Treatment of Bottom Hole Zones of Production Wells With Oil-in-Water Emulsions To Restrict Breakthrough Gas Production in Yuri Korchagin Field

The textbook describes the design features of offshore horizontal multi-hole production wells, as well as the bottom-hole components of horizontal multi-hole wells. The classification of complications of multi-hole horizontal wells, methods of their prevention and elimination are given. Methods of underground geonavigation of the development of offshore horizontal production wells are proposed. The geological and field bases of operation of horizontal offshore multi-hole oil and gas wells, modes and dynamics of oil, gas and associated water production, methods for calculating dynamic bottom-hole and reservoir pressures are specified. The technologies of operation of offshore horizontal multi-hole wells are presented. The composition and scope of environmental, field and research marine monitoring of the operation of offshore horizontal multi-hole wells and the protection of the marine environment in the production of oil and gas are justified. Meets the requirements of the federal state educational standards of higher education of the latest generation. It is intended for undergraduates of the enlarged group of "Earth Sciences" training areas, as well as for teachers, employees of the fuel and energy complex, industrial geological exploration and oil and gas production enterprises, scientific and design organizations.

Download Full-text

Method and Application of Reducing Pressure and Increasing Production in Nanometer Porous Coal Seam

Tobacco Regulatory Science ◽

10.18001/trs.7.5.2.27 ◽

2021 ◽

Vol 7 (5) ◽

pp. 4608-4620

Author(s):

Jia Liu ◽

Yinghong Liu ◽

Ruyong Feng ◽

Na Li

Keyword(s):

Coalbed Methane ◽

Simulation Method ◽

Gas Production ◽

Coal Seams ◽

Bottom Hole ◽

Stable Production ◽

Production Wells ◽

Bottom Hole Flowing Pressure ◽

Coalbed Methane Production ◽

Production Period

Objectives: In order to deeply analyze the feasibility of reducing pressure and increasing production of coalbed methane wells in nano-porous coal seams and clarify the principle of well selection. Methods: The sensitivity of bottom hole flowing pressure to coalbed methane production is analyzed by establishing productivity equation in stable production period of coalbed methane wells. Combined with the numerical simulation method, the drainage and production effect of L-1 well in the Block A is simulated after reducing the flowing pressure at the bottom of the well. Results: The results show that for CBM wells that have been put into production, the effect of increasing the production can be achieved by reducing the bottom hole flowing pressure, and when the bottom hole flowing pressure is large, reducing the bottom hole flowing pressure can obtain a larger increase in gas production. The cumulative gas production of Well L-1 can be increased by 110x104m3 compared with the previous measures, and the increase rate can reach 85%. Conclusion: Combining with the pressure-reducing and increasing production wells in the Block A, the applicable conditions for pressure-dropping and increasing production to increase the production of CBM wells are proposed, that is, continuous and stable drainage and production, and there is a certain height of liquid column between the moving liquid level and the coal roof before operation.

Download Full-text

THE DEVICE WELLHEAD CONTROL VALVE FOR GAS PRODUCTION WELLS

Oil and Gas Studies ◽

10.31660/0445-0108-2018-6-119-123 ◽

2019 ◽

pp. 119-123

Author(s):

S. V. Marfitsyn ◽

А. V. Marfitsyn ◽

V. P. Marfitsyn

Keyword(s):

Control Valve ◽

Gas Production ◽

Production Wells

Download Full-text

DEVELOPMENT OF AN ASPHALT-RESIN-PARAFFIN DEPOSITS INHIBITOR AND SUBSTANTIATION OF THE TECHNOLOGICAL PARAMETERS OF ITS INJECTION INTO THE BOTTOM-HOLE FORMATION ZONE

Periódico Tchê Química ◽

10.52571/ptq.v17.n34.2020.793_p34_pgs_769_781.pdf ◽

2020 ◽

Vol 17 (34) ◽

pp. 769-781 ◽

Cited By ~ 2

Author(s):

Karina Shamilevna KHAIBULLINA ◽

Grigory Yurievich KOROBOV ◽

Aleksandr Viktorovich LEKOMTSEV

Keyword(s):

Core Material ◽

Hole Formation ◽

Technological Parameters ◽

Oil Saturation ◽

Bottom Hole ◽

Formation Zone ◽

Production Wells ◽

Bulk Model ◽

Corrosive Activity ◽

The Impact

The problem of the formation of asphalt-resin-paraffin deposits (ARPD) in oil fields within the “well – bottom-hole formation zone” system is still relevant. To prevent the formation of ARPD in the “bottom-hole formation zone – well” system, the ARPD inhibitors must have high adsorption and low desorption properties concerning the rock. The composition of inhibitors often includes surfactants. Nonionic surfactants, namely, polyesters, are widely used to prevent the formation of ARPD. However, currently, little is known about inhibitors with a combined effect, for example, possessing depressor-dispersing properties for ARPD. This work aimed to develop a combined inhibitor possessing not only depressor-dispersing properties but also having good adsorption and desorption properties to the rock to prevent the formation of ARPD. The paper presents the research results on the development of an ARPD inhibitor, as well as the effects of determination of its depressor dispersing, inhibiting, and corrosive properties; the temperature of oil saturation with paraffin is determined as well. The studies of the ARPD inhibitor adsorption were carried out by the static and dynamic methods. In contrast, the process of the inhibitor desorption was studied by oil filtering through a saturated sample of the rock using a bulk model and core material. The impact of the fluid flow rate on the inhibitor desorption rate was studied. The technological parameters of the ARPD inhibitor solution injection into the bottom-hole formation zone of production wells were calculated. The developed composition has high inhibiting properties concerning the ARPD, depressor dispersing properties, low corrosive activity for a metal surface, and is capable of lowering the temperature of oil saturation with paraffin.

