Measuring Thermal Conductivity of Geological Materials and Geothermal Grouts
Many geothermal professionals are already measuring thermal conductivity, but often with tools that limit sample flexibility, slow down testing, or are not able to test under-representative conditions such as high pressure. Geological materials and geothermal grouts are inherently difficult to measure. Heterogeneity, moisture variation, contact resistance, and irregular sample geometries can all compromise results when using conventional methods.
In this webinar, Arya Hakimian, Application Scientist at C-Therm, will show explain and demonstrate how C-therm’s Trident can get accurate representative thermal conductivity date in geological materials such as rocks, core samples, soils, and thermally enhanced geothermal grouts.
This session is designed for geothermal geologists, hydrogeologists, geological materials engineers and anyone working with geological/geothermal materials who are actively measuring materials and need more reliable, versatile, and scalable testing capabilities.
What you will learn:
- Where conventional thermal conductivity methods fall short in geological and grout applications.
- How C-Therm’s Trident is used and how it is able to help get representative testing data (high pressure) and handle high throughput of samples due to its ease of use and fast test times.
Register to see how the right thermal conductivity platform can improve data quality, reduce testing friction, and support more confident engineering and design decisions.
This webinar will air on May 7, 2026 2:00 pm GMT-3.
Register here