Oil-gas fracture four-dimensional electromagnetic multi-component real-time monitoring system and method

A real-time monitoring system, multi-component technology, applied in the direction of electromagnetic wave detection, etc., can solve the problems of increasing field and indoor workload, deviation, etc.

Inactive Publication Date: 2018-12-21
湖南继善高科技有限公司
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Problems solved by technology

Compared with the traditional Controlled Source Audio-Frequency Magneto Tellurics (CSAMT) and ground electromagnetic method Melos, this electromagnetic monitoring method has subversive advantages; Magneto-telluric (MT) field source has the disadvantages of randomness and weak signal, but it uses a pair of orthogonal electric components and magnetic components measured in the far zone, and calculates the apparent resistivity according to the approximate formula of the far zone. The scope of its application is limited; the signal measured in the far zone is weak, which deviates from the original intention of using an artific

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  • Oil-gas fracture four-dimensional electromagnetic multi-component real-time monitoring system and method
  • Oil-gas fracture four-dimensional electromagnetic multi-component real-time monitoring system and method
  • Oil-gas fracture four-dimensional electromagnetic multi-component real-time monitoring system and method

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Embodiment Construction

[0013] The specific implementation manners of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments. The following examples are used to illustrate the present invention, but are not intended to limit the scope of the present invention.

[0014] Such as figure 1 As shown, the present invention provides a four-dimensional electromagnetic multi-component real-time monitoring system for oil and gas fracturing, including:

[0015] An electromagnetic wave excitation source, the electromagnetic wave excitation source includes an electric dipole, and the electric dipole is used to transmit electromagnetic wave excitation signals of different frequencies to the fracturing target layer at a set distance parallel to or perpendicular to the direction of the horizontal well;

[0016] The electric field or magnetic field signal monitoring device is used to obtain the electric field signal and / or magnetic field signal b...

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Abstract

The invention provides an oil-gas fracture four-dimensional electromagnetic multi-component real-time monitoring system and method. The system is composed of an electromagnetic wave excitation sourceand an electric field or magnetic field signal monitoring device. The electromagnetic wave excitation source includes an electric dipole for transmitting electromagnetic wave excitation signals with different frequencies to a fracturing target layer beyond a set distance in a direction parallel or perpendicular to a horizontal well direction. The electric field or magnetic field signal monitoringdevice is used for acquiring electric field signals and/or magnetic field signals before fracturing of monitoring points in a fracturing monitoring range and electric field signals and/or magnetic field signals during the fracturing process. The electric field signals and/or magnetic field signals include horizontal components of electric field signals and/or magnetic field signals parallel to andperpendicular to the electromagnetic wave excitation signal emitting source when the electric dipole is perpendicular or parallel to the horizontal well of the electric dipole.

Description

technical field [0001] The invention relates to the technical field of oil and gas development in the field of exploration geophysics, and more specifically, to a four-dimensional electromagnetic multi-component real-time monitoring method and system for oil and gas fracturing. Background technique [0002] In the field of petroleum, fracturing refers to a method that uses hydraulic action to form cracks in oil and gas layers during the process of oil or gas recovery, also known as hydraulic fracturing. Fracturing is to artificially create fractures in the formation, improve the flow environment of oil underground, increase the production of oil wells, and play an important role in improving the flow conditions at the bottom of oil wells, slowing down interlayers and improving the production status of oil layers. There are two types of fracturing methods: hydraulic fracturing and high-energy gas fracturing. Hydraulic fracturing is to inject fluid into the well at high speed ...

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Application Information

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IPC IPC(8): G01V3/12
CPCG01V3/12
Inventor 何继善李建华
Owner 湖南继善高科技有限公司
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