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Tracing and monitoring method of multi-stage fracturing flow-back fluid

A fracturing flowback fluid and fracturing fluid technology, which is applied in the field of oil and gas well fracturing, can solve the problems that the fracturing effect and fluid flow cannot be judged specifically, the flowback fluid and production conditions cannot be monitored, and the formation conditions are complicated. Achieve the effect of intuitive and accurate fracturing, small error, and strong fracturing pertinence

Inactive Publication Date: 2019-01-01
PETROCHINA CO LTD
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Problems solved by technology

In the prior art, the development of fractures after fracturing can be monitored and analyzed by microseismic method, potential method, etc., but these methods have disadvantages such as complex process and high cost, and often due to complex formation conditions and many interference factors, it is difficult to Accurately explain the fracturing situation of each layer, and it is impossible to monitor the world-class problem of flowback fluid and production after each fracturing layer
In the previous fracturing of horizontal well layers, the amount of flowback fluid and whether crude oil and fracturing fluid are contained in the flowback fluid can only be known through the fracturing flowback fluid, but it is impossible to specifically judge the oil and fracturing fluid in each layer. Fracturing effect and fluid flow
However, the application of chemical methods in the monitoring of fracturing effects can only be used as an auxiliary means due to low monitoring accuracy and limited use.

Method used

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  • Tracing and monitoring method of multi-stage fracturing flow-back fluid
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  • Tracing and monitoring method of multi-stage fracturing flow-back fluid

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Embodiment 1

[0038] This embodiment provides a tracer monitoring method for multi-stage fracturing flowback fluid. The object of this method is multi-stage fracturing of an exploration well in Liaohe Oilfield. The fracturing is divided into nine stages, and the tracer monitoring method of this embodiment is used to evaluate the fracturing effect.

[0039] The method of the present embodiment comprises the following steps:

[0040] (1) Preparation of tracer aqueous solution:

[0041] Select the appropriate type of tracer according to the fracturing construction plan, and design the tracer concentration and dosage as shown in Table 1;

[0042] Table 1

[0043]

[0044]

[0045] The tracer was prepared into a tracer aqueous solution with a mass concentration of 5% in hot water at 50°C, and fully stirred evenly to prepare a total of 9 kinds of tracer aqueous solutions;

[0046] Pour the completely dissolved tracer aqueous solution into nine 1m 3 Add the liquid to the tank and set to ...

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Abstract

The invention provides a tracing and monitoring method of a multi-stage fracturing flow-back fluid. The tracing and monitoring method of the multi-stage fracturing flow-back fluid comprises the following steps of injecting a tracer agent into each formation in the horizontal well multi-stage fracturing operation process; in the fracturing fluid flow-back process, periodically detecting the concentration of the tracer agent in the fracturing flow-back fluid; and according to the detected concentration of the tracer agent, calculating amounts of a fracturing fluid and formation water in the fracturing flow-back fluid of each formation and drawing the section of the fracturing flow-back fluid of each formation so as to analyze a fracturing situation of each formation. According to the tracingand monitoring method of the multi-stage fracturing flow-back fluid, the fracturing situation of each formation can be quantitatively monitored; the judged fracturing situation is visual and accurateand can be quantitatively analyzed, and the error of the fracturing situation is small; and an important guiding effect on the fracturing work of the same formation is realized. After the fracturingsituation is obtained by using the tracing and monitoring method of the multi-stage fracturing flow-back fluid, a design scheme can be optimized for situations of different formations so that the fracturing targeted property is higher, the purposefulness is higher and the significance in the actual production is important.

Description

technical field [0001] The invention relates to a trace detection method for multi-stage fracturing flowback fluid, belonging to the technical field of oil and gas well fracturing. Background technique [0002] At present, with the large-scale development of horizontal wells, multi-layer and multi-stage fracturing has gradually become the preferred process for formation stimulation. However, in the process of layer selection, there is no pertinence, especially for exploratory wells, layer selection is based on experience. Therefore, it is particularly important to collect data after fracturing and analyze the fracturing effect. In the prior art, the development of fractures after fracturing can be monitored and analyzed by microseismic method, potential method, etc., but these methods have the disadvantages of complicated process and high cost, and often due to complex formation conditions and many interference factors, it is difficult to Accurately explain the fracturing ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E21B43/26E21B47/11
CPCE21B43/26E21B47/11
Inventor 张洪君吴志俊张子明李超刘畅徐乐苏建李玉印
Owner PETROCHINA CO LTD
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