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Propulsion Engineering Jobs in Texas (NOW HIRING)

The scope of the propulsion engineering department spans launch vehicle engines, spacecraft propulsion, vehicle fluid systems, valve design, and propulsion analysis teams. Responsibilities * Set and ...

This role leads a team of propulsion engineers and technicians responsible for developing, integrating, testing, and operating flight-critical propulsion hardware from concept through flight and ...

Typically requires a minimum of a bachelor's degree in Engineering and normally possess 5-10 years of related experience. * Spacecraft propulsion experience with a focus on fluid and mechanical ...

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Propulsion Engineering information

See Texas salary details

$38.2K

$95.8K

$156.1K

How much do propulsion engineering jobs pay per year?

As of Jul 18, 2026, the average yearly pay for propulsion engineering in Texas is $95,797.00, according to ZipRecruiter salary data. Most workers in this role earn between $76,900.00 and $109,900.00 per year, depending on experience, location, and employer.

What is the difference between Propulsion Engineering vs Mechanical Engineering?

AspectPropulsion EngineeringMechanical Engineering
Required CredentialsBachelor's or Master's in Aerospace, Mechanical, or Propulsion Engineering; certifications like PE (Professional Engineer) are commonBachelor's or Master's in Mechanical Engineering; PE certification is also common
Work EnvironmentDesign, develop, and test propulsion systems for aircraft, spacecraft, or missilesDesign, analyze, and manufacture mechanical systems across various industries
Industry UsagePrimarily aerospace, defense, and space industriesBroad industry use including automotive, manufacturing, energy, and aerospace

Propulsion Engineering focuses specifically on propulsion systems for aerospace and defense applications, requiring specialized knowledge of fluid dynamics and thermodynamics. Mechanical Engineering offers a broader scope, covering various mechanical systems across multiple industries. While both roles share foundational engineering principles and certifications, Propulsion Engineers specialize in propulsion technologies, making their work more niche within the engineering field.

What is propulsion engineering?

Propulsion engineering is a specialized field of engineering focused on the design, development, testing, and maintenance of systems that move vehicles or objects by generating thrust. This can include propulsion systems for aircraft, rockets, spacecraft, ships, and even some land vehicles. Propulsion engineers work with various technologies such as jet engines, rocket motors, and other power plants, ensuring they operate efficiently and safely. The discipline combines principles from mechanical, aerospace, and electrical engineering to create reliable propulsion solutions.

What are the key skills and qualifications needed to thrive as a Propulsion Engineer, and why are they important?

To thrive as a Propulsion Engineer, a solid background in mechanical or aerospace engineering, strong analytical skills, and familiarity with thermodynamics and fluid mechanics are essential, often requiring at least a bachelor's degree in engineering. Hands-on experience with CAD software, propulsion simulation tools like ANSYS or MATLAB, and knowledge of industry standards or certifications (e.g., ASME) are typically needed. Excellent problem-solving abilities, teamwork, and effective communication help propulsion engineers collaborate on complex projects and communicate technical ideas clearly. These skills are vital for designing reliable and efficient propulsion systems that meet safety, performance, and regulatory standards.

What are some common challenges propulsion engineers face when working on new engine designs?

Propulsion engineers often encounter challenges such as balancing performance requirements with strict safety and environmental regulations, integrating new materials or technologies, and optimizing efficiency while minimizing costs. Collaboration with multidisciplinary teams, including aerodynamics, materials science, and control systems, is essential to address these complexities. Additionally, propulsion engineers must stay adaptable to fast-paced project timelines and frequent design iterations, making effective communication and problem-solving skills crucial.
Director, Propulsion Engineering

Director, Propulsion Engineering

Firefly Aerospace

Briggs, TX • On-site

Other

Medical, Dental, Vision, PTO

Posted 25 days ago


Firefly Aerospace rating

8.4

Company rating: 8.4 out of 10

Based on 9 frontline employees who took The Breakroom Quiz

23rd of 61 rated aerospace companies


Job description

About Firefly Aerospace

Firefly Aerospace is a space and defense technology company on a mission to reliably and repeatedly launch, land, and operate space systems from Earth to the Moon and beyond. As the partner of choice for critical space missions, Firefly is the first commercial company to launch a satellite to orbit with 24-hour notice and the first company to achieve a successful Moon landing. Headquartered in north Austin, Texas, Firefly is looking for passionate, hardworking innovators to join our team and help fuel our successful trajectory into space.

About the Role

The Propulsion Director provides technical and organizational leadership for the design, development, test, qualification, and operation of propulsion systems across Fireflys launch vehicles and spacecraft. This role is accountable for multiple engine and fluid system programs spanning early architecture trades through flight operations.

