Microseismic data acquisition array and corresponding method
First Claim
1. A seismic energy sensor array for performing a microseismic survey, comprising a plurality of seismic energy sensors arranged at sensor locations on or proximate the surface of the earth in a hexagonal pattern;
- a first set of six lines of equally spaced seismic energy sensors extending radially outward at sixty degree intervals from each of said plurality of seismic energy sensors, said equally spaced seismic energy sensors being positioned on said first set of six lines at vertices of hexagons centered about each of said plurality of seismic energy sensors; and
a second set of six lines of equally spaced seismic energy sensors extending radially outward at sixty degree intervals from each of said plurality of seismic energy sensors, said equally spaced seismic energy sensors being positioned on said second set of six lines at vertices of hexagons centered about each of said plurality of seismic energy sensors, said second set of six lines of equally spaced seismic energy sensors being offset by thirty degrees from said first set of six lines of equally spaced seismic energy sensors, said first line of seismic energy sensors and said second line of seismic energy sensors extending from each of said plurality of seismic energy sensors providing twelve directions in which there is a line of equally spaced seismic energy sensors radiating outward from each of said plurality of seismic energy sensors to enable attenuation by spatial filtering of seismic noise reaching each of said plurality of seismic energy sensors.
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Abstract
Disclosed are various embodiments of methods, devices and systems for performing a microseismic survey. According to some embodiments, microseismic signals are detected at seismic sensor stations deployed in two sets of seismic sensor lines, the seismic sensor lines within each set being substantially parallel to one another and the two sets of seismic sensor lines being mutually orthogonal. According to other embodiments, microseismic signals are detected at seismic sensor stations deployed in a hexagonal pattern. Such sensor geometries offer advantages over linear or radial arrays, including noise reduction, data acquisition flexibility as new wells are added to the survey area, and an improved distribution of data points above points in the subsurface.
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Citations
5 Claims
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1. A seismic energy sensor array for performing a microseismic survey, comprising a plurality of seismic energy sensors arranged at sensor locations on or proximate the surface of the earth in a hexagonal pattern;
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a first set of six lines of equally spaced seismic energy sensors extending radially outward at sixty degree intervals from each of said plurality of seismic energy sensors, said equally spaced seismic energy sensors being positioned on said first set of six lines at vertices of hexagons centered about each of said plurality of seismic energy sensors; and a second set of six lines of equally spaced seismic energy sensors extending radially outward at sixty degree intervals from each of said plurality of seismic energy sensors, said equally spaced seismic energy sensors being positioned on said second set of six lines at vertices of hexagons centered about each of said plurality of seismic energy sensors, said second set of six lines of equally spaced seismic energy sensors being offset by thirty degrees from said first set of six lines of equally spaced seismic energy sensors, said first line of seismic energy sensors and said second line of seismic energy sensors extending from each of said plurality of seismic energy sensors providing twelve directions in which there is a line of equally spaced seismic energy sensors radiating outward from each of said plurality of seismic energy sensors to enable attenuation by spatial filtering of seismic noise reaching each of said plurality of seismic energy sensors.
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- 2. A method of performing a microseismic survey, comprising detecting microseismic signals with a seismic energy sensor array comprising a plurality of seismic energy sensors arranged at sensor locations on or proximate the surface of the earth in a hexagonal pattern, a first set of six lines of equally spaced seismic energy sensors extending radially outward at sixty degree intervals from each of said plurality of seismic energy sensors, said equally spaced seismic energy sensors being positioned on said first set of six lines at vertices of hexagons centered about each of said plurality of seismic energy sensors and a second set of six lines of equally spaced seismic energy sensors extending radially outward at sixty degree intervals from each of said plurality of seismic energy sensors, said equally spaced seismic energy sensors being positioned on said second set of six lines at vertices of hexagons centered about each of said plurality of seismic energy sensors, said second set of six lines of equally spaced seismic energy sensors being offset by thirty degrees from said first set of six lines of equally spaced seismic energy sensors, said first line of seismic energy sensors and said second line of seismic energy sensors extending from each of said plurality of seismic energy sensors providing twelve directions in which there is a line of equally spaced seismic energy sensors radiating outward from each of said plurality of seismic energy sensors to enable attenuation by spatial filtering of seismic noise reaching each of said plurality of seismic energy sensors.
Specification