Project Research Results
Grantee Research Project Results
Fiber Optic Distributed Chemical Sensors for Environmental Impact Monitoring in Carbon SequestrationEPA Contract Number: EPD12022
Title: Fiber Optic Distributed Chemical Sensors for Environmental Impact Monitoring in Carbon Sequestration
Investigators: Alonso, Jesus Delgado
Small Business: Intelligent Optical Systems Inc.
EPA Contact: Manager, SBIR Program
Project Period: March 1, 2012 through August 31, 2012
Project Amount: $79,993
RFA: Small Business Innovation Research (SBIR) - Phase I (2012)
Research Category: Small Business Innovation Research (SBIR) , SBIR - Greenhouse Gases
Technical and economic assessments suggest that over the next century the capture and storage of carbon dioxide in deep reservoirs (CCS) may contribute up to 20 percent of CO2-emission reductions. Reliable and cost-effective monitoring is required to demonstrate that CCS is safe, does not create adverse environmental impacts and is an effective technology to control CO2 emissions. To meet this goal, a wide variety of monitoring techniques, including vadose zone and atmospheric gas measurements, and the laboratory analysis of groundwater quality, have been proposed and are being evaluated.
Current methods of the direct analysis of groundwater, and gas leakage detection in the vadose zone using point sensors, are not cost-effective for large areas and long-term monitoring.
Intelligent Optical Systems (IOS) proposes to develop robust distributed fiber optic sensors that will eliminate the need for point sensors for groundwater protection and vadose zone monitoring. In the proposed system, the entire length of an optical fiber will be a sensor that is capable of covering a large area and a range of depths (100s of meters). Carbon dioxide, and other acid chemicals, present in the injection gas leaking from a deep storage reservoir are likely to intercept groundwater resources, resulting in a decrease of pH and an increment in water salinity. As a result of pH change, a secondary effect on metal ion concentrations, depending on the soil composition, will also take place. Our unique system will be used for the in situ determination and profiling of the pH, and the dissolved CO2 concentration, in aquifers. The capability of the proposed sensors to operate not only in water, but also in gaseous phase, will also allow gas leakage in the vadose zone to be rapidly detected. The system will incorporate sensors to detect CO2 and leakage of H2S, a toxic gas that may be present in the CO2 injected. This will provide the sensor system with a unique characteristic for CCS monitoring.
Commercial distributed fiber optic sensors for subsurface pressure and temperature monitoring are gaining market share in oil and gas extraction. The excellent acceptance of these systems, and the knowhow gained by oil companies in the use of fiber optic sensors in this field, will facilitate the entrance of IOS’ proposed technology to the worldwide CCS market. IOS leadership in distributed chemical sensor products puts the company in a privileged position to develop the proposed multi-parametric system based on fiber optic sensors.Supplemental Keywords:
greenhouse gas, carbon dioxide, carbon sequestration, environmental impact monitoring, fiber optic, fiber optic sensor, groundwater, vadose zone monitoring, atmospheric gas, gas leakage, aquifer, SBIR
Progress and Final Reports: