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A Fracturing Method for Medium and High Rank Coalbed Gas Reservoirs

A coalbed methane and reservoir technology, applied in the direction of earthwork drilling, mining fluid, wellbore/well components, etc., can solve the problems of large fracturing fluid filtration loss, short fracture distance, poor sand-carrying capacity of active water, etc.

Active Publication Date: 2017-12-01
PETROCHINA CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] On the one hand, the existing technology perforates deeply in the middle of the coal seam, which makes the coal seam itself develop fractures, resulting in large fracturing fluid fluid loss; on the other hand, the active water used in the existing technology has poor sand-carrying ability, which makes its fracture creation ability poor
Both of the above two points make the seam-making distance short, which is not conducive to increasing production.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0067] The selected coal seam in this embodiment is the Anze block in the Qinnan area of ​​Shanxi. The depth of this coal seam is 1000-1006 meters, and the thickness is 6 meters. The coal seam roof is sandstone. The depth of the coal seam roof is 990-1000 meters, and the thickness is 10 m.

[0068] 1) Coal seam roof perforation: Carry out omnidirectional perforation in the coal seam roof 3-5 meters away from the coal seam (102 guns, 127 bullets, 60-degree phase angle, hole density of 16 holes / m), and the perforation depth is 996- 1000 meters, the perforation thickness is 4 meters, and the number of perforations is 64.

[0069] 2) Pump pre-fluid: preparation 170s-1 Modified guar gum fracturing fluid with a viscosity of 80mPa·s is used as the pad fluid, and the displacement of the pad fluid is controlled to be 2.5m 3 / min, pump 250m into the perforated coal seam roof 3 The pre-fluid is used to perform fracturing construction on the perforated coal seam roof, so that the first ...

Embodiment 2

[0077] The selected coal seam in this embodiment is the Zhengzhuang block in the Qinnan area of ​​Shanxi. The depth of this coal seam is 1000-1006 meters, and the thickness is 6 meters. The coal seam roof is sandstone. The depth of the coal seam roof is 990-1000 meters, and the thickness is 10 m.

[0078] 1) Coal seam roof perforation: Carry out omnidirectional perforation in the coal seam roof 2-4 meters away from the coal seam (102 guns, 127 bullets, 60-degree phase angle, hole density of 16 holes / m), and the perforation depth is 996- 1000 meters, the perforation thickness is 4 meters, and the number of perforations is 64.

[0079] 2) Pump pre-fluid: preparation 170s -1 Modified guar gum fracturing fluid with a viscosity of 100mPa·s is used as the pad fluid, and the displacement of the pad fluid is controlled to be 2.0m 3 / min, pump 200m into the roof of the perforated coal seam 3 The pre-fluid is used to perform fracturing construction on the perforated coal seam roof, s...

Embodiment 3

[0087] The selected coal seam in this embodiment is the Anze block in the Qinnan area of ​​Shanxi. The depth of this coal seam is 1000-1003 meters, and the thickness is 3 meters. The coal seam roof is argillaceous sandstone, and the depth of the coal seam roof is 990-1000 meters. The thickness is 10 meters.

[0088] 1) Coal seam roof perforation: Carry out omnidirectional perforation in the coal seam roof 2-5 meters away from the coal seam (102 guns, 127 bullets, 60-degree phase angle, hole density of 16 holes / m), and the perforation depth is 997- 1000 meters, the perforation thickness is 3 meters, and the number of perforations is 48.

[0089] 2) Pump pre-fluid: preparation 170s -1 The modified guar gum fracturing fluid with a viscosity of 90mPa·s is used as the pad fluid, and the displacement of the pad fluid is controlled to be 1.5m 3 / min, pump 150m into the perforated coal seam roof 3 The pre-fluid is used to perform fracturing construction on the perforated coal seam ...

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Abstract

The invention discloses a fracturing method for medium and high-rank coalbed methane reservoirs, belonging to the field of coalbed methane exploitation. The method comprises: pumping the front liquid of the modified guar gum system after perforating in the roof of the coal seam to form the first fracture; pumping the first sand-carrying liquid of the modified guar gum system into the first crack to fill the sand into it; pump the second sand-carrying liquid of the guar gum system into the first fracture to make it press through the coal seam, and form the second fracture containing sand in the coal seam; continue to pump the third sand-carrying liquid of the active water system , forming multiple longitudinal and transverse fractures containing sand in the coal seam; replace the residual sand in the wellbore into the formation, stop the pump, shut down the well, and flow back the liquid after the fractures are closed and the guar gum is broken; the wellhead pressure After it is zero, wash the well and perforate the whole section of the coal seam. Through the perforation on the roof of the coal seam and the strong sand-carrying ability of the modified guar gum, long fractures are formed and their direction is controlled, the effect of fracture creation is improved, the development of coal seam cracks is avoided, and a long-distance high conductivity area is formed near the wellbore.

Description

technical field [0001] The invention relates to the field of coal bed gas exploitation, in particular to a fracturing method for middle and high rank coal bed gas reservoirs. Background technique [0002] At present, my country's coalbed methane development is mainly concentrated in the Qinshui Basin and the Ordos Basin. These areas are mainly developed and produced by medium and high-rank coalbed methane. The reservoirs of this type of coalbed methane generally have low porosity, low permeability, and low saturation. features. However, the above-mentioned characteristics of coalbed methane reservoirs lead to low natural production capacity, and fracturing is usually required to achieve economical exploitation. At present, the commonly used fracturing transformation is the active water fracturing process, which expands the gas-water flow channel by forming sand-filled fractures with a certain geometric size and high conductivity in the reservoir, thereby improving the permea...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E21B43/267
Inventor 喻鹏杨延辉刘建伟张永平周帅张洋汤继丹
Owner PETROCHINA CO LTD
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