Relevant bibliographies by topics / Horizontal oil well drilling. Oil well drilling. Oil fields

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  2. Dissertations / Theses
  3. Books
  4. Book chapters
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Academic literature on the topic 'Horizontal oil well drilling. Oil well drilling. Oil fields'

Author: Grafiati
Published: 4 June 2021
Last updated: 7 February 2022

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Journal articles on the topic "Horizontal oil well drilling. Oil well drilling. Oil fields"

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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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Carter, A., and J. Heale. "The Forties and Brimmond Fields, Blocks 21/10, 22/6a, UK North Sea." Geological Society, London, Memoirs 20, no. 1 (2003): 557–61. http://dx.doi.org/10.1144/gsl.mem.2003.020.01.45.

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AbstractThis paper updates the earlier account of the Forties Field detailed in Geological Society Memoir 14 (Wills 1991), and gives a brief description of the Brimmond Field, a small Eocene accumulation overlying Forties (Fig. 1).The Forties Field is located 180 km ENE of Aberdeen. It was discovered in 1970 by well 21/10-1 which encountered 119 m of oil bearing Paleocene sands at a depth of 2131 m sub-sea. A five well appraisal programme confirmed the presence of a major discovery including an extension into Block 22/6 to the southeast. Oil-in-place was estimated to be 4600 MMSTB with recoverable reserves of 1800 MM STB. The field was brought onto production in September 1975. Plateau production of 500 MBOD was reached in 1978, declining from 1981 to 77 MBOD in 1999.In September 1992 a programme of infill drilling commenced, which continues today. The earlier infill targets were identified using 3D seismic acquired in 1988. Acquisition of a further 3D survey in 1996 has allowed the infill drilling programme to continue with new seismic imaging of lithology, fluids and saturation changes. The performance of the 1997 drilling showed that high step-out and new technology wells, including multi-lateral and horizontal wells, did not deliver significantly better targets than drilling in previous years.In line with smaller targets, and in the current oil price environment, low cost technology is being developed through the 1999 drilling programme. Through Tubing Rotary Drilling (TTRD) is currently seen as the most promising way of achieving a step
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Pogrebnaya, I. A., and S. V. Mikhailova. "Efficiency Analysis of the Geological-Technical Activities in Severo-Ostrovnoe Field." Journal of Computational and Theoretical Nanoscience 16, no. 11 (2019): 4584–88. http://dx.doi.org/10.1166/jctn.2019.8359.

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The work is devoted to identifying the most relevant geological and technical measures carried out in Severo-Ostrovnoe field from the period of its development to the present. Every year dozens of geotechnical jobs (GJ) are carried out at each oil field-works carried out at wells to regulate the development of fields and maintain target levels of oil production. Today, there are two production facilities in the development of the Severo-Ostrovnoe field: UV1a1 and BV5. With the help of geotechnical jobs, oil-producing enterprises ensure the fulfillment of project indicators of field development (Mikhailov, N.N., 1992. Residual Oil Saturation of Reservoirs Under Development. Moscow, Nedra. p.270; Good, N.S., 1970. Study of the Physical Properties of Porous Media. Moscow, Nedra. p.208). In total, during the development of the Severo-Ostrovnoe field, 76 measures were taken to intensify oil production and enhance oil recovery. 12 horizontal wells were drilled (HW with multistage fracking (MSF)), 46 hydraulic fracturing operations were performed, 12 hydraulic fracturing operations were performed at the time of withdrawal from drilling (HW with MSF), five sidetracks were cut; eight physic-chemical BHT at production wells; five optimization of well operation modes. The paper analyzes the performed geological and technical measures at the facilities: UV1a1∦BV5 of the Severo-Ostrovnoe field. Four types of geological and technical measures were investigated: hydraulic fracturing, drilling of sidetracks with hydraulic fracturing, drilling of horizontal wells with multi-stage hydraulic fracturing, and physic-chemical optimization of the bottom-hole formation zone. It was revealed that two geotechnical jobs, namely, formation hydraulic fracturing (FHF) and drilling of lateral shafts in the Severo-Ostrovnoe field are the most highly effective methods for intensifying reservoir development and increasing oil recovery. SXL was conducted at 5 wells. The average oil production rate is 26.6 tons per day, which is the best indicator. Before this event, the production rate of the well was 2.1 tons per day. Currently, the effect of ongoing activities continues.
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Kumar, Rajesh, S. Ramanan, and J. L. Narasimham. "Redevelopment of a Matured Multilayered Carbonate Offshore Field Through High Technology Horizontal and Multilateral Wells." SPE Reservoir Evaluation & Engineering 10, no. 05 (2007): 453–57. http://dx.doi.org/10.2118/97520-pa.

