TerraTherm, Inc.
Nikole Huard is a Senior Project Engineer at TerraTherm, Inc. since January 2014, having previously held roles as Project Engineer and Process Engineer within the same company. Huard is also an active Council Member for the Cascade Inclusion and Engagement Council since May 2022 and served as Co-Chair for the Cascade Diverse Workforce Initiative from October 2018 to May 2022. Prior experience includes roles at Cheshire Medical Center/Dartmouth-Hitchcock Keene as a Food Service Representative and positions at Entergy as a Design Engineering Intern and People's United Bank as a Retail Lockbox Representative. Huard has been involved with the Society of Women Engineers Boston as a Professional Member and was an Interact Member with Rotary International, contributing to community service projects in underdeveloped regions. Educational credentials include a Bachelor of Science in Chemical Engineering with an Environmental Concentration from Worcester Polytechnic Institute, obtained in 2013.
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TerraTherm, Inc.
TerraTherm is a worldwide leader in the development and implementation of in situ thermal remediation of organic contaminants in subsurface source zones. We advise on, design, build, and operate thermal remediation projects from concept to closure. We offer the broadest array of thermal remediation technologies in the industry, allowing us to tailor project designs to specific site conditions, using the optimal combination of methods, without bias towards any single technology or approach. TerraTherm partners with leading engineering firms, government agencies, corporations, and property owners in flexible, cooperative relationships to achieve cleanup goals. Our expertise, broad set of proven technologies, and seasoned staff combine to provide the most effective cleanup available for a broad array of contaminants within all soil types and site conditions. We deliver high return on investment, dramatically increase property value, and minimize liability. Our projects are neighborhood-friendly, producing minimal noise, dust and disruption. They achieve complete results within predictable time frames, enable final site closure, optimize property value, and eliminate the risks of liability and long-term threats from contaminants.