Well Placement and Operation Parameters Optimization of Horizontal Wells in the Development of the PK1 Reservoir of the Kharampurskoye Oil and Gas Condensate Field (Russian)

The study aims to analyze the relationship between the redetermination of the complexity of the geological structure of the Verkhnechonsky oil and gas condensate field and the schedule adjustment of the field development plans. The paper uses the data on the exploration and production wells obtained from the pilot operation of JSC Verkhnechonskneftegaz, the geophysical work results, and the research materials publicly available in the press. The geological structure of the Verhnechonskoye oil and gas condensate field is unique in its complexity. This is due to the following factors: a combination of tectonic disturbances accompanied by the intrusion of traps; high mineralization of the reservoir water; sharp variability of the filtration and reservoir properties of the producing horizons by area and section due to the unevenness of the lithological composition of the reservoirs, their salinization and complete pinch-out. The development system of any field should take into account the peculiarities of the field’s tectonic and lithological-facies structure, and meet specific technical and economic requirements for drilling and operating wells. The complexity of the field structure requires a thorough selection of a development system that inevitably changes as the features of the field structure are studied, e.g. vertical drilling suggested at the initial stage of the filed development was shortly after replaced with inclined-horizontal drilling with the calculation of two options. Within the pilot operation project of the Verkhnechonsky field, JSC Verkhnechonskneftegaz has developed two variants of uniform grids of directional and horizontal wells with pattern flooding for the most explored deposits of the Verkhnechonsky horizon of blocks I and II. Because of the intensive processes of the reservoirs’ secondary salinization, the flooding method required a study of the reservoir water composition. However, the proposed drilling plan using a downhole engine and gamma-ray logging could not ensure the wellbores ducting through the most productive sections of the horizon, therefore, the flow rates of some directional and horizontal wells were not high enough. To increase the drilling efficiency, the specialists of the Drilling Department (JSC Verhnechonskneftegaz), together with the Department of Geology and Field Development (Schlumberger Ltd.), proposed a new methodology that increases the drilling efficiency by using a rotary-controlled system, logging-while-drilling, and geosteering. Thus, the development system of the Verkhnechonsky oils and gas condensate field was changing in the process of specifying the field’s geological structure, anisotropy reservoir properties, and the thickness of the producing horizons in size and cut, their salinization and pinch-out, and the composition of the reservoir waters.

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The Results of the Geophysical Work and the Introduction of A Multi-Sensor System for Permanent Monitoring of Horizontal Wells Novoportovskoye Oil and Gas Condensate Field

10.3997/2214-4609.201901867 ◽

2019 ◽

Author(s):

V.O. Kosolapov ◽

V.I. Virt ◽

D.R. Bakhitov ◽

R.R. Badgutdinov

Keyword(s):

Oil And Gas ◽

Horizontal Wells ◽

Gas Condensate ◽

Sensor System

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Optimizing productivity in oil rims: simulation studies on horizontal well placement under simultaneous oil and gas production

Journal of Petroleum Exploration and Production Technology ◽

10.1007/s13202-020-01018-9 ◽

2020 ◽

Author(s):

Oluwasanmi Olabode ◽

Sunday Isehunwa ◽

Oyinkepreye Orodu ◽

Daniel Ake

Keyword(s):