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Summary Oil productivity from Mumbai High field, an offshore multilayered carbonate reservoir, increased significantly through the implementation of a major redevelopment program. Geoscientific information available from approximately 700 exploratory and develop- ment wells drilled in the field during nearly 25 years was incorporated during geological and reservoir simulation modeling of the field. High-technology drilling (viz. horizontal/multilaterals for the new development wells) was adopted on field scale to effectively address typical complexity of the layered carbonate reservoirs. Since the commencement of the project in 2000, approximately 140 new wells were drilled, mostly with horizontal and multilateral drainholes. Besides these, more than 70 suboptimal producers were also converted as horizontal sidetracks under brownfield development. The horizontal sidetracks were drilled as long-drift sidetrack (LDST), extended-reach drilling (ERD), LDST-ERD, short-drift sidetrack (SDST), and medium-radius drainhole (MRDH) types of wells through the application of innovative and emerging drilling technologies with nondamaging drilling fluids, whipstocks to kick off sidetrack wells, rotary-steering systems, and expandable tubulars to complete horizontal sidetracks in lower layers. With the implementation of this project, the declining trend was fully arrested and a significant upward trend in production has been established. Introduction The field redevelopment process requires the intergration of reservoir-development strategies, facility options, and drilling and production philosophies to maximize oil and gas recovery from a matured field. A significant number of case studies are available on mature field revitalization using a multidisciplinary team concept, exhaustive geo-scientific data analysis, and new drilling technologies (Chedid and Colmenares 2002; Clark et al. 2000; Dollens et al. 1999; Kinchen et al. 2001). Advancements in drilling and completion technology have enabled construction of horizontal wells with longer wellbores, more-complex well geometry, and sophisticated completion designs. Horizontal wells provide an effective method to produce bypassed oil from matured fields. In the early 1980s, this technology was in the development stage and was used in limited applications. By the 1990s, the technology had matured, and its acceptance in the industry had increased significantly. Performance of horizontal/multilateral wells, risk assessment of horizontal-well productivity and comparison of horizontal- and vertical-well performance in different fields is available in literature (Babu and Aziz 1989; Brekke and Thompson 1996; Economides et al. 1989; Joshi 1987; Joshi and Ding 1995; Mukherjee and Economides 1991; Norris et al. 1991; Vij et al. 1998). A significant number of horizontal/multilateral development wells were drilled as a part of redevelopment of Mumbai High, a matured multilayered carbonate offshore field in Western India. The details of new technologies applied and performance of these new high-technology wells are presented in this paper. Besides comparison of well productivity of horizontal and conventional sidetrack wells, this paper presents some technical issues faced.
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Berean, D., T. Slate, T. Wallace, et al. "PLANNING AND DRILLING OF SINUOUS HORIZONTAL WELLS FOR THE GRIFFIN AREA DEVELOPMENT." APPEA Journal 34, no. 1 (1994): 19. http://dx.doi.org/10.1071/aj93002.

