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System of subterranean anomaly detection and repair using infrared thermography and ground penetrating radar

a subterranean anomaly and infrared thermography technology, applied in the field of subterranean anomaly detection and repair systems, can solve the problems of affecting the accuracy of subterranean anomalies, so as to reduce the impact of personnel and process interactions, and reduce the progress to a catastrophic end

Active Publication Date: 2007-04-26
ENTECH ENG
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

"The present patent application describes a system and method for detecting and repairing subterranean anomalies, such as leaks and voids, in pipelines and subsoil. The system involves the fusion of sensing and mapping technology, including infrared thermography and GPR, which is non-invasive, non-destructive, and can be used even in the most congested subterranean conditions. The system uses multiple forms of data input sensors, such as visual imagery data and radar data, to identify and locate the anomalies. The data is then analyzed and displayed on a computer or video display monitor using quad type software. The system can also be used in the field to recheck the leak and stabilize the subsurface materials. The technical effects of this patent include faster, economical, safe, efficient, accurate, and reliable detection and repair of subterranean anomalies in pipelines and subsoil."

Problems solved by technology

Most underground conduits or pipelines, whether they contain oil, chemicals, water, steam, gas or sewage, have a design life of 25 to 50 years, and when they begin to fail, they do so slowly at first through defective construction joints, corrosion and small cracks, and gradually progress to a catastrophic ending.
This disastrous failure can be expensive in terms of both dollars and lives.
None of these work satisfactorily on a refinery pipelines or sewers because: 1) Such lines may range in size from 1″ to 72″ diameter, for example; 2) They may be either gravity and pressurized systems; 3) They typically are buried beneath major pieces of refining equipment and mixed in with hundreds of other types of pipelines; and 4) Nearby pipelines and equipment produce prodigious amounts of auditory noise which interferes with testing.
The lack of any accurate method or system of investigating the buried conduits, pipelines or sewer lines, for example, can lead to many unknowns that can significantly increase the rehabilitation costs of the traditional excavation and concrete encasement methods of repair.

Method used

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  • System of subterranean anomaly detection and repair using infrared thermography and ground penetrating radar
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  • System of subterranean anomaly detection and repair using infrared thermography and ground penetrating radar

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Embodiment Construction

[0044] Referring to the drawings, an Improved System of the invention uses a hierarchy or fusion of systematic features and methodology to identify and remediate subterranean anomalies which lie beneath the surface of various kinds of terrain and industrial sites such as refineries. Such anomalies may include, for example, pipeline leaks, voids, ruptures, water system leaks, fractures of vessels, housings, or pipelines or tubing or other lines. A combination of visual, infrared thermographic and subterranean referencing sensors, such as by the use of ground penetrating radar, to detect one or more anomalous defects, voids or leaks.

[0045] The hierarchy is initiated by the use of visual reference and application of infrared thermography or other image analysis when a leak, erosion void, or other subterranean anomaly is suspected, the hierarchical system is initiated by carrying out infrared thermography of the surface overlying the suspected anomaly. This involves scanning a selected...

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Abstract

Method and system to identify, verify and remediate subterranean anomalies. Infrared (IR) thermographic scanning [10] of a selected surface area obtains image area data [12, 14] inferring such an anomaly. Ground penetrating radar (GPR) is used [22] at predetermined surface locations penetrates subterraneously to a depth including the anomaly, creating vertical dimension radar data [120] showing anomaly depth. Surface image IR data is correlated with GPR data to verify the anomaly and its vertical dimension and finds [124] a central location in the anomaly. Anomaly volume is predetermined from the area data and vertical-dimension data. Grout injected [26, 124] into the central location at first pressure secures the anomaly by surrounding the central location. After verifying centrally securement, more grout is injected [32, 126] into the anomaly region at second pressure at least as great as the first pressure until the total grout injected approximates the predetermined anomaly volume.

Description

CROSS-REFERENCE AND CLAIM FOR PRIORITY [0001] This application claims the priority of U.S. Provisional Application Ser. No. 60 / 685,338, filed May 27, 2005, of the present inventor, and entitled System of Subterranean Anomaly Detection and Repair Using Infrared Thermography and Ground Penetrating Radar.BACKGROUND OF THE INVENTION [0002] 1. Field of the Invention [0003] The invention relates to methods and systems for detection of subterranean anomalies such as voids and leaks by the use of infrared thermography and, more particularly, to methods and system for using infrared thermography together with ground penetrating radar to map subterranean leakage voids and to repair such voids and terminate such leakage in a very highly accurate, reliable, rapid and cost-effective manner. [0004] 2. Related Art [0005] The present inventor is the patentee of Weil U.S. Pat. No. 4,910,593 issued Mar. 20, 1990, entitled System for Geological Defect Detection Utilizing Composite Video-Infrared Therm...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): G01S13/86G01S13/89
CPCG01S13/885G01S13/89G01V8/02G01V11/00G01S13/867
Inventor WEIL, GARY J.
Owner ENTECH ENG
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