EGS Collab Experiment 1: Microseismic Monitoring

Published by Lawrence Berkeley National Laboratory | Department of Energy | Metadata Last Checked: January 27, 2026 | Last Modified: 2024-08-13T15:19:58Z

The U.S. Department of Energy's Enhanced Geothermal System (EGS) Collab project aims to improve our understanding of hydraulic stimulations in crystalline rock for enhanced geothermal energy production through execution of intensely monitored meso-scale experiments. The first experiment is being performed at the 4850 ft level of the Sanford Underground Research Facility (SURF), approximately 1.5 km below the surface at Lead, South Dakota. Here we report on microseismic monitoring of repeated stimulation experiments and subsequent flow tests between two boreholes in the Poorman Formation. Stimulations were performed at several locations in the designated injection borehole at flow rates from 0.1 to 5 L/min over temporal durations from minutes to hours. Microseismic monitoring was performed using a dense 3D sensor array including two cemented hydrophone strings with 12 sensors at 1.75 m spacing accompanied by 18 3-C accelerometers, deployed in 6 monitoring boreholes, completely surrounding the stimulation region. Continuous records were obtained over a two-month period using a novel dual recording system consisting of a conventional 96 channel exploration seismograph and a high-performance 64 channel digitizer sampling sensors at 4 and 100 kHz respectively. Using a standard STA/LTA triggering algorithm, we detected thousands of microseismic events with recorded energy in a frequency range generally above 3 kHz and up to 40 kHz. The locations of these events are consistent with creation of a hydraulic fracture and additional reactivation of pre-existing structures. Using manual pick refinement and double-difference relocation we are able to track the fracture growth to high precision. We estimate the times and locations of the fracture intersecting a monitoring and the production borehole using microseismic events. They are in excellent agreement with independent measurements using distributed temperature sensing, in-situ strain observations and measurements of conductivity changes. This submission includes a microearthquake catalog, raw event files, a subset of the continuous microseismic monitoring data collected during stimulations and flow test activity on 05/22/2018, 05/23/2018, 05/24/2018, 05/25/2018, 06/25/2018, 07/19/2018, 07/20/2018, 12/7/2018, 12/20/2018, and 12/21/2018 (in binary format), and a binary file interpreter to read the continuous microseismic monitoring data. A Stanford Geothermal Workshop paper is also included to describe microseismic monitoring activities at SURF during these periods.

