Senior Multiphysics Modeler

Commonwealth Fusion Systems•Devens, MA

39d•$110,000 - $185,000•Hybrid

About The Position

Commonwealth Fusion Systems is on a mission to deliver the urgent transition to fusion energy. Combining decades of research, top talent, and new technologies, we're designing and building commercially viable fusion power plants. And working with policymakers and suppliers to build the energy industry of the future. We're in the best position to make it happen. Since 2018, we've raised nearly $3 billion in capital, making us the largest and leading private fusion company in the world. Now we're looking for more thinkers, doers, builders, and makers to join us. People who'll bring new perspectives, solve tough problems, and thrive as part of a team. If that's you and this role fits, we want to hear from you. Join the power movement as a Senior Multiphysics Modeler The Senior Multiphysics Modeler will work closely with the CFS tritium program and process engineering team to develop a fuel cycle model for the world's first fusion power plant, ARC, located in Chesterfield County, Virginia. The senior multiphysics modeler will develop simulation toolkits and workflows that integrate first-principles multiphysics simulations with industrial process models to support technology development and subsystem integration for key fuel cycle systems, supported by the CFS fuel team to understand system requirements. Designing and deploying a fusion fuel cycle is an integral part of building power plants. This position will build the tools to optimize the fuel cycle design for the world's first power plant by becoming CFS's expert in this important tool. The senior modeler will collaborate with an interdisciplinary team of engineers and scientists, and report to the Director of the Fueling and Tritium Systems. Applicants must have a degree in a relevant engineering or science discipline as well as experience in process modeling and programming. Applicants must have a demonstrated ability to apply a first principles approach in solving complex engineering problems and experience conducting cost-benefit to evaluate the economics of proposed solutions. Applicants must have demonstrated success working on engineering projects in multi-disciplinary teams generating effective solutions to complex problems.

Requirements

Master's degree or similar experience with 7+ years in chemical engineering, mechanical engineering, physics, materials science, physical chemistry or similar
5+ years experience modeling process systems
5+ years experience in computer programming
Knowledge of transport phenomena and chemical processes in gasses
Experience building integrated process models
Process engineering and systems integration
Experience managing large data sets
Understanding of scalable simulations
Track record in version control
Data reduction and results analysis
Ability to occasionally lift up to 50 lbs
Perform activities such as sitting, typing, standing, stooping, or climbing for extended periods of time
Dedication to safety to mitigate industrial hazards that may include heat, cold, noise, fumes, strong magnets, lead (Pb), high voltage, and cryogenics
Willingness to travel or work required nights/weekends/on-call occasionally

Nice To Haves

Experience with Python and/or Matlab
Experience with multiphysics tools such as Comsol
Exposure to process simulators like HYSYS
Use of engineering management tools
Confluence/JIRA and remote collaboration tools
Fusion energy experience
Chemical engineering
Atom and molecular mass transport

Responsibilities

Lead the development of an integrated power plant fuel cycle model
Develop models for unit operations of key systems
Develop simulation tools to enable targeted R&D for key fuel cycle technologies
Own the fuel cycle simulation tools and models
Validate models and identify key R&D requirements to enable validation where there are currently gaps in the literature
Collaborate cross-functionally with both internal and external experts to ensure fuel cycle models are feasible, economic and state-of-the-art
Develop processes and layouts for fueling subsystem blocks that are communicated through standard engineering documents
Generate detailed work plans and define milestones, integrated with R&D, to deliver validated models
Provide guidance to colleagues for use of developed modeling tools and outputs
Identify emerging trends and opportunities and influence CFSs's fuel cycle modeling strategy