Mr. Grzegorz G. Cieslewski Profile

Grzegorz G. Cieslewski

at Sandia National Labs

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Proceedings Article | 5 June 2014 Paper

Development of a downhole tool measuring real-time concentration of ionic tracers and pH in geothermal reservoirs

Ryan Hess, Timothy Boyle, Steven Limmer, William Yelton, Samuel Bingham, Greg Stillman, Scott Lindblom, Grzegorz Cieslewski

Proceedings Volume 9113, 91130J (2014) https://doi.org/10.1117/12.2051151

KEYWORDS: Electrodes, Sensors, Ions, Temperature metrology, Silver, Epoxies, Potassium, Liquids, Chemical analysis, Statistical analysis

Read Abstract +

For enhanced or Engineered Geothermal Systems (EGS) geothermal brine is pumped to the surface via the production wells, the heat extracted to turn a turbine to generate electricity, and the spent brine re-injected via injection wells back underground. If designed properly, the subsurface rock formations will lead this water back to the extraction well as heated brine. Proper monitoring of these geothermal reservoirs is essential for developing and maintaining the necessary level of productivity of the field. Chemical tracers are commonly used to characterize the fracture network and determine the connectivity between the injection and production wells. Currently, most tracer experiments involve injecting the tracer at the injection well, manually collecting liquid samples at the wellhead of the production well, and sending the samples off for laboratory analysis. While this method provides accurate tracer concentration data at very low levels of detection, it does not provide information regarding the location of the fractures which were conducting the tracer between wellbores. Sandia is developing a high-temperature electrochemical sensor capable of measuring tracer concentrations and pH downhole on a wireline tool. The goal of this effort is to collect real-time pH and ionic tracer concentration data at temperatures up to 225 °C and pressures up to 3000 psi. In this paper, a prototype electrochemical sensor and the initial data obtained will be presented detailing the measurement of iodide tracer concentrations at high temperature and pressure in a newly developed laboratory scale autoclave.

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