Devonian and Carboniferous Carbonates of Southern Kazakhstan: Depositional Analogs for Coeval Giant Oil and Gas Fields in the North Caspian Basin, Western Kazakhstan: ABSTRACT

AAPG Bulletin ◽  
1995 ◽  
Vol 79 ◽  
Author(s):  
H. E. Cook, V. G. Zhemchuzhnikov, W
Keyword(s):  
Oil And Gas ◽  
Caspian Basin ◽  
The North ◽  
Oil And Gas Fields ◽  
Western Kazakhstan ◽  
Gas Fields

scholarly journals FAMILIARIZATION OF HYDROMINERAL RESOURCES IN OIL AND GAS FIELDS OF WESTERN KAZAKHSTAN

2020 ◽  
Author(s):  
N.M. Itemen ◽  
◽  
E.M. Dutova ◽  
Keyword(s):  
Oil And Gas ◽  
Raw Materials ◽  
Published Data ◽  
Technological Solution ◽  
Reservoir Water ◽  
Oil And Gas Fields ◽  
Western Kazakhstan ◽  
Experimental Implementation ◽  
Environmentally Safe ◽  
Gas Fields

Based on the analysis of the published data is shown, economic efficiency of the processing of hydromineral raw materials in various countries of the world. In the course of research for 2017–2019 an experimental implementation of a technological solution for the complex processing of reservoir brines in specific areas (Asar, Bekturly, South Zhetybai deposits) was carried out, a technological scheme has been developed for the extraction of lithium and magnesium from associated brine taking into account their integrated and environmentally safe processing. The main characteristics of reservoir water are established, selected as promising for the extraction of compounds of Li and Mg.

CANNING BASIN AND GLOBAL PALAEOZOIC PETROLEUM SYSTEMS—A REVIEW

2005 ◽  
Vol 45 (1) ◽  
pp. 349 ◽  
Author(s):  
G.M. Carlsen ◽  
K. Ameed R. Ghori
Keyword(s):  
North America ◽  
North American ◽  
Oil And Gas ◽  
Oil Fields ◽  
North African ◽  
Canning Basin ◽  
Petroleum Systems ◽  
The North ◽  
Oil And Gas Fields ◽  
Gas Fields

There are more than 131 giant and super-giant oil and gas fields with Palaeozoic source and reservoir that are similar to the Canning Basin. These include Palaeozoic basins of North America, North Africa, and the North Caspian Basin of Kazakhstan and Russia.The productivity of these Palaeozoic petroleum systems depends on timing of generation and preservation of charge. Thick Ordovician, Permian, and Triassic evaporite deposits played a very important role in creating and preserving the North American, north Caspian, and north African giant oil and gas fields, respectively.The Mesozoic–Tertiary charged Palaeozoic systems are typically more productive than the Palaeozoic charged systems as exemplified by the north African basins.The Ordovician sourced and reservoired giant oil fields of the North American Mid-Continent are also highly productive. Within the Canning Basin, Ordovician sourced oil has been recovered on the Barbwire Terrace (in Dodonea–1, Percival–1 and Solanum–1) on the Dampier Terrace (in Edgar Range–1 and Pictor–1) and along the Admiral Bay Fault Zone (in Cudalgarra–1, Great Sandy–1, and Leo–1).The Canning Basin may be the least explored of the known Palaeozoic basins with proven petroleum systems. The Palaeozoic basins of North America are the most explored with 500-wells/10,000 km2 compared to the Canning Basin with only 4-wells/10,000 km2.The presence of five oil fields, numerous oil and gas shows and the well density in the Canning Basin (200 wells in 530,000 km2) suggests that further exploration is warranted. Critical analysis of the distribution of source rock, reservoir, seal, timing of generation versus trap formation and post accumulation modification for each tectonic unit of the Canning Basin is required.

Oil Production Enhancement by EOR Candidates Optimization

2021 ◽  
Author(s):  
Denis Yurievich Pisarev ◽  
Ildar Fanurovich Sharipov ◽  
Artur Michailovich Aslanyan ◽  
Danila Nikolaevich Gulyaev ◽  
Anastasiya Nikolaevna Nikonorova
Keyword(s):  
Oil And Gas ◽  
Thick Layer ◽  
Clay Content ◽  
Oil Production ◽  
Quaternary Period ◽  
The North ◽  
Oil And Gas Fields ◽  
Production History ◽  
Water Cut ◽  
Gas Fields

The study field is located in the Nizhnevartovsk district of the Khanty-Mansi autonomous region. The deposit is located in the Nizhnevartovsk crest zone. The geological section of this deposit features a thick layer (2740-2870 meters) of Meso-Cenozoic era sedimentary rocks starting from the Jurassic period up to and including the Quaternary period, and rests unconformably on the surface of the deposits of the folded Paleozoic basement. The pay zones of study oil and gas fields features mainly sandstone-siltstone reservoirs. The study formation XX11-2 features interleaved rocks with a high clay content. In the west and south-west of the field, the oil-saturated thicknesses vary on average from 5-10 m, and in the north, the thickness increases to 10-20 m. This field has a long-lasting production history as a result of drilling vertical and horizontal wells but is currently at production decline stage. The existing reservoir pressure support system assumes that the water-cut trend at the wells will increase. In recent years, there has been advanced flooding in some areas, resulting in a drop in oil production, while the reasons for the advanced flooding are not always clear. This is often due to the progressing spontaneous fracturing in the injector wells (Aslanyan, Akimov et al., 2020).

