Key words: tracer tests, flooding, oil reservoir, channel, tracer, hydrodynamic relations, well, rhodamine C, ammonium thiocyanate, carbamide, disodium phosphate, strength (consentration).
Only reliable information about hydrodynamic processes occurring in the developed reservoir can provide the effective control for the flooding process. One of the most informative direct methods to determine inter-well parameters is indicator tracer methods. This article presents the results obtained from the complex tracer test conducted in the year of 2011 at the field Kalamkas and extended conclusions as well.
References
1. Sokolovskiy E.V., Solov'ev G.B., Trenchikov Yu.I., Indikatornye metody izucheniya neftegazonosnykh plastov (Indicator methods for the study of oil and gas reservoirs), Moscow: Nedra Publ., 1986, 157 p.
2. Ternovaya S.V., Tarasov M.G., Trunov N.M., et al., Uchenye zapiski geologo-geograficheskogo fakul'teta, Rostov-on-Don, 2004, pp. 156-168
3. Baykov U.M., Garifullin Sh.S., Eferova L.V., Metodika i rezul'taty primeneniya rodanistogo ammoniya dlya opredeleniya skorosti i napravleniya fil'tratsii nagnetaemoy vody po produktivnomu plastu (The methodology and results of ammonium thiocyanate to determine the rate and direction of the injected water filtration of productive formation), Trudy BashNIPIneft', 1975, no. 42.
4. Bukin I.I., Ganiev R.R., AsanbaevD.N., Kalmatskiy SP., Opredelenie skorosti i napravleniya fil'tratsii po plastu nagnetaemoy vody s pomoshch'yu indikatorov (Determination of the velocity and direction filtering by injected water reservoir with the indicators help), Trudy BashNIPIneft', 1981, no. 62.
5. Bukin I.I., Neftyanoe khozyaystvo – Oil Industry, 1981, no. 10.
6. Danilova E.A., Chernokozhee D.A., Elektronnyy nauchnyy zhurnal “Neftegazovoe delo” - The electronic scientific journal Oil and Gas Business, 2007, URL: http://wwvv.ogbus.ru/authors/Danilova/Danilova1.pdf.
7. Il'yaev V.V., Materialy V nauchno-teoreticheskoy konferentsii molodykh uchenykh i spetsialistov po razvitiyu nauchnykh osnov razrabotki mestorozhdeniy nefti i gaza (Proc. Vth Sc.-th. conference of young scientists and engineers to develop the scientific foundations of the development of oil and gas fields), Baku, 7-9 of July, 1989.
8. Kabo V.L., Rumyantseva E.A., Nazarova A.K., et al., Interval, 2000, no. 9.
9. Veselov M.V., Ivanov V.S., Kuz'mina G.I. et al., Metodicheskie rekomendatsii po kolichestvennoy interpretatsii dannykh indikatornykh issledovaniy mezhskvazhinnogo prostranstva neftyanykh mestorozhdeniy (Guidelines for the quantitative interpretation of tracer research crosshole space of oil fields), Moscow: VNIIgeoinformsistem Publ., 1988.
10. Bischoff K.B., Ellington R.T., Uhl A.E., Worcester D.A., Theory of tracer flow, SPE 718, 1963.
11. Brigham W.E., Abbazadeh-Dehghani M., Analysis of well-to-well tracer flow to determine reservoir layering, SPE 10760, 1984.
12. Brigham W.E., Abbazadeh-Dehghani M., Tracer testing for reservoir description, SPE 14102, 1987.
13. Hutchins R.D., Dovan H.T., Sandiford B.B., Aqueous tracers for oilfield applications, SPE 21049, 1991.