Исследования геофизическими методами технического состояния наклонно-направленных и горизонтальных скважин
Аннотация
Ключевые слова
Полный текст:
PDFЛитература
Adiyev YA.R., Valiullin R.A., Korovin V.M., Shilov A.A. 2003. Sistemnyy kontrol tekhnicheskogo sostoyaniya skvazhin [System control of the technical condition of wells]. NTV Karotazhnik. AIS, Tver. 111-112:169-178. (in Russian)
Afanasyev V.S., Afanasyev S.V. 2005. Sistema avtomatizirovannoy vizualnoy interpretatsii rezultatov geofizicheskikh issledovaniy skvazhin Gintel2005. Opisaniye i rukovodstvo polzovatelya. [The system of automated visual interpretation of the results of geophysical exploration of wells Gintel2005. Description and user manual] OOO Geoinformatsionnyye tekhnologii i sistemy, p. 910. (in Russian)
Akhmetsafin R.D., Bulgakov A.A. Szhatie dannykh pri akusticheskom karotazhe [Data compression during acoustic logging]. Karotazhnik. 90:51-56. (in Russian)
Belov S.V., Zhulanov I.N., Tashkinov I.V., Shumilov A.V. 2002. Programma «GIS-AKTS» - effektivnoye sredstvo kontrolya kachestva tsementirovaniya obsadnykh kolonn [The GIS-ACW program is an effective tool for controlling the quality of casing cemention]. Karotazhnik. 93:90-94. (in Russian)
Gulin Yu.A. 1975. Gamma-gamma metod issledovaniya neftyanykh skvazhin [Gamma-gamma method for oil wells study]. Nedra, Moskva, p. 160. (in Russian)
Gutorov Yu.A. 1996. Formirovaniye optimalnogo geofizicheskogo kompleksa dlya otsenki tekhnicheskogo sostoyaniya obsazhennykh skvazhin [Formation of an optimal geophysical complex for assessing the technical condition of cased wells]. Karotazhnik. 20:61-67. (in Russian)
Dobrynin V.M., Chernoglazov V.N., Gorodnov A.V. 1996. Novye vozmozhnosti kontrolya za razrabotkoy mestorozhdeniy [New Opportunities for Monitoring of the Field Development]. Neftyanoye khozyaystvo, 6:29-32. (in Russian)
Zhulanov I.N., Sementsov A.A., Matyashov S.V. 1998. Opyt primeneniya tsifrovoy registratsii i obrabotki volnovogo signala AK v OAO «Permneftegeofizika» [The experience of using the digital recording and processing of the AL wave signal at OJSC Permneftegeofizika]. Karotazhnik. 51:110114. (in Russian)
Zaichkin Ye.V., Shumilov A.V., Belov S.V., Tashkinov I.V. Svidetelstvo ob ofitsialnoy registratsii programmy dlya EVM «Szhatiye polnogo volnovogo paketa akusticheskogo karotazha» (Szhatiye VS) [Sertificate of official registration of the computer program “Compression of the full wave packet of acoustic logging” (Compression of WS)] № 2002612073, 11.12.2002. Moskva, ROSPATENT. (in Russian)
Ivakin B.N., Karus Ye.V., Kuznetsov O.L. 1978. Akusticheskiy metod issledovaniya skvazhin [Acoustic method for wells research]. Nedra, Moskva, p. 320. (in Russian)
Kileyko Ye.S., Kozyryatskiy N.G., Korzhenevskiy A.G., Napolskiy V.A., Savich A.D., Shumilov A.V. 2002. Rukovodyashchiy dokument RD 440001-01 «Instruktsiya po vyboru kompleksa geofizicheskikh issledovaniy i sredstv dostavki priborov na zaboy v protsesse bureniya i ekspluatatsii gorizontal'nykh skvazhin» [Guiding document RD 440-00101 “Instructions for the selection of a complex of geophysical surveys and means for delivering devices to the face during drilling and operation of horizontal wells”]. TK-440, Tver, pp. 1-15. (in Russian)
Kozhevnikov D.A. 1997. Problemy interpretatsii dannykh GIS [Problems of interpretation of well logging data]. Karotazhnik. 34:7-27. (in Russian)
Korovin V.M., Adiyev R.YA., Bulayev V.I., Baryshev V.I., Lesnikov V.V. 2004. Peredacha dannykh akusticheskogo karotazha po tsifrovym kanalam svyazi [Transmission of acoustic logging data through digital communication channels]. Karotazhnik. 2 (115):59-65 p. (in Russian)
Laptev V.V., Suleymanov M.A., Semonov Ye.V., Ivanov V.YA., Khamitov R.A. 2001. Programmnoupravlyayemyy apparaturno-metodicheskiy kompleks AMK-2000 dlya kontrolya tekhnicheskogo sostoyaniya i kachestva tsementirovaniya skvazhin [Software-controlled hardware-methodical complex AMK-2000 for monitoring the technical condition and quality of well cementation]. Karotazhnik. 86:79-86. (in Russian)
Popov S.V., Savich A.D., Shumilov A.V. 2004. Tekhnologiya predvaritelnogo spuska geofizicheskikh priborov pod glubinnyy nasos – osnova monitoringa razrabotki neftegazovykh mestorozhdeniy [The technology of preliminary descent of geophysical instruments under a deep pump is the basis for monitoring the development of oil-and-gas fields]. In: Geologiya i poleznyye iskopayemye Zapadnogo Urala». PGNIU, Perm, pp. 215-219. (in Russian)
Potapov A.P., Kneller L.Ye. 2000. Matematicheskoye modelirovaniye i interpretatsiya materialov skvazhinnoy impulsnoy elektromagnitnoy tolshchinometrii [Mathematical modeling and interpretation of borehole pulsed electromagnetic thickness measurement materials]. Geofizika. 5:27-30. (in Russian)
Programmnoye obespecheniye [Software] // OOO «Neftegazgeofizika», 2020. URL: http://www.karotazh.ru/ru/ programs (accessed on 28.05.2020).