Repurposing of Offshore Oil and Gas Cables for Renewable Generation: Feasibility and Conceptual Qualification

2021 ◽  
Author(s):  
Ramy Magdy A. Mahmoud ◽  
Hazem Fayad ◽  
Paul E. Dodds
Keyword(s):  
Wind Farm ◽  
Oil And Gas ◽  
Capital Expenditure ◽  
Wind Farms ◽  
Cost Effective ◽  
Field Testing ◽  
Capital Costs ◽  
The North ◽  
Oil And Gas Fields ◽  
Gas Fields

Abstract Wind farms are expected to be deployed in the North Sea in increasing numbers and at ever greater distances from land, over the coming decades. Many nearby oil and gas fields have reached or are near the end of their lifespans, and their operators are eager to explore innovative ways to reduce decommissioning costs. One possibility would be to repurpose some of their infrastructures for use by wind farms, which would both delay decommissioning and reduce the wind farm capital costs. This paper investigates the potential for repurposing existing submarine power cores in decommissioned oil and gas fields as transmission cables for offshore renewables. Offshore power cables generally have longer lifetimes than are needed to deplete hydrocarbon reservoirs. Cable transmission capacity could be too low to provide the main connection to wind farms, but there is scope to increase capacity or use cables as auxiliary connections. A qualification methodology is proposed to assess whether existing cables might be usefully repurposed. Repurposing cables has an impact on renewable project capital expenditure (CAPEX) and levelised cost of energy (LCOE), it also positively affects decommissioning cost and the environment. The qualification methodology provides a cost-effective initial appraisal prior to field testing.

scholarly journals Effect of Effective Pressure on the Permeability of Rocks Based on Well Testing Results

Energies ◽  
2021 ◽  
Vol 14 (8) ◽  
pp. 2306
Author(s):  
Evgenii Vasilevich Kozhevnikov ◽  
Mikhail Sergeevich Turbakov ◽  
Evgenii Pavlovich Riabokon ◽  
Vladimir Valerevich Poplygin
Keyword(s):  
Oil And Gas ◽  
Oil Fields ◽  
Well Testing ◽  
Effective Pressure ◽  
Field Development ◽  
The North ◽  
Oil And Gas Fields ◽  
Gas Fields ◽  
Perm Region ◽  
Pressure Analysis

During the development of oil and gas fields, the permeability of the reservoirs decreases due to a decrease in reservoir pressure and an increase in effective pressure, as a result of which significant reserves of oil and gas remain in the reservoir. To predict the rate of decrease in oil production rates during field development and to respond quickly, it is necessary to know the law of permeability decrease with an increase in effective pressure. Existing methods for describing the change in the permeability of rocks were analyzed in the paper. Numerical analysis of the results of core studies from previously published papers and the results of field well testing on the examples of the north Perm region oil fields showed that in both cases, regardless of the type of rock and the type of reservoir, the change in permeability can be described by the same equations (exponential and power-law). Obtained equations can be used to predict changes in the permeability of terrigenous reservoirs of the north Perm region oil fields. At the same time, according to the results of well testing, an intensive decrease in permeability is observed with an increase in effective pressure. Analysis of the nature of permeability changes using the Two-Part Hooke’s Model showed that significant irreversible deformations are currently taking place in the formations of the oil fields under consideration. Predicting the change in permeability from effective pressure can allow to optimize the development of oil deposits.

A contribution to the petrophysical knowledge of the Lourinhã Formation as an analogue for the Statfjord Formation in the North Sea oil and gas fields

2020 ◽  
Vol 27 (1) ◽  
pp. petgeo2019-132
Author(s):  
Marco Ludovico-Marques
Keyword(s):  
North Sea ◽  
Oil Recovery ◽  
Oil And Gas ◽  
Effective Porosity ◽  
Average Value ◽  
The North ◽  
Oil And Gas Fields ◽  
The North Sea ◽  
Northern North Sea ◽  
Gas Fields

The Lourinhã Formation in the western region of Portugal is an analogue for the Statfjord Formation in the oil and gas fields of the Norwegian Northern North Sea. This petrophysics study encompasses a specific sandstone variety (M variety) of the Lourinhã Formation. This lithic arkose shows an average value of effective porosity of 18.5% and a permeability range of 20–30 mD, and is representative of the distribution range in the petrophysics models of the reservoirs of the Statfjord Formation. The petrographical, physical and mechanical characterization of the M variety sandstone is compared with the main features of the oil- and gas-producing sandstones of the Statfjord Formation in a reference well in the Norwegian Northern North Sea. Efficient enhanced oil recovery (EOR) projects in the oil and gas fields of the Norwegian Gullfaks hub are always needed, and this study intends to provide a contribution to that endeavour.

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