As a vertically integrated company with co-located design, fabrication, and test facilities, Firefly expects the Propulsion Director to be deeply engaged in hardware development while setting a clear technical vision and execution strategy. The successful candidate balances hands-on technical depth with people leadership, thrives in a fast-paced development environment, and drives a culture of rigorous testing, ownership, and continuous improvement.

The scope of the propulsion engineering department spans launch vehicle engines, spacecraft propulsion, vehicle fluid systems, valve design, and propulsion analysis teams.

Responsibilities

  • Set and own the technical vision, strategy, and execution of all propulsion and fluid systems programs across launch vehicles and spacecraft
  • Lead, develop, and grow a multidisciplinary propulsion organization of ~100 engineers, fostering technical excellence, accountability, and professional growth
  • Maintain ownership of propulsion hardware and systems across the full lifecycle, from requirements definition and architecture trades through qualification, flight, and operations
  • Serve as a senior technical authority for propulsion and fluid systems, supporting major design reviews, test readiness reviews, anomaly resolution, and flight readiness activities
  • Collaborate closely with discipline chief engineers, vehicle chief engineers, and cross-functional teams including structures, avionics, software, manufacturing, integration, quality, and test
  • Drive propulsion system performance, reliability, cost, and manufacturability through disciplined design practices and data-driven decision making
  • Ensure robust risk identification, mitigation, and closure through analysis, testing, and operational feedback
  • Oversee development, qualification, and acceptance testing of propulsion components, subsystems, and engines, with an emphasis on learning-oriented testing
  • Contribute directly to new engine and propulsion technology development, providing technical insight and guidance where needed
  • Establish and uphold engineering standards, best practices, and compliance with applicable industry and government requirements

Qualifications

Required

  • B.S. in Mechanical Engineering, Aerospace Engineering, or a related technical field
  • 8+ years of experience in the design, development, and test of aerospace propulsion and/or fluid systems
  • 5+ years of experience leading engineering teams, with demonstrated success delivering complex hardware programs
  • Strong technical foundation in propulsion system design, fluid dynamics, combustion, turbomachinery, thermodynamics, and thermal systems as well as a demonstrated ability to apply these first principles to arrive at simple, robust solutions
  • Demonstrated experience owning hardware from early concept through testing, qualification, and operation
  • Hands-on experience driving performance, reliability, or design-for-manufacturability initiatives
  • Deep understanding of cryogenic and storable propellant systems
  • Working knowledge of relevant aerospace standards and requirements (e.g., SMC-S-016, SMC-S-025)
  • Working knowledge of manufacturing, fabrication, integration, and quality control relevant to fluid components (such as machining, inspection, assembly, testing, etc.)
  • Knowledge of fluid components such as valves, regulators, pressure transducers, tubing, pressurized hardware, seals, and instrumentation and experience performing fluid systems sizing analysis with such components
  • Proven ability to rapidly develop solutions with partially defined or evolving requirements
  • Excellent written and verbal communication skills, with the ability to represent propulsion programs to internal and external stakeholders

Desired Qualifications

  • Advanced degree in Mechanical Engineering, Aerospace Engineering, or equivalent field
  • Extensive experience developing and operating liquid rocket engines, launch vehicles, or spacecraft
  • In-depth knowledge of cryogenic, high-pressure, or high-temperature system operations
  • Experience with fluid system subcomponent or pressurized component development, design, or testing (such as valves, regulators, piping systems, pumps, etc.)
  • Familiarity with multiple engine cycle architectures (e.g., gas generator, staged combustion, full-flow staged combustion)
  • Proven ability to build and sustain a high-performing engineering culture centered on ownership, learning, and execution
  • Demonstrated experience with full hardware lifecycle ownership, from blank-sheet design through full operation
  • Demonstrated passion for advancing propulsion technology and integrating emerging capabilities into an executable roadmap

Disclaimer


Firefly offers outstanding benefits for our employees, including generous health, dental and
vision plans with low plan deductibles, parental leave, educational reimbursement, short term
disability, and flexible PTO options.
To conform to U.S. Government space technology export regulations, including the International Traffic in
Arms Regulations (ITAR) you must be a U.S. citizen, lawful permanent resident of the U.S., protected
individual as defined by 8 U.S.C. 1324b(a)(3), or eligible to obtain the required authorizations from the
U.S. Department of State.
Firefly Aerospace, Inc. is an Equal Opportunity Employer; employment with Firefly is governed based on
merit, competence and qualifications and will not be influenced in any manner by race, color, religion,
gender, national origin/ethnicity, veteran status, disability status, age, sexual orientation, gender identity,
marital status, mental or physical disability or any other legally protected status.


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