Download Full-text

Evaluation of the Thermal and Mechanical Interaction of Gas Production Wells with Gas Hydrate Bearing Permafrost

10.3997/2214-4609.201950142 ◽

2019 ◽

Author(s):

E.M. Chuvilin ◽

B.A. Bukhanov ◽

G.S. Tipenko ◽

V.E. Tumskoy ◽

V.A. Istomin ◽

...

Keyword(s):

Gas Hydrate ◽

Gas Production ◽

Mechanical Interaction ◽

Production Wells

Download Full-text

JOHN BROOKES GAS FIELD DEVELOPMENT

The APPEA Journal ◽

10.1071/aj04001 ◽

2005 ◽

Vol 45 (1) ◽

pp. 13

Author(s):

A.J. McDiarmid ◽

P.T. Bingaman ◽

S.T. Bingham ◽

B. Kirk-Burnnand ◽

D.P. Gilbert ◽

...

Keyword(s):

Low Cost ◽

Time Frame ◽

Gas Production ◽

Gas Field ◽

Initial Development ◽

North West ◽

Field Development ◽

The North ◽

Production Wells ◽

Development Approach

The John Brookes gas field was discovered by the drilling of John Brookes–1 in October 1998 and appraisal drilling was completed in 2003. The field is located about 40 km northwest of Barrow Island on the North West Shelf, offshore West Australia. The John Brookes structure is a large (>90 km2) anticline with >100 m closure mapped at the base of the regional seal. Recoverable sales gas in the John Brookes reservoir is about 1 Tcf.Joint venture approval to fast track the development was gained in January 2004 with a target of first gas production in June 2005. The short development time frame required parallel workflows and use of a flexible/low cost development approach proven by Apache in the area.The John Brookes development is sized for off-take rates up to 240 TJ/d of sales gas with the development costing A$229 million. The initial development will consist of three production wells tied into an unmanned, minimal facility wellhead platform. The platform will be connected to the existing East Spar gas processing facilities on Varanus Island by an 18-inch multi-phase trunkline. Increasing the output of the existing East Spar facility and installation of a new gas sweetening facility are required. From Varanus Island, the gas will be exported to the mainland by existing sales gas pipelines. Condensate will be exported from Varanus Island by tanker.

Download Full-text

Plug and Abandonment Environment in British Columbia

Volume 8: Polar and Arctic Sciences and Technology; Petroleum Technology ◽

10.1115/omae2019-95163 ◽

2019 ◽

Author(s):

Majid Bizhani ◽

Élizabeth Trudel ◽

Ian Frigaard

Keyword(s):

British Columbia ◽

Fractured Reservoirs ◽

Horizontal Wells ◽

Gas Production ◽

Vertical Wells ◽

Gas Industry ◽

Testing Procedures ◽

The Past ◽

Production Wells ◽

Well Abandonment

Abstract British Columbia (BC) has a significant oil & gas industry, with approximately 25,000 wells drilled in the province since the early 1900s. In the past few decades, the industry has changed from a balanced oil & gas production to activities dominated by unconventional gas production which is recovered by hydraulic fracturing. Concurrently, since 2000 there has been a shift from isolated vertical wells to pad-drilled horizontal wells. The older well stock at end-of-life combines with horizontal production wells and fractured reservoirs, the consequence of which is a growing wave of abandonment in BC, building over the next decade. This paper reviews the existing data on BC wells, as it is relevant to well abandonment operations. This includes the well architectures, trajectories, depths, testing procedures, etc.

Download Full-text

Wettability Alteration To Increase Deliverability of Gas Production Wells

10.2118/117353-ms ◽

2008 ◽

Cited By ~ 1

Author(s):

Xina Xie ◽

Yajun Liu ◽

Mukul Mani Sharma ◽

William W. Weiss

Keyword(s):

Gas Production ◽

Wettability Alteration ◽

Production Wells

Download Full-text

Low parameter model to monitor bottom hole pressure in vertical multiphase flow in oil production wells

Petroleum ◽

10.1016/j.petlm.2015.08.001 ◽

2016 ◽

Vol 2 (3) ◽

pp. 258-266 ◽

Cited By ~ 9

Author(s):

Mohammad Ali Ahmadi ◽

Morteza Galedarzadeh ◽

Seyed Reza Shadizadeh

Keyword(s):

Multiphase Flow ◽

Oil Production ◽

Hole Pressure ◽

Bottom Hole Pressure ◽

Bottom Hole ◽

Production Wells

Download Full-text