Relevant bibliographies by topics / Horizontal oil well drilling. Horizontal oil well drilling Drilling and boring. Boring

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Horizontal oil well drilling. Horizontal oil well drilling Drilling and boring. Boring'

Author: Grafiati
Published: 4 June 2021
Last updated: 15 February 2022

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Journal articles on the topic "Horizontal oil well drilling. Horizontal oil well drilling Drilling and boring. Boring"

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Daniel, Joshua, Chad Penn, João Antonangelo, and Hailin Zhang. "Physicochemical Characterization of Horizontal Directional Drilling Residuals." Sustainability 12, no. 18 (September 18, 2020): 7707. http://dx.doi.org/10.3390/su12187707.

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Horizontal directional drilling (HDD) is a trenchless technology mainly used for the installation of gas, sewer lines, and fiber optic cables. Spent HDD fluid is a by-product of the boring process. However, little is known of its constituency, although the land application of spent HDD residuals would be an economical and less time-consuming method of disposal. Physicochemical analysis of spent HDD residuals from broad geographic regions was conducted to determine if the land application would be an environmentally safe option for disposal. Fifty-eight HDD samples were collected from 26 states throughout the United States. After separation of the liquid and solid portion, the materials were assessed for carbon (C), nitrogen (N), plant nutrients, soluble and total trace metals, total dissolved solids, sodium adsorption ratio (SAR), and potential “leachable metals”. All trace metal concentrations in the digested solid portion were well below the limits for biosolids set by the EPA 40 Part 503 rule for land application. Metal concentrations did not exceed the limits of drinking water standards. Besides the total amount of solids, there was nothing chemically limiting HDD residuals from land application. However, if boring through soil with suspected contamination, testing the residual before the application is recommended.
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Fan, Sen, Yue Xiang Li, Jin Qiang Cao, and Jian Bo Xie. "Optimization Technique in Double Stepped Thin Horizontal Well." Advanced Materials Research 734-737 (August 2013): 1226–29. http://dx.doi.org/10.4028/www.scientific.net/amr.734-737.1226.

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Oil industry at home and abroad has paid attention to the usage of horizontal well with the development of horizontal drilling technology, the number of horizontal well is increasing year by year inland, but some horizontal well constructions in thin oil pay is not ideal. Nanzhong 1H well has used double stepped horizontal well technology to develop thin oil pay, it has optimized the constructions in different stages and combined the steering technique in the drilling practice of thin oil pay, it has accelerated the drilling speed and reached the target fast and safely. It provides the reference for the further development of deep thin oil pay of horizontal well technology.
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Zhang, Hui, De Li Gao, and Wen Sheng Liu. "Risk Assessment of Extended Reach Well Based on Gray Matter-Element." Advanced Materials Research 361-363 (October 2011): 386–92. http://dx.doi.org/10.4028/www.scientific.net/amr.361-363.386.

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Drilling is one of the major means for oil and gas exploration and development. Extended reach wells (ERWs) are defined as directional wells or horizontal wells with horizontal displacement (HD) to vertical depth (VD) ratio greater than or equal to 2. Extended reach drilling (ERD) confronted many technical difficulties. Risk analysis of ERD before drilling is of great significance for preventing complex accidents during drilling operations, improving the drilling rate and efficiency. Based on gray matter-element theory, this paper established a comprehensive risk assessment model for ERD operations and applied this model to evaluate the drilling risk of Well B6ERW07(HD to VD ratio 5.94, horizontal displacement 7,419.42 m, vertical depth 1,248.50 m, measured depth 8,144.31 m)in the Liuhua oil field, South China Sea. The assessment results show that the predicted success rate of drilling this ERW is 49.9%. This result can be important criteria and thus contributes greatly to decision making.
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Niu, Hong Bo, Hong Shan Zhao, and Ji Fei Cao. "Application and Cognition of Unconventional Horizontal Well Drilling Technology in Shengli Oilfield." Applied Mechanics and Materials 318 (May 2013): 513–18. http://dx.doi.org/10.4028/www.scientific.net/amm.318.513.

