Sr. Mechanical Engineer - Turbomachinery
Posted about 2 months ago
About Us
At Arbor Energy & Resources Corporation ("Arbor Energy"), we’re creating technology to power our lives while protecting the planet that sustains them. Our advanced power systems deliver clean, reliable baseload electricity with zero operating emissions—modular, fuel-flexible, and engineered for the realities of today’s energy demand. At the core is a supercritical CO₂ turbine with integrated carbon capture, designed to bring carbon-neutral power online quickly at meaningful scale.
Our team includes aerospace engineers, combustion experts, and systems thinkers with a shared goal: to build technology worthy of the world we want to live in. While many of us began our journeys looking to the stars, we’re applying that expertise here at home to deliver dependable, emission-free baseload power and a future of lasting abundance.
If you share our values and are drawn to rigorous work with lasting impact, we’d love to learn more about you. Come build what the future will run on.
Steward our planet: We build for tomorrow, ensuring every bolt we tighten and every hand we lend leaves our environment stronger than we found it.
Lead with Love: We champion the success of our people, partners, and planet, nurturing excellence through camaraderie and rigor.
Explore the Uncharted: We embrace the unknown with curiosity, using courage and discipline to transform uncertainty into opportunity.
Role Overview
We are seeking a Mechanical Design Engineer to lead the design and analysis of rotors and casings for turbomachinery in a supercritical CO₂-based power cycle. This role involves conceptual design, assembly architecture selection, material selection, and structural analysis, ensuring high-performance, reliable operation under demanding conditions. The ideal candidate has expertise in bolted joint and seal design, finite element analysis (FEA), and thermomechanical analysis, with preferred experience in creep analysis and rotordynamics.
Arbor’s team of world-class engineers and scientists are developing a scalable, low-cost approach to Bioenergy with Carbon Capture and Storage (BECCS) based on modern rocket engine technology. BECCS is a carbon dioxide removal (CDR) approach that uses biomass to produce energy and remove CO₂ from the atmosphere and store it permanently underground, while ensuring food security, rural livelihoods, and biodiversity are not affected. Our modular technology leverages the power density of supercritical CO2 to enable compact gasification, oxy-combustion, and high-pressure turbo-expansion to convert abundant waste biomass into clean electricity, water, and high-purity CO2, capturing and sequestering all emissions from the process. Our team brings together a passion for science, technology, and global stewardship to make low-cost, high-quality carbon removal and baseload power a reality.
Responsibilities
- Design and optimize rotors and/or casings for high-performance turbomachinery using NX.
- Select assembly architectures and materials to meet performance and reliability requirements.
- Size and analyze bolted joints, seals, and piping flanges for structural integrity.
- Perform static and transient thermomechanical analysis using ANSYS.
- Conduct modal analysis of both stationary and rotating systems to evaluate dynamic behavior.
- Perform thermal analysis to assess the effects of temperature gradients and thermal expansion.
- Ensure designs meet operational, thermal, and mechanical performance requirements.
- Collaborate with combustion and systems teams.
- Support manufacturing, assembly, and testing efforts to validate designs.
Requirements
- Bachelor’s degree in Mechanical, Aerospace, or a related Engineering field.
- 3+ years of experience in turbomachinery design or mechanical system engineering.
- Proficiency in ANSYS FEM software for stress, thermal, and thermomechanical analysis.
- Strong understanding of bolted joint, seal, and flange design.
- Experience with static, transient, and thermal structural analysis of rotating systems.
- Familiarity with materials selection for high-stress and high-temperature applications.
Preferred Qualifications
- Experience in creep analysis for high-temperature applications.
- Knowledge of rotordynamics and vibration analysis of rotating machinery.
- Familiarity with bearing design, damping, and balancing of rotating components.
- Experience working with supercritical CO₂ or high-density working fluids.
- Proficiency in NX CAD software
- Experience in startup or R&D environments.
Compensation & Benefits
- Pre-IPO stock options
- Medical, dental, and vision insurance (Arbor covers 90% for employees)
- Basic life insurance fully covered
- Health savings account (HSA) with matching
- Flexible savings account (FSA)
- Unlimited PTO
- 12+ company holidays, including Earth Day!
- 401(k)
- Commuter benefits
- Annual learning and development stipend
- And more!
Base Pay: $150,000 - $175,000 USD/year. The salary is subject to the applicant's skills, qualifications, experience, and geographic location.
Our Commitment
Arbor Energy is proud to be an equal opportunity employer. We evaluate qualified applicants without regard to race, religion, national origin, gender identity or expression, sexual orientation, age, marital or veteran status, disability, or any other protected characteristic under applicable law. Solving global energy challenges requires a wide range of perspectives and experiences, and we are committed to building a team that reflects the world we serve.
Our hiring process is designed to be accessible, fair, and focused on the work that matters most for this role. Reasonable accommodations are available throughout the hiring process and employment—please let us know if you need one.
Other open roles at Arbor Energy(6)
Arbor designs high-performance energy systems to power a livable, abundant future. Our compact turbine system HALCYON delivers carbon-neutral baseload power with zero operating emissions. Each 25 megawatt (MW) unit combines oxy-combustion and supercritical CO₂ technology for high thermal efficiency, a small footprint, and rapid deployment. It’s fuel-flexible by design, able to run on natural gas today, and in time, on carbon-negative fuels like organic waste. HALCYON systems can run independently or be linked together into 100 MW+ plants, meeting the urgent need for clean, firm power in the places legacy suppliers have left behind. Founded by aerospace engineers and systems thinkers, Arbor brings deep experience from rocket propulsion and turbomachinery to the urgent work of sustaining life on Earth. We believe the tools we build today should serve generations to come—and that progress, done right, can be both powerful and restorative. If you’re ready to build systems that matter alongside kind, curious people committed to doing meaningful work well, we’d love to hear from you. We’re backed by leading climate investors including Gigascale Capital, Voyager Ventures, Lowercarbon Capital, and Cantos Ventures.
Key team members

Nishad Pai

Jo Maxion

Christian Mack

Andres Garcia-Clark
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