Webinars
Welcome to the thermal remediation educational webinar portal! We invite you to join us for live presentations by our team of in-house experts. This page provides you with access to an immersive learning experience, where you can discover the latest developments, best practices, and innovative solutions in the field of thermal remediation. From exploring case studies to discussing emerging technologies, our webinar series is designed to empower you with the expertise needed to make informed decisions and drive positive change.
Upcoming Webinars
Thermal Remediation of MGP Sites, From Strategy to Real-World Performance
Former manufactured gas plant (MGP) sites present some of the most complex remediation challenges, driven by coal tar DNAPL, high contaminant mass, and difficult subsurface conditions that limit the effectiveness of conventional approaches.
This two-part webinar series explores how thermal remediation is applied to address these challenges, from initial evaluation and system design through real-world implementation and performance.
In the first session, attendees will learn how thermal remediation targets coal tar source zones, performs in low-permeability soils, and supports efficient cleanup aligned with regulatory and redevelopment goals. The webinar focuses on key design and implementation considerations, including contaminant profiles, treatment depths, and strategies for managing large contaminant mass, along with how thermal technologies can be integrated with complementary remedies to strengthen overall performance.
The second session builds on these concepts through case studies that demonstrate how thermal remediation systems perform under actual site conditions. Drawing on multiple projects, this webinar walks through the full implementation lifecycle, highlighting how teams have navigated complex subsurface conditions, adapted to field challenges, and achieved successful outcomes.
Together, these sessions provide a practical, field-driven perspective on applying thermal remediation at MGP sites and offer insights that support more informed, defensible remediation strategies.
In this two-part series, you will learn how to:
- Evaluate when thermal remediation is the right fit for MGP sites
- Apply key design and implementation strategies for coal tar source zones
- Manage high contaminant mass and complex subsurface conditions
- Connect site data to technology selection and system design
- Navigate field challenges and adapt during implementation
- Benchmark real-world performance to support defensible decisions
- Soil Sampling Fundamentals: Methods, Tools, and When to Use Them
Applying Thermal Remediation at MGP Sites, Design and Implementation Considerations
June 24, 2026 | 10 AM PST/ 1 PM EST
Presenter: Steffen Griepke
Former manufactured gas plant (MGP) sites are some of the most challenging to remediate due to coal tar DNAPL, high contaminant mass, and complex subsurface conditions that limit the effectiveness of conventional remedies.
In this webinar, you’ll learn how In Situ Thermal Remediation (ISTR) is applied to address these challenges and improve project outcomes. This session focuses on how ISTR targets coal tar source zones, performs in low-permeability soils where other approaches are often limited, and supports efficient cleanup timelines aligned with regulatory and redevelopment goals.
MGP Site Remediation in Action, Case Studies and Lessons Learned
July 22, 2026 | 10 AM PST/ 1 PM EST
Presenters: Erin Hauber and John LaChance
The true test of any remediation technology is how it performs under real site conditions. In this case study-based webinar, you’ll explore how thermal remediation has been applied to address complex coal tar impacts at former manufactured gas plant (MGP) sites.
Through multiple project examples, our experts will walk through the full lifecycle of ISTR applications, including site conditions, technology selection, system design, operational performance, and final outcomes. The discussion highlights how teams navigated challenging subsurface conditions, managed large contaminant mass, and adapted to unexpected field realities.
Applying Thermal Remediation at MGP Sites, Design and Implementation Considerations
Former manufactured gas plant (MGP) sites are some of the most challenging to remediate due to coal tar DNAPL, high contaminant mass, and complex subsurface conditions that limit the effectiveness of conventional remedies.
In this webinar, you’ll learn how In Situ Thermal Remediation (ISTR) is applied to address these challenges and improve project outcomes. This session focuses on how ISTR targets coal tar source zones, performs in low-permeability soils where other approaches are often limited, and supports efficient cleanup timelines aligned with regulatory and redevelopment goals.
The session will also cover the key design and implementation factors that influence success at MGP sites, including contaminant profiles, treatment depths, and strategies for managing large contaminant mass. The webinar highlights how these considerations are integrated with complementary technologies to strengthen overall remedy performance.