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The Griffin Area Development in the Barrow Sub-basin of Western Australia consists of three major oil fields, the Griffin, Scindian and Chinook fields.One of many new concepts of subsea technology used for the Griffin Area Development is the application of horizontal wells with a sinuous profile to improve oil recovery in the Birdrong reservoir.Reservoir simulation modelling initiated the concept and as a result, a multi-disciplined team was formed early in the pre-development phase to plan and implement a horizontal drilling program. Issues which were addressed by this team during planning included wellbore stability, drilling fluids, liner and completion design, wellpath orientation, reservoir constraints and formation evaluation techniques.After an extensive planning period, three sinuous path horizontal wells, Griffin-5(H), Griffin-6/ST1(H) and Scindian-2/STI(H) were successfully drilled in early 1993 by a semi-submersible rig as part of the Griffin/Scindian fields development drilling program.These sinuous wells have a well path profile which intersects the reservoir in three low-angle passes of the vertical section over a horizontal length of between 800 and 950 m, in the shape of a sine wave.A feature of the wells was the use of geosteering techniques to keep the sinuous profile on track to intersect specific reservoir targets, using the latest in formation evaluation measurement while drilling (FEMWD) technology.Although technically successful, the economic benefit of the horizontal wells will be measured by their production performance when tied into the 'Griffin Venture' floating production facility, expected on stream in early 1994.
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Seggie, R., F. Jamal, A. Jones, M. Lennane, G. McFadzean, and J. Rogers. "SUB-SURFACE UNCERTAINTY IN OIL FIELDS: LEARNINGS FROM EARLY PRODUCTION OF LEGENDRE OIL FIELDS." APPEA Journal 43, no. 1 (2003): 401. http://dx.doi.org/10.1071/aj02021.

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The Legendre North and South Oil Fields (together referred to as the field) have been producing since May 2001 from high rate horizontal wells and had produced 18 MMBBL by end 2002. This represents about 45% of the proven and probable reserves for the field.Many pre-drill uncertainties remain. The exploration and development wells are located primarily along the crest of the structure, leaving significant gross rock volume uncertainty on the flanks of the field. Qualitative use of amplitudes provides some insight into the Legendre North Field but not the Legendre South Field where the imaging is poor. The development wells were drilled horizontally and did not intersect any fluid contacts.Early field life has brought some surprises, despite a rigorous assessment of uncertainty during the field development planning process. Higher than expected gas-oil ratios suggested a saturated oil with small primary gas caps, rather than the predicted under-saturated oil. Due to the larger than expected gas volumes, the gas reinjection system proved to have inadequate redundancy resulting in constrained production from the field. The pre-drill geological model has required significant changes to reflect the drilling and production results to date. The intra-field shales needed to be areally much smaller than predicted to explain well intersections and production performance. This is consistent with outcrop analogues.Surprises are common when an oil field is first developed and often continue to arise during secondary development phases. Learnings, in the context of subsurface uncertainty, from other oil fields in the greater North West Shelf are compared briefly to highlight the importance of managing uncertainty during field development planning. It is important to have design flexibility to enable facility adjustments to be made easily, early in field life.
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Zaitcev, Roman A., and Aleksei V. Raspopov. "EXPERIENCE OF OILFIELD DEVELOPMENT IN PERM KRAI USING HORIZONTAL WELLS." Вестник Пермского национального исследовательского политехнического университета. Геология. Нефтегазовое и горное дело 20, no. 2 (2020): 182–91. http://dx.doi.org/10.15593/2224-9923/2020.2.8.

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Hydrocarbon reservoir engineering has a top priority to achieve the highest possible value of the cost-effective oilrecovery factor. Structural deterioration of residual oil reserves and inevitable development of hard-to-recover reservesrequire new effective technologies and engineering solutions. Today, there is a tendency to replace the standard sizewell drilling technologies (including vertical, directional, horizontal, multilateral wells) and standard size dualcompletion equipment usage by slim-hole drilling technologies. In Perm Krai fields, more than 385 horizontal wellshave been drilled, while 3.4 % of them, i.e. 13 wells, have a small diameter. The conducted well operation analysisshows that the effectiveness of the horizontal well operations in a number of instances is significantly lower than thepotential one. This leads to a deteriorated economic performance of reservoir developments, and, eventually, to assetvalue reductions. Perhaps, the main reason of low effectiveness of the horizontal well operations lies is an insufficientunderstanding of geological and physical conditions of their successful operations. It has become obvious that drillinghorizontal wells in reservoirs with high compartmentalization, low net oil thickness, and decreased hydrodynamicconnectivity to the edge water zone offer a low level of performance. Productivity tends to decrease to average outputvalues of directional wells. Therefore, the problem of choosing a well design and its direction in specific geological andphysical conditions is highly relevant.
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Slate, Tony, Ralf Napalowski, Steve Pastor, Kevin Black, and Robert Stomp. "The Pyrenees development: a new oil development for Western Australia." APPEA Journal 50, no. 1 (2010): 241. http://dx.doi.org/10.1071/aj09014.

