Mechanisms and Application of Viscosity Reducer and CO2-Assisted Steam Stimulation for a Deep Ultra-Heavy Oil Reservoir

The dryness of superheated steam is 100% and it exists in the form of pure steam whose properties are like ideal gas. When the steam has a large degree of superheat, it may take a relatively long time to cool, during which time the steam is releasing very little energy and transmitted long distances. The heating radius of superheated steam in the formation is 5-10m larger than saturated steam. In the heating area of superheated steam, the comprehensive effects by superheated steam (crude oil viscosity reduction, improved flow environment, changes in rock wettability and improved oil displacement efficiency, etc.) is much higher than that of saturated steam. Superheated steam stimulation in Kenkyak high water cut heavy oil reservoir pilot test results showed that the average daily oil production of single well by superheated steam stimulation was 2-4 times than that of saturated steam stimulation. Superheated steam is more effective to heat water-invaded oil reservoir than saturated steam.

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Study on Heating Zone and Producing Zone of Cyclic Steam Stimulation with Horizontal Well in Heavy Oil Reservoir

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.594-597.2438 ◽

2012 ◽

Vol 594-597 ◽

pp. 2438-2441 ◽

Cited By ~ 2

Author(s):

Shi Jun Huang ◽

Ping Hu ◽

Qiu Li

Keyword(s):

Heavy Oil ◽

Horizontal Well ◽

Thermal Recovery ◽

Oil Reservoir ◽

Heating Zone ◽

Oil Viscosity ◽

Cyclic Steam Stimulation ◽

Heavy Oil Reservoir ◽

Critical Viscosity ◽

Steam Stimulation

In this paper, employing reservoir simulation and mathematical analysis methods, considering typical heavy oil reservoir and fluid thermal properties, the heating and producing shape of thermal recovery with horizontal well for different heavy oil reservoirs including ordinary, extra and super heavy oil are investigated based on the modification of thermal recovery parameters of different viscosity. By introducing heating radius and producing radius and considering the coupling effect of temperature, pressure and oil saturation fields, a quantitative expression between heating radius/producing radius and oil viscosity, formation thickness is presented, so is the impact of oil viscosity on the heating radius. Results shows that for Cyclic Steam Stimulation, the producing radius of horizontal well is bigger than its heating radius for light oil, both of which, however, shrink with higher viscosity. Beyond a critical viscosity, where the heating radius equals to the producing radius, the heating radius of horizontal well would be bigger than its producing radius. More over, the critical viscosity shows tight relationship to the formation thickness.

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Experiments and analysis on development methods for horizontal well cyclic steam stimulation in heavy oil reservoir with edge water

Journal of Petroleum Science and Engineering ◽

10.1016/j.petrol.2020.106948 ◽

2020 ◽

Vol 188 ◽

pp. 106948 ◽

Cited By ~ 2

Author(s):

Zhanxi Pang ◽

Yanming Jiang ◽

Bo Wang ◽

Gang Cheng ◽

Xiaogang Yu

Keyword(s):

Heavy Oil ◽

Horizontal Well ◽

Oil Reservoir ◽

Cyclic Steam Stimulation ◽

Heavy Oil Reservoir ◽

Development Methods ◽

Steam Stimulation

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Dynamic Analysis of Steam Stimulation of Horizontal Wells in the Offshore Heavy Oil Reservoir with Bottom Water

Proceedings of the International Petroleum and Petrochemical Technology Conference 2019 ◽

10.1007/978-981-15-0860-8_39 ◽

2019 ◽

pp. 483-493

Author(s):

Yong-chao Xue ◽

Guan-yang Ding ◽

Meng-ge Du ◽

Jun Liu

Keyword(s):

Dynamic Analysis ◽

Heavy Oil ◽

Bottom Water ◽

Horizontal Wells ◽

Oil Reservoir ◽

Heavy Oil Reservoir ◽

Stimulation Of ◽

Steam Stimulation

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Cyclic Steam Stimulation Effect on Skin Factor Reviewed Case Study

