Asmandiyarov R.N., Neftegazovoe delo. Elektronnyy nauchnyy zhurnal - The electronic scientific journal Oil and Gas Business, 2011, no. 1, URL: http://www.ogbus.ru/authors/Baikov/Baikov_1.pdf.

4. Mal'tsev V.V., Asmandiyarov R.N., Baykov V.A., Usmanov T.S., Davletbaev A.Ya., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 5, pp. 70-73.

4. Economides M.J., Nolte K.G., Reservoir stimulation, 3rd edition, Wiley, NY and Chichester,  2000, 750 p.

5. Latypov I.D., Borisov G.A., Khaydar A.M., Gorin A.N., Nikitin A.N., Kardymon D.V., Neftyanoe khozyaystvo – Oil Industry, 2011, no. 6, pp. 34-38.

6. Settari A., Warren G.M., Simulation and field analysis of waterflood induced fracturing, SPE 28081.

7. Longuemare P., Detienne J-L., Lemonnier P., Bouteca M., Onaisi A., Numerical modeling of fracture propagation induced by water injection/re-injection, SPE 68974.

8. Hustedt B., Zwarts D., Bjoerndal H.-P., Masfry R., van den Hoek P.J., Induced fracturing in reservoir simulations: application of a new coupled simulator to waterflooding field examples, SPE 102467.

9. Shchelkachev V.N., Osnovy i prilozheniya teorii neustanovivsheysya fil'tratsii (Fundamentals and applications of the theory of unsteady filtration), Moscow: Neft' i gaz Publ., 1995, P. 1, 586 p.

10. Keck R.G., Reiter D.F., Lynch K.W., Upchurch E.R., Analysis of measured bottomhole treating pressures during fracturing: do not believe those calculated bottomhole pressures, SPE 63033.

11. Shepel T.D., Economic real time fracture optimization using bottomhole monitoring systems, SPE 71699.

Key words: hydraulic fracturing, self-induced hydraulic fracturing, fracture opening pressure, fracture closure pressure.

This work is devoted to the analysis of stimulated hydraulic fracturing dynamics on RN-Yuganskneftegaz LLC oilfields for the purpose of self-induced hydraulic fracturing condition assessment on the oilfield scale. This information allows to define the injection pressures range for the injection wells to control the self-induced hydraulic fracturing effect for the purpose of reservoir pressure maintenance optimization.

References

1. Afanas'eva A.V., Gorbunov A.T., Shustef I.N., Zavodnenie neftyanykh mestorozhdeniy pri vysokikh davleniyakh nagnetaniya (Waterflooding of oilfields at high pressure injection), Moscow: Nedra Publ., 1975, 215 p.

2. Davletbaev A., Baykov V., Ozkan E., Garipov T., Usmanov T., Asmandiyarov R., Slabetskiy A., Nazargalin E., Gidrodinamicheskie issledovaniya skvazhin v mnogoplastovykh nagnetatel'nykh skvazhin v usloviyakh prevysheniya davleniya zakachki nad davleniem raskrytiya treshchin (Multi-layer steady-state injection test with higher bottomhole pressure than the formation fracturing pressure), SPE 136199.

3. Baykov V.A., Davletbaev A.Ya., Usmanov T.S., Stepanova Z.Yu., Asmandiyarov R.N., Neftegazovoe delo. Elektronnyy nauchnyy zhurnal - The electronic scientific journal Oil and Gas Business, 2011, no. 1, URL: http://www.ogbus.ru/authors/Baikov/Baikov_1.pdf.

4. Mal'tsev V.V., Asmandiyarov R.N., Baykov V.A., Usmanov T.S., Davletbaev A.Ya., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 5, pp. 70-73.

4. Economides M.J., Nolte K.G., Reservoir stimulation, 3rd edition, Wiley, NY and Chichester,  2000, 750 p.

5. Latypov I.D., Borisov G.A., Khaydar A.M., Gorin A.N., Nikitin A.N., Kardymon D.V., Neftyanoe khozyaystvo – Oil Industry, 2011, no. 6, pp. 34-38.

6. Settari A., Warren G.M., Simulation and field analysis of waterflood induced fracturing, SPE 28081.

7. Longuemare P., Detienne J-L., Lemonnier P., Bouteca M., Onaisi A., Numerical modeling of fracture propagation induced by water injection/re-injection, SPE 68974.

8. Hustedt B., Zwarts D., Bjoerndal H.-P., Masfry R., van den Hoek P.J., Induced fracturing in reservoir simulations: application of a new coupled simulator to waterflooding field examples, SPE 102467.

9. Shchelkachev V.N., Osnovy i prilozheniya teorii neustanovivsheysya fil'tratsii (Fundamentals and applications of the theory of unsteady filtration), Moscow: Neft' i gaz Publ., 1995, P. 1, 586 p.

10. Keck R.G., Reiter D.F., Lynch K.W., Upchurch E.R., Analysis of measured bottomhole treating pressures during fracturing: do not believe those calculated bottomhole pressures, SPE 63033.

11. Shepel T.D., Economic real time fracture optimization using bottomhole monitoring systems, SPE 71699.


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