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Long Horizontal Section Well has been an important way to explore deficient oil/gas field. Relative drilling technology has developed rapidly in recent years in China. This article puts focus on the methodology of well plan, trajectory control and matched tools and application situation of drilling fluid and drilling equipment for long horizontal section well. Based on the analysis of drilling and completion technical difficulties, suitability of some well design methods such as catenary curve used to decline friction and torque have been discussed, and even more practical means proven in many designs have been recommended. After introducing the drilling capability of the long horizontal-section well, the article indicated some special characteristic of the horizontal section wells and difference from ERD wells. Consequently, some advice is given on the definition and development of the drilling technology of long horizontal section wells.
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Nie, Gui Min, Dan Guo, Yan Wang, and Xiao Wei Cheng. "Research and Application of the Deep Horizontal Drilling and Completion Technology for Liaohe Oilfield Buried Hill Reservoir." Applied Mechanics and Materials 241-244 (December 2012): 1396–99. http://dx.doi.org/10.4028/www.scientific.net/amm.241-244.1396.

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With the depletion of shallow-layer oil and gas pools inLiaohe oilfield, buried hill stratigraphic reservoirs in Liaohe oil field are becoming main objectives for exploration in recent years, especially in high-risk areas of Xinglongtai deep the Hing ancient buried hill resources are particularly rich. Since 2007, Liaohe oilfield increased investment for Buried Hill reservoirs with deep horizontal drilling developt the buried hill reservoir. Liaohe has completed 36 deep horizontal, with a total footage of 183920m, the average depth of 5109m. Improving drilling speed of "buried hill deep horizontal and branch horizontal wells”, and reducing drilling costs are of great urgency. “Hing buried hill deep horizontal, horizontal wells,” with composite drilling technology, supporting the optimization of PDC bits, the high-pressure jet drilling, the MWD borehole trajectory control and optimization of drilling parameters, the new drilling fluid technology and so on. With a large number of horizontal wells put into Buried Hill stratigraphic reservoirs, oil and gas production of average deep horizontal well increase of 2-5 times. Besides, the previous recovery and production of oil and gas reservoirs significantly improved to create an objective economic and social benefits.
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bdul-Aali Al-Dabbaj,, Ayad A. Al-Haleem, A. "Horizontal Drilling Well Proposal in West Qurna Oil Field (Iraqi Oil Field)." International Journal of Innovative Research in Science, Engineering and Technology 5, no. 5 (May 15, 2016): 7296–303. http://dx.doi.org/10.15680/ijirset.2016.0505094.

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He, Jun, Shuai Qin Ren, Fu Ping Feng, and Guo Yong Liu. "The Position Analysis of Drilling Fluid Retention in Horizontal Well." Applied Mechanics and Materials 52-54 (March 2011): 2076–81. http://dx.doi.org/10.4028/www.scientific.net/amm.52-54.2076.

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The driving force caused by density difference of slurry and drilling fluid is a function of circumference angle and radius in horizontal well displacing. The closer to annulus bottom, the larger is the driving force, which leads to the displacing interface more easily to extend downward annulus. Based on the mechanics analysis of annular fluid displacing infinitesimal in horizontal well, this paper sets up the calculation model of drilling fluid layer dynamic shearing stress in displacing process. According to the equilibrium condition of displacing interface stability, the boundary position of drilling fluid retention layer at casing and sidewall with different circumference angles for horizontal well is acquired, which will enhance the pertinence of displacing techniques in horizontal well.Calculation results show that with the same circumference angle, the thickness of drilling fluid retention layer at sidewall is far larger than at casing. For this reason, the cement bond quality of the second cementing interface should be used as one of criterions for evaluating horizontal well cementing quality. And the retention at sidewall and casing gradually increases from the lower annulus to the upper part. The retention layer at upper sidewall is thickest. So the oil/gas/water channeling-path is easy to form and special attention should be given to cleaning the upper sidewall drilling fluid . Low permeable horizontal wells generally take subsection fracturing method for exploitation , requirements of cementing quality is higher. The guarantee of higher displacing efficiency is the premise of obtaining high quality of cement quality , in the horizontal well because of dirlling fluid retention and free water precipitation , the oil/gas/water channeling-path is easy to form at the upper wellbore , seriously restricted the implementation[1-2] of the horizontal well stimulation measures. At present technology about improving the displacing efficiency develope rapidly[3-6],but because of drilling fluid retention laws and the retention position is uncleared in horizontal well,which lead to these measures are not well targeted. Analysed by displacing interface dynamic extension process in the process of slurry displace drilling fluid , this article establishes dynamic shearing stress calculation model of horizontal well annular fluid displacing infinitesimal , according to the condition of displacing interface stability, the drilling fluid retention law and retention position in horizontal well is acquired.
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Sun, Yu Xue, Yu Ning Xie, and Chang Xiao. "MEG and its Application in Drilling Fluid." Advanced Materials Research 287-290 (July 2011): 2088–93. http://dx.doi.org/10.4028/www.scientific.net/amr.287-290.2088.

