Charm Industrial
Mechanical Engineer II (Pyrolysis)
Fort Lupton, CO$74.4k–$111.6kfull timemidAdded today
About this role
Charm Industrial is seeking a Mechanical Engineer II to support pyrolysis operations at our Fort Lupton facility. You'll design, optimize, and troubleshoot mechanical systems for our carbon removal and bio-oil production processes, contributing to large-scale climate technology deployment.
What you'll do
- Design and optimize mechanical components and systems for pyrolysis reactors and equipment
- Conduct failure analysis, troubleshooting, and root cause investigation on mechanical systems
- Collaborate with cross-functional teams to scale production and improve operational efficiency
- Develop technical specifications, drawings, and documentation for manufacturing and assembly
- Support commissioning, testing, and validation of new equipment at operational sites
- Monitor equipment performance and recommend design improvements based on field data
What they're looking for
- Mechanical design and CAD (SolidWorks, Fusion 360, or similar)
- Thermodynamics and heat transfer principles
- Materials science and high-temperature material selection
- Process engineering and systems optimization
- ASME pressure vessel and equipment standards
- Python or data analysis for performance monitoring
- Project management and cross-functional communication
- Manufacturing and assembly process knowledge
Opens the official application on the employer’s site. No login required.
Charm Industrial
Charm Industrial develops carbon removal technology through pyrolysis processes, scaling innovative solutions from laboratory to commercial production. The company is hiring for engineering roles spanning process optimization, systems infrastructure, and operational technology to support its multi-location carbon removal operations.
- Website
- charmindustrial.com
Likely interview questions
- Describe your experience designing or optimizing equipment for high-temperature or chemically demanding environments.
- Walk us through a time you diagnosed a mechanical failure in a production system. What was your approach?