Pryamov P.A., Bernshteyn D.A. 1978. Rukovodstvo po primeneniyu akusticheskikh i radiometricheskikh metodov kontrolya kachestva tsementirovaniya neftyaykh i gazovykh skvazhin [Guidance on the use of acoustic and radiometric methods for monitoring the quality of cementing of oil-and-gas wells]. VNIINEFTE-PROMGeofizika, Ufa, p. 109. (in Russian)
Ramazanov A.Sh., Remeyev I.S., Gumerov I.R., Yusim Yu.M., Bulgakov R.B. 1997. Avtomatizirovannaya sistema obrabotki dannykh gidrodinamicheskogo zondirovaniya plastov «GIDROZOND» [Automated data processing system for hydrodynamic sounding of layers "HYDROZOND"]. Karotazhnik. 30:74-76. (in Russian)
Savich A.D., Shumilov A.V., Chernykh I.A., Lagoyda D.V. 2006. Tekhnologiya neposredstvennogo zamera termodinamicheskikh parametrov raboty skvazhiny [Technology for direct measurement of thermodynamic parameters of a well]. Neftyanoye khozyaystvo. 1:72-75. (in Russian)
Sidorov V.A. 1996. Magnitoimpulsnaya defektoskopiya i tolshchinometriya kolonn [Magneto-pulse defectoscopy and thickness gauge of columns]. Neftyanoye khozyaystvo. 10:12-14. (in Russian)
Khamatdinov R.T. 1998. Kompyutornye tekhnologii GIS [Well logging computer technology]. Karotazhnik. 47:74-77. (in Russian)
Chto takoye «Geopoisk»? [What is Geopoisk?]. Geopoisk, 2020. URL: http://www.geopoisk. com/practice.htm (accessed on 28.05.2020) (in Russian)
Shumilov A.V. 2019. Issledovaniye pritoka zhidkosti v skvazhinakh s gorizontalnym okonchaniyem stvola veroyatnostno-statisticheskimi metodami [The study of fluid flow in wells with horizontal end of the trunk by probabilistic-statistical methods]. Neftyanoye khozyaystvo. 12:136-139 (in Russian)
Shumilov A.V. 2007. Programmnyy kompleks «Sonata» - novyy uroven razvitiya sovremennogo geofizicheskogo predpriyatiya [The Sonata software package is a new level of development of the modern geophysical enterprise]. Karotazhnik. 2(155):6778. (in Russian)
Shumilov A.V., Belov S.V. 2014. Novyy programmnyy kompleks «Szhatie GIS» [New software complex "Compression of well logging"]. Karotazhnik. 11(245):76-89. (in Russian)
Allahar J.A., Krieger K. 2003. Horizontal Production Logging Using Tractor Technology - a First for Trinidad. SPI 81118, Caribbean Petroleum Engineering Conference. Port-of Spain, Trinidad, West Indies, 27-30 April, 2003.
Kersey A. D., Gysling D. L., Bostick F. X. 1999. Fiber-Optic Systems for Reservoir Monitoring. World Oil. October, pp. 91-97.
Tang X.M., Cheng A. 2004. Quantitative Borehole Acoustic Methods. Volume 24, 1st Edition, Pergamon. Techlog Wellbore Software Platform. Schlumberger, 2020. URL: https://www.software.slb.com/ products/techlog (accessed on 28.05.2020).
Wippich M., Dessau K. L. 2003. Tunable Lasers and Fiber-Bragg-Grating Sensors. Industrial Physicist. June/July, pp. 24-27.
DOI: http://dx.doi.org/10.17072/psu.geol.19.2.140
Ссылки
- На текущий момент ссылки отсутствуют.