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Recently, oil-based drilling fluids are used mainly in horizontal wells, which are highly cost and have a poor performance to carry cuttings and may result in environmental problems because of the ineffective dispose of drilling waste. Therefore, a study is commenced to develop a water-based drilling fluid system (MEG drilling fluid system) that can satisfy the needs of horizontal well. The study begins with the molecular structure and properties of monomers about MEG. Then it selected the treatment agent which has a good compatibility with MEG, and confirms a best formula of MEG drilling fluid system. By the comparison between MEG and other drilling fluids, the former has evident advantages in cave preventing, lubricity, solid carrying and formation damage controlling; also it can minimize the environmental effects. The above proves that MEG drilling fluid system can well meet the need for horizontal well drilling.
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Ding, Y., and G. Renard. "Evaluation of Horizontal Well Performance After Drilling-Induced Formation Damage." Journal of Energy Resources Technology 127, no. 3 (March 22, 2005): 257–63. http://dx.doi.org/10.1115/1.1924463.

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It is well recognized that near-wellbore formation damage can dramatically reduce well productivities, especially for open hole completed horizontal wells. The economic impact of poor productivity of these wells has pushed toward significant efforts in recent years to study laboratory testing techniques and numerical modeling methods for predicting and controlling drilling-induced formation damage. This paper presents an integrated approach, combining a near-wellbore modeling with laboratory experiments for data acquisition as input for the model, to evaluate the performance of oil and gas wells after drilling-induced formation damage.
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Bondarenko, M., V. Kulyk, Z. Yevstakhevych, S. Danyliv, V. Zinenko, and M. Los. "APPARATUS AND METHODICAL COMPLEX FOR DETERMINATION OF OIL-GAS RESERVOIRS PARAMETERS WHILE DRILLING HORIZONTAL WELLS." Visnyk of Taras Shevchenko National University of Kyiv. Geology, no. 4 (87) (2019): 20–25. http://dx.doi.org/10.17721/1728-2713.87.03.

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The paper is devoted to the basic principles of the trend of logging, namely logging while drilling (LWD), which is new for Ukraine. The LWD technology has a number of advantages over other logging types, in particular, in supplementary exploration and production of hydrocarbons in fields that are in longterm development. In this case, the drilling of horizontal wells, which by productivity is much higher than the vertical ones, is important. For the investigations of horizontal wells, we proposed a universal compact radioactive logging tool with small diameter, which is placed in entire drill collar just before drilling. The combined radioactive logging tool LWD-КПРК-48 (48 mm in diameter) contains dual-spacing modules of neutron logging, neutron-gamma logging, density logging, as well as separately placed gamma-logging unit. Calibration works with the developed combined tool were carried out on physical models of reservoirs in the presence of drill collars and corresponding calibration dependences on porosity and density were obtained. They, together with the developed methods and other data, allow us to determine an extended set of petrophysical parameters, namely, the porosity of water-, oil- and gas-saturated reservoirs, the identification parameters of fluid: water – oil and water – gas, oil-, gas- and water saturation, volume content of oil and gas, etc. Test of a logging tool LWD-КПРК-48 when drilling a horizontal well in an oil-bearing bed showed high informativity and efficiency of product. The created apparatus and methodical complex for the investigation of horizontal oil and gas wells while drilling has several advantages over known analogues, in particular, is universal, convenient, more available to mining and well logging oil and gas companies.
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Dissertations / Theses on the topic "Horizontal oil well drilling. Horizontal oil well drilling Drilling and boring. Boring"

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Kartoatmodjo, Rudjuk Sinung Trijana. "A model for finite conductivity horizontal wellbores /." Access abstract and link to full text, 1994. http://0-wwwlib.umi.com.library.utulsa.edu/dissertations/fullcit/9522755.