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.818.287 ◽

2016 ◽

Vol 818 ◽

pp. 287-290 ◽

Cited By ~ 2

Author(s):

Wan Rosli Wan Sulaiman ◽

Azza Hashim

Keyword(s):

Production Rate ◽

Heavy Oil ◽

Development Program ◽

Thermal Recovery ◽

Reservoir Rock ◽

Oil Reservoir ◽

Oil Viscosity ◽

Cyclic Steam Stimulation ◽

Heavy Oil Reservoir ◽

Steam Stimulation

High oil viscosity is a major concern for recovery from heavy oil reservoir. Introducing heat to the formation has proven to be an effective way to improve mobility. The Heat transfer to the oil and reservoir rock is good for thermal recovery. The thermal recovery involves a well-known technique of cyclic steam stimulation which actually effect the nearby well area. Heavy oil reservoir which uses the thermal technique will experience the change of property. Fula North East (FNE) Sudanese field is located in the north-eastern part of Fula sub-basin. According to the development program of FNE, Bentiu layer (of Bentiu group) is the targeted reservoir where the pressure gradient is 285.65 psi/100m, perforation intervals is 540-533 m, and the average oil production rate of single well by applying the cyclic steam stimulation (CSS) is 236 bbl/d. For well- Q, (one of the hot wells) to void the bottom water the average production rate is 191 bbl/d. A minor change is observed in the key properties of the well when the skin affect is varied.

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Optimization of Cyclic Steam Stimulation in Highly Stratified Heavy Oil Reservoir of Middle Magdalena Basin: Moriche Field

10.2118/153234-ms ◽

2012 ◽

Cited By ~ 1

Author(s):

Daniel Higuera ◽

Karen Linnete Pachano Pelaez ◽

Javier Useche ◽

Alvaro Jose Serna ◽

Sidhartha Sur

Keyword(s):

Heavy Oil ◽

Oil Reservoir ◽

Cyclic Steam Stimulation ◽

Heavy Oil Reservoir ◽

Steam Stimulation

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Improvements of Superheated Steam Stimulation in Secondary Development of Heavy Oil Reservoir

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.524-527.1450 ◽

2012 ◽

Vol 524-527 ◽

pp. 1450-1455

Author(s):

An Zhu Xu ◽

Xiang Hong Wu ◽

Zi Fei Fan ◽

Lun Zhao ◽

Cheng Gang Wang

Keyword(s):

Heavy Oil ◽

Superheated Steam ◽

Oil Production ◽

Saturated Steam ◽

Oil Reservoir ◽

Displacement Efficiency ◽

Oil Displacement ◽

Oil Displacement Efficiency ◽

Heavy Oil Reservoir ◽

Steam Stimulation

With superheated steam, there is no direct relationship between temperature and pressure, Therefore, at a particular pressure it is possible for superheated steam to exist at a wide range of temperatures higher than that of its saturated steam. The heat transfer coefficient is 1/150-1/250 as much as that of saturated steam during heat transferring, and it takes a relatively long time to cool, during which time the steam is releasing very little energy and transmitted long distances. The mechanisms of superheated steam stimulation are mainly pointed to the performance of crude oil viscosity reduced, flow environment improved, rock wettability changed, oil displacement efficiency improved. Physical simulation shows that oil displacement efficiency by superheated steam is 6-12% higher than that of saturated steam at the same temperature, and under the condition of carrying the same heat, superheated steam enlarged the heating radius by about 10m, oil steam ratio increased by 0.7. Superheated steam stimulation was put into Kazakstan’s heavy oil reservoir after two cycles of saturated steam stimulation. The average daily oil production was 2-4 times that of saturated steam stimulation, which improved heavy oil production effectively. The secondary heavy oil thermal recovery by superheated steam stimulation applied in marginal heavy oil reservoirs achieved satisfactory effect.

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