At Blue Origin, we envision millions of people living and working in space for the benefit of Earth. We're working to develop reusable, safe, and low-cost space vehicles and systems within a culture of safety, collaboration, and inclusion. Join our diverse team of problem solvers as we add new chapters to the history of spaceflight!
This role is part of the Lunar Permanence business unit, which develops Blue Origin's multiple Blue Moon lander product lines. To further Blue Origin's mission of having millions of people living and working in space, we are building sustainable infrastructure for our transport of crew and cargo from Earth to the lunar surface.
As part of a hardworking team of diverse specialists, technicians, and engineers, you will be responsible for developing the models and performing analysis of an integrated fuel cell, balance of plant, and individual components. These models will be used to accelerate development activities, conduct detailed analyses, verify requirements, and explore trade spaces.
Special Mentions
Relocation provided
Travel expected up to 25% of the time
Interviews will include a technical assessment
Responsibilities include but are not limited to:
Work in the Lunar Permanence Fuel Cell team performing Thermal and Fluid analysis on components and integrated systems
Develop and validate fuel cell stack and balance of plant thermal and/or fluid models using Thermal Desktop, FloCAD, and MATLAB Simulink
Support the development of low and high-fidelity stack, component, pipe, and manifold models
Communicate analysis results to customers to inform design decisions and ensure requirements are met
Work closely with design engineers to ensure model accuracy and recommend design improvements
Qualifications:
Bachelor of Science in Mechanical Engineering, Aerospace Engineering, Chemical Engineering, Electrochemistry, Chemistry, Physics, or related technical subject areas
5+ years of relevant Thermal or Fluids analysis experience in Aerospace, Automotive, or another relevant industry
Sound fundamentals in thermodynamics, fluid mechanics, and physics-based mathematical models
Ability to read, understand, and use Process and Instrumentation Diagrams (P&IDs) for performing calculations for compressible, incompressible, and two-phase systems
Work collaboratively in a fast-paced and often uncertain environment while demonstrating personal leadership, technical competence, and attention to detail
Ability to earn trust, maintain positive and professional relationships, and contribute to a culture of inclusion
Excellent verbal, written, and graphical communication skills
Must be a U.S. citizen or national, U.S. permanent resident (current Green Card holder), or lawfully admitted into the U.S. as a refugee or granted asylum.
Desired:
M.S. or Ph.D. or equivalent experience in Mechanical Engineering, Aerospace Engineering, Chemical Engineering,Electrochemistry, Chemistry, Physics, or related technical subject areas
Experience working with the following: Thermal Desktop, FloCAD, MATLAB, Python scripting, Simulink, Amesim, GT Suite
Demonstrated anchoring first-principles models to higher-fidelity simulations and test data
Experience modeling steady-state and transient systems, specifically thermal and fluid systems
Understanding of Aerospace standard processes, methods, and procedures
Experience supporting testing and correlating models with test data
Experience creating P&IDs of fluid systems for compressible, incompressible, and two-phase systems
Familiarity with thermal and fluid system components (e.g., valves, regulators, heat exchangers, and pumps for propellants, coolants, and other fluids)
Familiarity with aerospace system design requirements such as thermal, vibration, shock, EMI/EMC, acoustics, electrical grounding/bonding
Compensation range for on site WA appl