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Ozkan, Erdal. "Performance of horizontal wells /." Access abstract and link to full text, 1988. http://0-wwwlib.umi.com.library.utulsa.edu/dissertations/fullcit/8825498.

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Ali, Md Wazed. "A parametric study of cutting transport in vertical and horizontal well using computational fluid dynamics (CFD)." Morgantown, W. Va. : [West Virginia University Libraries], 2002. http://etd.wvu.edu/templates/showETD.cfm?recnum=2281.

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Thesis (M.S.)--West Virginia University, 2002.
Title from document title page. Document formatted into pages; contains x, 108 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 42-46).
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Mishra, Nekkhil. "Investigation of hole cleaning parameters using computational fluid dynamics in horizontal and deviated wells." Morgantown, W. Va. : [West Virginia University Libraries], 2007. https://eidr.wvu.edu/etd/documentdata.eTD?documentid=5111.

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Thesis (M.S.)--West Virginia University, 2007.
Title from document title page. Document formatted into pages; contains x, 65 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 58-60).
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Arcieri, Michael Angel Santos. "Controle de vibrações mecânicas tipo "stick slip" em colunas de perfuração." Pós-Graduação em Engenharia Elétrica, 2013. https://ri.ufs.br/handle/riufs/5011.

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Mechanical vibrations are inevitable in drilling operations. Torsional stick-slip vibrations are vibrations that occur in drilling columns, which are produced by periodic variations of torque and characterized by large fluctuations in the speed of the drill bit. These vibrations are dangerous, primarily by the cyclical characteristic of the phenomenon that by the amplitude of the same, which can cause fatigue of the pipe, failures in the components of the drill string, deformations in the walls of the well, excessive wear of the drill, low rate of penetration, and collapse of the drilling process. The frequency of these unwanted oscillations can be reduced by the application of automatic control techniques. The objective of this study is to evaluate through numerical simulations, the application of conventional control techniques, such as proportional-integral control (PI), and nonlinear, as the sliding mode control (SMC) and the input-output linearization control (IOLC), to eliminate the presence of stick-slip oscillation in drilling columns. The controllers are designed primarily to maintain a constant speed of rotation system, by manipulating engine torque, thereby inferentially control the speed of the drill, thus providing optimum operation conditions, beyond preserving system stability. Results of simulations using drill string torsional models of two degrees of freedom (2-DOF) and four degrees of freedom (4-DOF) show the performance of the proposed control systems, which are analyzed and qualitatively compared.
Vibrações mecânicas são inevitáveis nas operações de perfuração. Vibrações torcionais stick-slip são vibrações que ocorrem em colunas de perfuração, as quais são produzidas pelas variações periódicas de torque e caracterizadas por grandes oscilações da velocidade da broca. Estas vibrações são prejudiciais, mais pela característica cíclica do fenômeno que pela amplitude da mesma, podendo originar fadiga da tubulação, falhas nos componentes da coluna de perfuração, deformações nas paredes do poço, desgaste excessivo da broca, baixa taxa de penetração e, inclusive, colapso do processo de perfuração. A frequência destas oscilações indesejadas pode ser reduzida pela aplicação de técnicas de controle automático. O objetivo deste trabalho é avaliar, mediante simulações numéricas, a aplicação de técnicas de controle convencional, como o controle proporcional-integral (PI), e não linear, como o controle por modos deslizantes (SMC) e o controle por linearização entrada-saída (IOLC) para eliminar a presença de oscilações stick-slip em colunas de perfuração. Os controladores são desenvolvidos principalmente para manter constante a velocidade do sistema de rotação, mediante a manipulação do torque do motor, para assim controlar inferencialmente a velocidade da broca, fornecendo desta maneira condições ótimas de operação, além de preservar a estabilidade do sistema. Resultados das simulações, usando modelos torcionais de uma coluna de perfuração de dois graus de liberdade (2-DOF) e de quatro graus de liberdade (4-DOF), mostram o desempenho dos sistemas de controle propostos, os quais são analisados e comparados qualitativamente.
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Angeles, Boza Renzo Moisés 1978. "Simulation and interpretation of formation-tester measurements acquired in the presence of mud-filtrate invasion, multiphase flow, and deviated wellbores." 2009. http://hdl.handle.net/2152/18377.