Oil Recovery ◽

Oil And Gas ◽

Horizontal Wells ◽

Gas Production ◽

Gas Oil ◽

Reservoir Properties ◽

Well Placement ◽

Hydrocarbon Production ◽

Oil And Gas Production ◽

Oil Rim

AbstractThin oil rim reservoirs are predominantly those with pay thickness of less than 100 ft. Oil production challenges arise due to the nature of the gas cap and aquifer in such reservoirs and well placement with respect to the fluid contacts. Case studies of oil rim reservoir and operational properties from the Niger-Delta region are used to build classic synthetic oil rim models with different reservoir parameters using a design of experiment. The black oil simulation model of the ECLIPSE software is activated with additional reservoir properties and subsequently initialized to estimate initial oil and gas in place. To optimize hydrocarbon production, 2 horizontal wells are initiated, each to concurrently produce oil and gas. Well placements of (0.5 ft., 0.25 ft. and 0.75 ft.) are made with respect to the pay thickness and then to the fluid contacts. The results show that for oil rim with bigger aquifers, an oil recovery of 8.3% is expected when horizontal wells are placed at 0.75 ft. of the pay thickness away from the gas oil contact, 8.1% oil recovery in oil rims with larger gas caps with completions at 0.75 ft. of the pay zone from the gas oil contacts, 6% oil recovery with relatively small gas caps and aquifer and 9.3% from oil rims with large gas caps and aquifers, with completions at mid-stream of the pay zone.

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Multivariant Well Placement and Well Drilling Parameters Optimization Methodology. Case Study from Yamal Gas Field

10.2118/206574-ms ◽

2021 ◽

Author(s):

Bulat Magizov ◽

Dmitry Molchanov ◽

Alisa Devyashina ◽

Tatiana Topalova ◽

Ksenya Zinchenko ◽

...

Keyword(s):

Oil And Gas ◽

Horizontal Wells ◽

Parameters Optimization ◽

Well Performance ◽

Gas Field ◽

Stage Of Development ◽

Geological Conditions ◽

Side Track ◽

Horizontal Side ◽

Gas Fields

Abstract More and more oil and gas fields are moving into the third stage of development - the stage of production decline. Oil and gas operating companies are looking for the most effective ways of production stabilization and extending the period of well exploitation. The most frequently used approach of improving exhausted reservoirs performance is reducing the pace of pressure and hydrocarbons production decline by well workovers and horizontal sidetracks drilling. The most widely used type of new producing wells trajectory in low - and medium-amplitude gas fields, which include most of the Western Siberia gas reserves, is horizontal completion. According to the analysis carried out by two major Rosneft scientific centers, in oil saturated reservoirs with thickness less than 20 meters, the efficiency of horizontal wells with 300 meters length is 1.6-4 times higher than for directional wells, depending on the reservoir thickness and permeability. In gas saturated formations, the efficiency of horizontal wells performance relative to the directionally drilled wells in similar geological conditions is 3-6 times higher. As the consequence of scientifically based well performance analysis the volume of horizontal wells drilling and horizontal side track completions at the assets of PJSC "NK "Rosneft" significanty increased as for the period from 2016 to 2021, Figure 1.

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GEOSTEERING OF TWO HORIZONTAL WELLS IN SOUTH UMM GUDAIR FIELD: A SUCCESSFUL CASE HISTORY

The APPEA Journal ◽

10.1071/aj04005 ◽

2005 ◽

Vol 45 (1) ◽

pp. 55

Author(s):

M. Jha ◽

T. Tran ◽

D. Hawkins

Keyword(s):

Natural Water ◽

Oil And Gas ◽

Horizontal Wells ◽

Oil And Gas Industry ◽

Carbonate Reservoir ◽

Oil Field ◽

Low Permeability ◽

Well Placement ◽

Horizontal Drilling ◽

Lower Permeability

The South Umm Gudair (SUG) oil field located in the Neutral zone between Kuwait and Saudi Arabia has produced since 1968 from an active water drive carbonate reservoir of Lower Cretaceous age. The lower zones are homogenous intervals of higher permeability which appear to be sufficiently swept by natural water drive over a period of time. The upper zones of the reservoir have lower permeability, are relatively thin and are bound by tighter intervals that act as possible barriers to the natural water drive system.Geosteering techniques are now extensively used in oil and gas industry for horizontal wells to produce hydrocarbons from thin reservoirs to maximise recovery, and restricting water-coning problems. Recent advancements in well placement using Geosteering allow successful targetting of low permeability reservoir with great precision which results in exposing more drainage area in the target pay.The geosteering technique was considered for the first time in joint operation’s SUG field targetting two horizontal wells. Improved well productivity is achieved through optimised well placement. This success has led to a development plan and strategy of additional horizontal drilling locations to maximise recovery of un-swept oil from the low permeability reservoirs. This paper reviews the success of Geosteering in SUG’s two horizontal wells, completed in July 2004.

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