Selected European studies have illustrated the impacts of elevated CO 2 concentrations in shallow soils on pasture. For the first time, general unified conclusions can be made, providing CO 2 thresholds where effects on plants and soil microbiology are observed and making recommendations on how this information can be used when planning projects for CO 2 storage. The sites include those where CO 2 is being naturally released to the atmosphere from deep geological formations; and a non-adapted site, with no previous history of CO 2 seepage, where CO 2 has been injected into the unsaturated soil horizon. Whilst soil gas concentrations will be influenced by flux rates and other factors, the results suggest that a concentration of between 10-15% CO 2 soil gas at 20 cm depth, which is within the root zone, is an important threshold level for observing changes in plant coverage. Site-specific plant 'indicators' are also observed for CO 2 concentrations at ≥35%. Microbiological changes are seen where CO 2 soil gas concentrations are between 15-40%. As part of site characterisation, an evaluation of the risks of leakage and their potential environmental impacts should be undertaken.
Logging While Tripping (LWT) is a recent development in formation evaluation technology that provides a means by which open hole logs are obtained more quickly and with less risk than is currently possible using conventional wireline or measurement-while-drilling techniques. LWT Services Inc., a Calgary based company, has developed this new approach to the logging process which involves using specially modified drill collars and memory-based logging tools positioned within the drillstring to record log data as drillpipe is tripped out of the well. LWT tools are deployed and retrieved from the drillstring only when log data is required. After the data is acquired and the tools retrieved from the well, casing can be run without an additional hole-conditioning trip, saving considerable rig time. Risk is minimized because logging tools are not exposed to the open wellbore, but stay protected inside the drillstring. Service quality is reviewed by showing examples dealing with data quality and depth control. While LWT's compensated neutron provides an open hole quality measurement, some correction is needed to provide absolute porosity values in varying borehole sizes. Depth control examples compare favourably to wireline conveyed logs with an accuracy approaching +/- 1 m per 3,000 m of total depth. A few applications for this new technology are anticipated to be:Horizontal wells which are currently not evaluated due to the prohibitive cost and risk associated with pipe conveyed and MWD/LWD systemsReconnaissance logging, done at any time throughout the drilling of the well, will enable geologists to identify zones and monitor well trajectoryUnderbalanced, air-drilled wells can be logged as they are drilled, thereby eliminating the need to run open hole logs under pressure. Presently, LWT Services Inc. is working on a prototype 1 11/16 in. induction tool. In order to make induction measurements from inside the drillstring, a nonconductive composite drill collar has been constructed, tested, and successfully drilled 850 ft. in a test well in Oklahoma. Another development includes a compensated photoelectric density tool. Background Logging While Tripping (LWT) represents a new approach in the process of open hole data acquisition. LWT makes use of memory-based logging tools positioned in the drillstring to record data as drill pipe is tripped out of the well. Unlike measurement-while-drilling tools, LWT tools are not a permanent part of the drillstring but instead are deployed and retrieved from the drillstring only when log data is required. Currently, LWT provides FIGURE 1: LWT operation. (Available in full paper) compensated neutron and gamma ray services while the dual induction and photoelectric density are under development. While in its early stages of development, LWT's technology is aimed at providing drillers with significant cost savings in the area of open hole data acquisition. These cost savings will be realized in two principal areas:Decrease in rig time for the logging process and,Decrease in risk of tool loss or damage downhole. This paper presents an overview of LWT's operation, service quality, and applications supported by several examples. In closing, a brief review of future prospects is presented.
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