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This dissertation implements three-dimensional numerical simulation models to interpret formation-tester measurements acquired at arbitrary angles of wellbore deviation. Simulations include the dynamic effects of mud-filtrate invasion and multi-phase flow. Likewise, they explicitly consider the asymmetric spatial distribution of water-base and oil-base mud filtrate in the near-wellbore region due to the interplay of viscous, gravity, and capillary forces. Specific problems considered by the dissertation are: (a) estimation of permeability from formation-tester measurements (pressure and fractional flow) affected by multi-phase flow and mud-filtrate invasion, (b) quantification of the spatial zone of response of transient measurements of pressure and fractional flow rate, (c) prediction of fluid-cleanup times during sampling operations in vertical and deviated wells, (d) joint inversion of formation-tester and resistivity measurements to estimate initial water saturation and permeability of multi-layer models, and (e) estimation of saturation-dependent relative permeability and capillary pressure using selective measurement weighting and Design-of-Experiment (DoE) methods to secure a reliable initial guess for nonlinear inversion. Using realistic tool and formation configurations, field measurements validate the reliability of the proposed methods. In one example, multi-layer rock formations are modeled using electrofacies derived from nuclear magnetic resonance logs, thereby reducing the number of unknown layer permeability values from 22 to 6. In the same example, non-uniqueness in the estimation of permeability is reduced with the quantitative integration of resistivity and formation-tester measurements. A second field example undertakes the estimation of permeability by history matching both pressure and gas-oil ratio (GOR) measurements acquired with a focused-sampling probe in a 27° deviated well. Because the latter measurements are affected by partial miscibility between oil-base mud and in-situ oil, Equation-of-State (EOS) simulations are used to account for variations of fluid viscosity, fluid compressibility, fluid density, and GOR during the processes of invasion and fluid pumpout. Results indicate that gravity-segregation and capillary-pressure effects become significant with increasing angles of wellbore deviation. If not accounted for, such effects could substantially degrade the estimation of permeability. Synthetic and field examples confirm that standard formation-tester interpretation techniques based on single-phase analytical solutions lead to biased estimations of permeability, especially in deviated wells or when complete fluid cleanup is not achieved during sampling. In addition, it is found that gravity-segregated invaded formations strongly affect predictions of fluid sampling time. Reliable and accurate estimations of petrophysical properties are only possible when both the angle of wellbore deviation and the process of mud-filtrate invasion are included in the interpretation methods.
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Books on the topic "Horizontal oil well drilling. Horizontal oil well drilling Drilling and boring. Boring"

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Tingrui, Wang, ed. Xian dai ce zuan jing ji shu. Beijing: Shi you gong ye chu ban she, 2009.

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Horizontal and vertical drilling. New York: McGraw-Hill, 1992.

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Horizontal well technology. Tulsa, Okla: PennWell Pub. Co., 1991.

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Fritz, R. D. Geological aspects of horizontal drilling. Tulsa, Okla., U.S.A: American Association of Petroleum Geologists, 1991.

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Williston Basin Horizontal Well Workshop (1993 Minot, N.D.). Williston Basin Horizontal Well Workshop. [Saskatchewan]: Saskatchewan Energy and Mines, 1993.

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Short, J. A. Introduction to directional and horizontal drilling. Tulsa, Okla: PennWell Books, 1993.

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Samuel, G. Robello. Downhole drilling tools. Houston, TX: Gulf Pub., 2007.

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Horizontal directional drilling: Utility and pipeline applications. New York: McGraw-Hill, 2005.

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Aadnøy, Bernt Sigve. Mechanics of drilling. Aachen: Shaker, 2006.

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Aadnøy, Bernt Sigve. Mechanics of drilling. Aachen: Shaker, 2006.

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Book chapters on the topic "Horizontal oil well drilling. Horizontal oil well drilling Drilling and boring. Boring"

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Hamilton, Douglas S., Robert Barba, M. H. Holtz, Joseph Yeh, M. Rodriguez, M. Sánchez, P. Calderon, and J. Castillo. "Horizontal-well Drilling in the Heavy-oil Belt, Eastern Venezuela BasinA Postmortem of Drilling Experiences." In Horizontal WellsFocus on the Reservoir. American Association of Petroleum Geologists, 2003. http://dx.doi.org/10.1306/mth14824c8.

