S21A-2669
A BOREHOLE SEISMIC SYSTEM FOR ACTIVE AND PASSIVE SEIMSIC STUDIES TO 3 KM AT PTRC’S AQUISTORE PROJECT

Tuesday, 15 December 2015
Poster Hall (Moscone South)
Douglas R Schmitt1, Christopher Nixon1, Randy Kofman2, Donald John White3 and Kyle Worth4, (1)University of Alberta, Physics, Edmonton, AB, Canada, (2)University of Alberta, Edmonton, AB, Canada, (3)Natural Resources Canada, Geological Survey of Canada, Ottawa, ON, Canada, (4)Petroleum Technology Research Centre, Regina, SK, Canada
Abstract:
We have constructed a downhole seismic recording system for application to depths of nearly 3 km and temperatures up to 135 °C at Aquistore, an independent research and monitoring project in which liquid CO2 is being stored in a brine and sandstone water formation. The key component to this system is a set of commercially available slim-hole 3-C sondes carrying 15 Hz geophones deployable in open and cased boreholes with diameters as small as 57 mm. The system is currently hosted on a 4-conductor wireline with digital information streamed to the surface recording unit. We have further incorporated these sondes into a mobile passive monitoring unit that includes a number of redundancies such as a multiple Tbyte network accessible RAID hard-drive system (NAS) and a self-designed uninterruptible power supply. The system can be remotely controlled via the internet. The system is currently deployed covering a range of depths from 2850 m to 2910 m. Ambient temperatures at this depth are approximately 110 °C with onboard tool temperatures running at 115 °C. Data is continuously streamed to the NAS for archiving, approximately 11 GBytes of data is recorded per day at the sampling period of 0.5 ms. The lack of noise at this depth allows short data snippets to be flagged with a simple amplitude threshold criteria. The greatly reduced data volume of the snippets allows for ready access via the internet to the system for ongoing quality control. Spurious events, mostly small amplitude tube waves originating at or near the surface, are readily discounted. Active seismic measurements are carried out simultaneously but these require that an appropriately accurate independent GPS based time synchronization be used. Various experiences with event detection, orientation of sondes using both explosives and seismic vibrator, potential overheating of the surface electronics, and issues related to loss of shore power provide for a detailed case study. Aquistore, managed by the Petroleum Technology Research Centre, is Canada’s first dedicated CO2 storage project, and is an integral component of SaskPower’s Boundary Dam Integrated Carbon Capture and Storage (CCS) Demonstration project - the world’s first fully integrated CCS demonstration project from a coal-fired power plant.