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@type	dcat:Dataset
accessLevel	public
bureauCode	[ "019:20" ]
contactPoint	{ "fn": "Martin Schoenball", "@type": "vcard:Contact", "hasEmail": "mailto:schoenball@lbl.gov" }
dataQuality	true
description	The U.S. Department of Energy's Enhanced Geothermal System (EGS) Collab project aims to improve our understanding of hydraulic stimulations in crystalline rock for enhanced geothermal energy production through execution of intensely monitored meso-scale experiments. The first experiment is being performed at the 4850 ft level of the Sanford Underground Research Facility (SURF), approximately 1.5 km below the surface at Lead, South Dakota. Here we report on microseismic monitoring of repeated stimulation experiments and subsequent flow tests between two boreholes in the Poorman Formation. Stimulations were performed at several locations in the designated injection borehole at flow rates from 0.1 to 5 L/min over temporal durations from minutes to hours. Microseismic monitoring was performed using a dense 3D sensor array including two cemented hydrophone strings with 12 sensors at 1.75 m spacing accompanied by 18 3-C accelerometers, deployed in 6 monitoring boreholes, completely surrounding the stimulation region. Continuous records were obtained over a two-month period using a novel dual recording system consisting of a conventional 96 channel exploration seismograph and a high-performance 64 channel digitizer sampling sensors at 4 and 100 kHz respectively. Using a standard STA/LTA triggering algorithm, we detected thousands of microseismic events with recorded energy in a frequency range generally above 3 kHz and up to 40 kHz. The locations of these events are consistent with creation of a hydraulic fracture and additional reactivation of pre-existing structures. Using manual pick refinement and double-difference relocation we are able to track the fracture growth to high precision. We estimate the times and locations of the fracture intersecting a monitoring and the production borehole using microseismic events. They are in excellent agreement with independent measurements using distributed temperature sensing, in-situ strain observations and measurements of conductivity changes. This submission includes a microearthquake catalog, raw event files, a subset of the continuous microseismic monitoring data collected during stimulations and flow test activity on 05/22/2018, 05/23/2018, 05/24/2018, 05/25/2018, 06/25/2018, 07/19/2018, 07/20/2018, 12/7/2018, 12/20/2018, and 12/21/2018 (in binary format), and a binary file interpreter to read the continuous microseismic monitoring data. A Stanford Geothermal Workshop paper is also included to describe microseismic monitoring activities at SURF during these periods.
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in binary format" }, { "@type": "dcat:Distribution", "title": "Methodology used to Determine Accelerometers 3-C Orientations.pdf", "format": "pdf", "accessURL": "https://gdr.openei.org/files/1166/EGS_Collab_Testbed1_Accelerometers_Orientations_with_LAUR_Number.pdf", "mediaType": "application/pdf", "description": "Document describing the methodology used to determine the accelerometers' three-component (3-C) orientations at the first aEGS Collab testbed using CASSM data and hodogram analysis." }, { "@type": "dcat:Distribution", "title": "Microseismic monitoring of meso-scale stimulations for the DOE EGS Collab project at the Sanford Underground Research Facility.pdf", "format": "pdf", "accessURL": "https://gdr.openei.org/files/1166/Schoenball_etal_2019_SGW_EGS_CollabMicroseismicity.pdf", "mediaType": "application/pdf", "description": "Paper describing the monitoring and initial interpretation." }, { "@type": "dcat:Distribution", "title": "Microearthquake catalog.csv", "format": "csv", "accessURL": "https://gdr.openei.org/files/1166/catalog_manual_all_v190312.csv", "mediaType": "text/csv", "description": "*OUTDATED - See "Updated Microearthquake Catalog.csv" for most recent version of the catalog*" }, { "@type": "dcat:Distribution", "title": "Updated Microearthquake Catalog.csv", "format": "csv", "accessURL": "https://gdr.openei.org/files/1166/catalog_manual_all_v200629.csv", "mediaType": "text/csv", "description": "Microearthquake catalog, updated in August, 2024. This file includes event times, locations, relative magnitudes, and other statistical information related to each detected microearthquake." }, { "@type": "dcat:Distribution", "title": "Binary File Interpreter.py", "format": "py", "accessURL": "https://gdr.openei.org/files/1166/collab.py", "mediaType": "application/octet-stream", "description": "Python code for reading binary microseismic monitoring files contained in archives" }, { "@type": "dcat:Distribution", "title": "Event Files Raw.tar", "format": "tar", "accessURL": "https://gdr.openei.org/files/1166/eventfiles_raw.tar", "mediaType": "application/octet-stream", "description": "Triggered event files, 0.03 s long each" }, { "@type": "dcat:Distribution", "title": "Event files Raw.zip", "format": "zip", "accessURL": "https://gdr.openei.org/files/1166/eventfiles_raw_long.zip", "mediaType": "application/zip", "description": "Triggered event files, 0.11 s long each" }, { "@type": "dcat:Distribution", "title": "Station Coordinates.txt", "format": "txt", "accessURL": "https://gdr.openei.org/files/1166/station_coordinates.txt", "mediaType": "text/plain", "description": "Station locations in the local coordinate system" }, { "@type": "dcat:Distribution", "title": "EGS Collab Testbed-1 Well Locations and Orientations", "format": "HTML", "accessURL": "https://gdr.openei.org/submissions/1184", "mediaType": "text/html", "description": "Link to a separate GDR submission containing well locations and orientations at EGS Collab Teastbed 1" } ]
DOI	10.15121/1557417
identifier	https://data.openei.org/submissions/7304
issued	2019-07-29T06:00:00Z
keyword	[ "3D sensor", "EGS", "EGS Collab", "Lead", "Python", "STA/LTA triggering algorithm", "SURF", "Sandford Underground Research", "Sanford Underground Research Facility", "South Dakota", "binary file interpreter", "catalog", "crystalline rock", "energy", "experiment", "fracturing", "geospatial data", "geothermal", "hydraulic", "meso-scale stimulations", "mesoscale experiments", "microseismic monitoring", "microseismicity", "processed data", "raw data", "stimulation" ]
landingPage	https://gdr.openei.org/submissions/1166
license	https://creativecommons.org/licenses/by/4.0/
modified	2024-08-13T15:19:58Z
programCode	[ "019:006" ]
projectLead	Lauren Boyd
projectNumber	EE0032708
projectTitle	EGS Collab
publisher	{ "name": "Lawrence Berkeley National Laboratory", "@type": "org:Organization" }
spatial	"{"type":"Polygon","coordinates":[[[-104.03901835938,44.154822373814],[-103.7095296875,44.154822373814],[-103.7095296875,44.433195822091],[-104.03901835938,44.433195822091],[-104.03901835938,44.154822373814]]]}"
title	EGS Collab Experiment 1: Microseismic Monitoring