AISCT® revolutionizes site characterization with rapid, 20-minute soil and water analysis. This portable technology reduces lab dependence, enhances decision-making with real-time results, and ensures accurate volume estimations. It streamlines remediation, minimizes landfilling, and boosts confidence in project outcomes.
Artificial Intelligence Assisted Site Characterization Technology (AISCT®) has transformed how soil and water analysis is conducted in the field. With five years of pioneering innovation, AISCT® delivers rapid, accurate, and actionable results, enabling efficient site characterization and remediation planning. Traditional methods of soil and water analysis rely heavily on lab samples and generalized estimates, leading to delays, inaccurate data, and inefficiencies in project design and execution. Contractors often spend extended time on-site, face challenges with soil segregation, and make decisions based on limited data, such as PID readings, which may not always provide the precision needed for effective remediation.
AISCT® introduces a revolutionary approach with real-time analysis and actionable insights. Capable of deployment in any location or condition, this field-portable technology provides rapid results, completing analysis in just 20 minutes and reducing the need for extensive lab testing or rush charges. Real-time data enables enhanced decision-making, with clear interpretations that improve borehole and drilling programs, ensure efficient delineation, and minimize unnecessary landfilling. Correlation and QA/QC processes ensure precise volume estimations and project designs, boosting confidence in remediation estimates. The streamlined processes allow for multiple sample runs to be completed quickly on-site, saving time and money while reducing contractor efforts and on-site time.
AISCT® has proven to significantly enhance project outcomes by enabling accurate and efficient soil and water analysis. The technology fosters higher confidence in project designs and remediation plans, reduces on-site time and effort for contractors, improves soil segregation accuracy while minimizing waste disposal costs, and facilitates faster decision-making with actionable real-time results.
AISCT® represents a breakthrough in site characterization technology, combining artificial intelligence and real-time scanning to revolutionize environmental analysis. With its ability to deliver accurate data rapidly in any condition, AISCT® sets a new standard for efficiency and precision, driving better outcomes for projects across diverse environmental challenges.
Traditional soil and water analysis methods heavily relied on lab samples and generalized estimates, resulting in delays, inaccuracies, and inefficiencies in project design and remediation planning. Contractors faced extended time on-site, struggled with accurate soil segregation, and often made decisions based on limited data, such as PID readings, which lacked precision for effective remediation efforts.
AISCT® introduced a revolutionary field-portable solution for real-time soil and water analysis. By leveraging artificial intelligence, AISCT® delivered rapid, 20-minute results, reducing dependence on lab samples and eliminating rush charges. The technology ensured precise volume estimations through correlation and QA/QC processes and enhanced decision-making with actionable insights. Its implementation streamlined processes with multiple on-site sample runs, improved borehole and drilling programs, and enabled accurate soil delineation, minimizing unnecessary landfilling.
AISCT® significantly improved project outcomes by reducing contractor on-site time, delivering higher confidence in project designs, and achieving accurate soil segregation with reduced waste disposal costs. Its rapid, real-time results expedited decision-making, while the enhanced precision boosted overall efficiency and reduced costs, revolutionizing environmental remediation efforts.
A risk-based in-situ chemical oxidation (ISCO) remediation is ongoing at an urban mall parking lot in Southern Alberta to address a large copper plume in 1,000 m³ of impacted groundwater, with a freshwater receptor located down-gradient. Due to infrastructure constraints, a 5-meter radius injection program using hydrogen peroxide was implemented to catalyze a sequestration reaction and precipitate dissolved copper, forming a permeable reactive barrier to prevent further migration. Over two months, 1 million liters of blended hydrogen peroxide and reagents were injected using TRIUM’s ChemOx® process, ensuring long-term effectiveness with a reactive barrier lasting approximately five years. The remediation has been effective at both the source zone and down-gradient areas, with ongoing injections near the water receptor, achieving results without disrupting shopping center operations.
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