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The Pyrenees development comprises the concurrent development of three oil and gas fields: Ravensworth, Crosby and Stickle. The fields are located in production licenses WA-42-L and WA-43-L, offshore Western Australia, in the Exmouth Sub-basin. The development will be one of the largest offshore oil developments in Australia for some time. It is a complex subsea development consisting of a series of manifolds, control umbilicals and flexible flowlines tied back to a disconnectable floating production, storage and offloading (FPSO) vessel. The development involves the construction of 17 subsea wells, including 13 horizontal producers, three vertical water disposal wells and one gas injection well. The project is presently on production with first oil achieved during February 2010. This paper gives an overview of the field development and describes the engineering and technologies that have been selected to enable the economic development of these fields. The Pyrenees fields are low relief, with oil columns of about 40 metres in excellent quality reservoirs of the Barrow Group. Two of the fields have small gas caps and a strong bottom water drive common to all fields is expected to assist recovery. The oil is a moderate viscosity, low gas-to-oil ratio (GOR), 19°API crude. Due to the geometry of the reservoirs, the expected drive mechanism and the nature of the crude, effective oil recovery requires maximum reservoir contact and hence the drilling of long near horizontal wells. Besides the challenging nature of well construction, other technologies adopted to improve recovery efficiency and operability includes subsea multiphase flow meters and sand control with inflow control devices.
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SABUKEVICH, Violetta Sergeevna, Dmitry Georgievich PODOPRIGORA, and Artem Maratovich SHAGIAKHMETOV. "RATIONALE FOR SELECTION OF AN OIL FIELD OPTIMAL DEVELOPMENT SYSTEM IN THE EASTERN PART OF THE PECHORA SEA AND ITS CALCULATION." Periódico Tchê Química 17, no. 34 (2020): 634–55. http://dx.doi.org/10.52571/ptq.v17.n34.2020.658_p34_pgs_634_655.pdf.

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Rationale for selection and calculation of the optimal system for the development of the Pechora Sea oil field is an extremely difficult scientific-technical task. Severe climate conditions of the Arctic region, ice cover, well stock formation limits, slow rates of drilling for offshore oil fields, and remoteness from supply bases multiply the cost of projects and create significant difficulties in engineering design the field development system. To solve these problems, one needs to use highly efficient technologies for offshore oil fields development, which will ensure intensive oil production, thus obtaining significant revenues to pay off the expenses. The purpose of this work is to provide the basis for selection as well as calculate the optimum development system for an oil field in the eastern part of the Pechora Sea. The solution of the tasks was carried out on the basis of the features identified in the development of Arctic offshore oil fields, the analysis of geological and physical data on the oil field, a set of theoretical, analytical works, and mathematical modeling. Mathematical modeling was performed using standard and adapted methods for calculating oil field development systems. Based on the data received, it was concluded that it is the linear system of horizontal wells, which is optimal for the field development. Horizontal wells critical and initial flow rate and basic technical indicators have been calculated versus time. The estimation of the discounted cash flow and the discounted profit index has demonstrated that the investment project can be initiated. Since the oil field is now under supplementary exploration, the data obtained in the research can be applied for designing the oil field development system as soon as its industrial exploitation is approved.
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Karpenko, Oleksiy, Vasyl Sobol, Mykyta Myrontsov, and Ivan Karpenko. "Detection of intervals / layers in sections of the wells with anomalous areas of drilling mud filtrate contamination according to the well logging (with negative test results of horizons)." E3S Web of Conferences 280 (2021): 09007. http://dx.doi.org/10.1051/e3sconf/202128009007.

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The zone of infiltration of the drilling fluid filtrate into the reservoir rock creates significant difficulties for the study by logging methods and during further testing of the formation. Due to the penetration of filtrate, significant contamination of the near-wellbore zone occurs. The porosity and filtration characteristics of reservoir rocks are changing. There is a possibility of blockage by filtrate in the invaded zone of oil or gas flow from the formation to the well. As a result of the studies carried out using well logging data, it was found that the presence and distribution of a mud cake on the borehole wall opposite the reservoir is an important factor influencing the process of filtration of the drilling fluid into the layers. On the examples of the Yablunivske oil and gas and Kolomatske gas fields of the Dnieper-Donets basin, it is shown that the absence of a mud cake on the borehole walls leads to the formation of maximum, anomalous zones of filtrate invasion. The determining of the diameter of the invaded zone was carried out according to the data of electrical logging methods. In addition, the diameter of the invaded zone was calculated as a solution direct task equation for the case of direct filtration without blocking by the mud cake. Comparison of the results of determining the diameter of the invaded zone by two methods made it possible to draw certain conclusions. An important conclusion is that even partial absence of mud cake on the reservoir wall in the well leads to horizontal and vertical filtration of the drilling fluid from the well into the formation. As a result, the invaded zone may be so deep, that the gas flow rate is absent even at high values of porosity, permeability and gas saturation
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Dissertations / Theses on the topic "Horizontal oil well drilling. Oil well drilling. Oil fields"

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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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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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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.<br>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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AL-Rashidi, Abdulrahman F. "Designing neural networks for the prediction of the drilling parameters for Kuwait oil and gas fields." Morgantown, W. Va. : [West Virginia University Libraries], 1999. http://etd.wvu.edu/templates/showETD.cfm?recnum=1209.

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Thesis (M.S.)--West Virginia University, 1999.<br>Title from document title page. Document formatted into pages; contains x, 76 p. : ill. (some col.), map (some col.). Includes abstract. Includes bibliographical references (p. 54-55).
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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.<br>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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Books on the topic "Horizontal oil well drilling. Oil well drilling. Oil fields"

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Bakken Formation Short Course (1990 Billings, Mont.). Bakken Formation Short Course--study notes no. 1: Bakken Formation, March 28-29, 1990 : Rodeway Inn, Billings, Montana. Edited by Hansen William B and Montana Geological Society. Montana Geological Society, 1990.

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Horizontal and vertical drilling. McGraw-Hill, 1992.

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Horizontal well technology. PennWell Pub. Co., 1991.

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Schechter, Robert Samuel. Oil well stimulation. Prentice Hall, 1992.

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

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Fritz, R. D. Geological aspects of horizontal drilling. American Association of Petroleum Geologists, 1991.

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Artindale, James. Horizontal wellbores: Geological applications, drilling and completion technology and selection criteria. Canadian Hunter Exploration, 1991.

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

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

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Horizontal, high-angle, and extended-reach drilling: Engineering, geology, technology, and operations : an annotated and indexed bibliography. Southwest Geoservices, 1992.

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Book chapters on the topic "Horizontal oil well drilling. Oil well drilling. Oil fields"

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Hamilton, Douglas S., Robert Barba, M. H. Holtz, et al. "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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Kumar, Ashok, Kaman Singh, and Satya Prakash Gupta. "Application of Cellulose Derivatives in Mineral Processing." In Cellulose [Working Title]. IntechOpen, 2021. http://dx.doi.org/10.5772/intechopen.97127.

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Cellulose derivatives (CDs) have been recognized as an anionic water-soluble, non-toxic, biocompatible and biodegradable polysaccharide. The CDs have been used as a viscosity regulator, thickening agent, sizing agent and coating agent and emulsion stabilizer, electrode binder in various industries. These characteristics properties of CDs are associated with hydroxyl groups/functionalized groups present in their structure. The CDs have significant advantages in various fields including several industrial applications such as mineral processing, palletisation process, oil drilling industrial applications due to their non-toxic and selective properties. Moreover, The CDs have been extensively used as a depressant, dispersant as well as flocculants in mineral processing from various ores. During the mineral processing like flotation of sulfide minerals highly toxic inorganic species were used as dispersant and depressant which ultimately cases environmental toxicity. Therefore, there is a current need to introduce CDs as various alternative nontoxic dispersant and flocculants. This chapter emphasized an overview of the application of CDs in mineral processing including the structure, properties of the commonly used minerals processing.
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Conference papers on the topic "Horizontal oil well drilling. Oil well drilling. Oil fields"

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Hussein, Ahmed, Prakash Jadhav, Ghery Sotomayor, et al. "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, et al. "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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Azmi, Nur'ain Zalia, Rasheed Rahman, Eliyana Shaibudin, et al. "Boosting Up for Brown Field Oil with Well Placement and Drilling Engineering Synergy." In International Petroleum Technology Conference. IPTC, 2021. http://dx.doi.org/10.2523/iptc-21823-ms.