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Conference papers on the topic "Horizontal oil well drilling. Horizontal oil well drilling Drilling and boring. Boring"

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Akgun, F. "Drilling Stable Horizontal Wells-A Key Problem in Modern Oil Well Drilling." In Canadian International Petroleum Conference. Petroleum Society of Canada, 2002. http://dx.doi.org/10.2118/2002-052.

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Hussein, Ahmed, Prakash Jadhav, Ghery Sotomayor, Hadi Al-Ajmi, Khaled Al-Ajmi, Abdullah Al-Ajmi, Nasser Al Barazi, Abdul Aziz Suod Al Rushoud, and Mohammed Yusuf Khan. "Drilling and Completion Fluids Design for Horizontal Well Drilling - Case History from Kuwait Field." In SPE Asia Pacific Oil and Gas Conference and Exhibition. Society of Petroleum Engineers, 2013. http://dx.doi.org/10.2118/165742-ms.

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Al-Ajmi, Hadi Saad Hussain, Abdullah Al-Ajmi, Khalid Eid Al-Ajmi, Abdul Aziz Soud Al-Rushoud, Yousef Khan, Nasser Al Barazi, Abdullah Merza, Ghery Sotomayor, and Prakash Jadhav. "Drilling and Completion Fluids Design for Horizontal Well Drilling - Case History from Raudhatein Field." In SPE Middle East Oil and Gas Show and Conference. Society of Petroleum Engineers, 2013. http://dx.doi.org/10.2118/164177-ms.

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Khamitov, Oleg, Kirill Prostyakov, and Renat Khasanov. "Horizontal Well Drilling in Bashneft Oil Company - Current Situation and Prospects." In SPE Russian Oil and Gas Exploration & Production Technical Conference and Exhibition. Society of Petroleum Engineers, 2014. http://dx.doi.org/10.2118/171278-ms.

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Hollies, Doug, George Wadsworth, and Wael Hariz. "Drilling Practices for SAGD Wells in the Athabasca Oil Sands." In SPE/CIM Eighth One-Day Conference on Horizontal Well Technology. Society of Petroleum Engineers, 2001. http://dx.doi.org/10.2118/cim-01-06-ms.

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Yim, M., S. Healey, R. Leedham, M. Giuliano, M. Weber, and D. Pitre. "Drill String Torque Reducing Technology Improves Drilling Efficiency in Horizontal Well." In SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition. Society of Petroleum Engineers, 2015. http://dx.doi.org/10.2118/176134-ms.

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Ozbayoglu, Mehmet Evren, Reza Ettehadi Osgouei, Murat Ahmet Ozbayoglu, and Ertan Yuksel. "Hole Cleaning Performance of Gasified Drilling Fluids in Horizontal Well Sections." In International Oil and Gas Conference and Exhibition in China. Society of Petroleum Engineers, 2010. http://dx.doi.org/10.2118/131378-ms.

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Gupta, A., D. A. Summers, and S. V. Chacko. "Feasibility of Fluid-Jet Based Drilling Methods for Drilling Through Unstable Formations." In SPE International Thermal Operations and Heavy Oil Symposium and International Horizontal Well Technology Conference. Society of Petroleum Engineers, 2002. http://dx.doi.org/10.2118/78951-ms.

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Ahmad, Abuzar Tanweer, Faisal Fadel Abbas, Pradeep Kumar Choudhary, Ahmad M. H. Al-Naqi, Khalid Ahmed, and Waleed Khamis Al-Khamees. "Successful Drilling and Completion of Shallow-depth horizontal well in unconsolidated formation." In SPE International Heavy Oil Conference and Exhibition. Society of Petroleum Engineers, 2014. http://dx.doi.org/10.2118/172897-ms.

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Al-Ajmi, Moudi, Bader Al-Azmi, Roberto Peña, and Drew Hembling. "Improvement in Horizontal Well Drilling Efficiency Increases Oil Production in North Kuwait." In SPE Kuwait Oil & Gas Show and Conference. Society of Petroleum Engineers, 2017. http://dx.doi.org/10.2118/187568-ms.

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Reports on the topic "Horizontal oil well drilling. Horizontal oil well drilling Drilling and boring. Boring"

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Rougeot, J. E., and K. A. Lauterbach. The drilling of a horizontal well in a mature oil field. Office of Scientific and Technical Information (OSTI), January 1991. http://dx.doi.org/10.2172/6220198.

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