By attending, you will learn how to:
- Apply ISTR to address coal tar source zones at MGP sites effectively
- Evaluate site conditions to determine when thermal remediation is the right fit
- Manage high contaminant mass and challenging subsurface conditions
- Account for key design and implementation considerations unique to MGP sites
- Integrate ISTR with other remedies to support long-term cleanup goals
The webinar highlights how these considerations are incorporated into system design and integrated with complementary technologies to strengthen overall remedy performance under real site conditions.
MGP Site Remediation in Action, Case Studies and Lessons Learned
The true test of any remediation technology is how it performs under real site conditions. In this case study-based webinar, you’ll explore how thermal remediation has been applied to address complex coal tar impacts at former manufactured gas plant (MGP) sites.
Through multiple project examples, our experts will walk through the full lifecycle of ISTR applications, including site conditions, technology selection, system design, operational performance, and final outcomes. The discussion highlights how teams navigated challenging subsurface conditions, managed large contaminant mass, and adapted to unexpected field realities.
This session focuses on practical insights you can apply directly to your work, whether you are evaluating thermal remediation or refining your approach to complex site remediation.
By attending, you will learn how to:
- Evaluate ISTR performance across a range of MGP site conditions
- Connect site data to effective technology selection and system design
- Anticipate and respond to field challenges during implementation
- Apply lessons learned to improve project outcomes and decision‑making
- Benchmark real‑world performance to support defensible remediation strategies
This session focuses on practical insights you can apply directly to your work, whether you are evaluating thermal remediation or refining your approach to complex site remediation. It provides a detailed look at how ISTR performs under real-world conditions to support more informed and defensible remediation decisions.
Webinars on Demand
Thermal Treatment: A Reliable Option For Your Bedrock Source Zone
Treating fractured bedrock is complex, and effective remedial options are limited. Due to the fractured nature of rock, contamination can migrate deep, and pathways out of the bedrock system are limited.
One of the most effective and reliable methods of treating fractured bedrock is to use thermal technologies.
In this webinar, presenters Steffen Griepke, VP of Technology at TerraTherm and Niels Ploug, Product Manager at Krüger will discuss the treatment of bedrock source zones, including:
- The challenges of removing volatile organic compounds (VOC) from fractured rock
- The pros and cons of the most common thermal treatment technologies in bedrock settings
- Design considerations and field implementation challenges
The prerecorded presentation will be peppered with examples and results from the many thermal sites successfully treated by the combined TerraTherm and Krüger teams. Steffen and Niels will also share highlights from a recently completed project—the world’s deepest thermal remediation project of crystalline rock, treated to a total depth of 170 ft.
ISTR in Fractured Bedrock
Treating fractured bedrock is complex, and effective remedial options are limited. Due to the fractured nature of rock, contamination can migrate deep, and pathways out of the bedrock system are limited.
Using thermal technologies is one of the most effective and reliable methods of treating fractured bedrock.
In this flash webinar, presenters Steffen Griepke and John LaChance, (VPs of Technology and Development, respectively) discuss the treatment of bedrock source zones, including:
- The challenges of removing CVOCs and DNAPL from fractured rock
- The pros and cons of the most common thermal treatment technologies in bedrock settings
- Design considerations and field implementation challenges
This recorded webinar will include examples and results from bedrock sites successfully remediated using thermal. Steffen and John will also share highlights from a completed project—the world’s deepest thermal remediation project in crystalline rock, treated to a total depth of 170 ft.
If you are involved in the evaluation or remediation of any bedrock sites, this is a webinar you want to watch.
Thermal Remedy of Fractured Crystalline Rock
Investigating and remediating fractured rock can be a lot more complex than treating a porous media like sand or clay. This webinar will present information and data from projects where thermal remediation was successfully used to clean up sedimentary, metamorphic, and igneous bedrock. The removal mechanisms as well as challenges for using thermal remediation technologies in fractured rock will also be reviewed, along with technology applicability and costs.