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Abstract X-Field is a mature offshore field located in the Sabah Basin, Malaysia. Two horizontal oil producers and one horizontal water injector was planned as part of the recent infill drilling campaign. As fields continue to mature, redevelopment projects often face both economical and technological challenges. Part of the redevelopment plan included the optimization of production and minimization of the residual/remaining attic oil in the reservoir. The horizontal well placement approach combined with drilling engineering concepts was synergized to handle the subsurface and drilling challenges. There are many key subsurface uncertainties when drilling horizontal wells, including but not limited to discontinuous sand bodies, lateral variations in sand thicknesses, multiple layering or sand/shale pockets, rapid structural changes, and fluid contact variation. In the planning stage, a systematic drilling engineering approach in managing drilling risks including complex anti-collision analysis contributed to successful drilling performance driven by "on-target" well placement execution. Selection of well placement technologies such as high definition multilayer-boundary mapping technology and wellbore imaging tool had enabled proactive geosteering to optimize the reservoir targets. This paper demonstrates the synergy of the drilling engineering and well placement technology selection, which was proven as a fit-for-purpose solution to deliver success to this horizontal well campaign in maximizing the production and injection potential.
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Sofonea, R., S. Spinu, I. Smocot, V. Tabanescu, and I. Adamache. "Horizontal Drilling Makes Possible the Development of Lebada East Oil Field-Upper Cretaceous Formation in the Romanian Continental Shelf of the Black Sea Second Part: Drilling, Completion, and Production Operations." In International Conference on Horizontal Well Technology. Society of Petroleum Engineers, 1996. http://dx.doi.org/10.2118/37135-ms.

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Wang, G., H. Zhou, H. Fan, et al. "Utilising Managed Pressure Drilling to Drill Shale Gas Horizontal Well in Fuling Shale Gas Field." In SPE Asia Pacific Oil & Gas Conference and Exhibition. Society of Petroleum Engineers, 2016. http://dx.doi.org/10.2118/182490-ms.

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Khvoshchin, P., N. Lyadova, S. Iliasov, I. Nekrasova, O. Garshina, and A. Kuznetsov. "The Results of Horizontal Well Drilling Using Invert-Emulsion Fluid at Kharyaginskoe Field." In SPE Russian Oil and Gas Exploration & Production Technical Conference and Exhibition. Society of Petroleum Engineers, 2014. http://dx.doi.org/10.2118/171283-ms.

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Zhao, Jingyuan, Yuxue Sun, and Xinfa Zhang. "Environmentally Friendly MEG Drilling Fluid System for Horizontal Well of Daqing Oil Field." In International Conference on Pipelines and Trenchless Technology 2011. American Society of Civil Engineers, 2011. http://dx.doi.org/10.1061/41202(423)221.

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Gezeery, T., Y. Halawa, M. Rashidi, et al. "A Collaborative Approach in Horizontal Drilling for Well Cost Optimization and Optimum Drainage, Minagish Field, West Kuwait." In SPE Kuwait Oil & Gas Show and Conference. Society of Petroleum Engineers, 2019. http://dx.doi.org/10.2118/198182-ms.

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Khvoshchin, P., N. Lyadova, S. Iliasov, I. Nekrasova, O. Garshina, and A. Kuznetsov. "The Results of Horizontal Well Drilling Using Invert-Emulsion Fluid at Kharyaginskoe Field (Russian)." In SPE Russian Oil and Gas Exploration & Production Technical Conference and Exhibition. Society of Petroleum Engineers, 2014. http://dx.doi.org/10.2118/171283-ru.

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Tribe, Ian, Gordon Holm, Stuart Harker, et al. "Optimized Horizontal Well Placement in the Otter Field, North Sea using New Formation Imaging While Drilling Technology." In SPE Offshore Europe Oil and Gas Exhibition and Conference. Society of Petroleum Engineers, 2003. http://dx.doi.org/10.2118/83968-ms.

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Reports on the topic "Horizontal oil well drilling. Oil well drilling. Oil fields"

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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), 1991. http://dx.doi.org/10.2172/6220198.

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