Test Engineer
Blue Origin · Van Horn, TX · 2 days ago
On-siteEngineeringFull-time
About the role
This role is part of Blue Origin Operations, which is comprised of Integrated Supply Chain, Test Operations, Safety, Quality, and Mission Assurance. This includes Manufacturing and Supply Chain support across all Blue Origin facilities.
Responsibilities
- Consistently exhibit strong written, personal, and computer skills.
- Ability to communicate clearly and promptly within all areas of the organization.
- Author work instructions to safely perform maintenance on test facility hardware including instructions for disassembly, inspection, assembly of various mechanical and electro-mechanical components.
- Identification and definition of preventative maintenance of test facility hardware including support equipment needed to perform maintenance on the various components of the test facility.
- Perform root cause analysis and implement corrective actions for permanent problem resolution.
- Troubleshoot, diagnose, and correct malfunctions using work instructions.
- Coordination with external vendors to support both preventative maintenance efforts and repair.
- Support functional test of various components (valves, filters, regulators, etc.) for acceptance using high pressure pneumatics, cryogenics, or hydraulics.
- Support Test Readiness and Risk Assessment Reviews to ensure compliance with Blue Origin Health and Safety Manual requirements.
- Provide technical support of new designs for maintainability and operability.
- Engage with multiple geographic locations and business units to support anomaly resolution, participate in hazard operations (hazops) assessments, stand boards, design reviews, as well as supporting considerations for operations and maintenance (O&M) of future facility expansions and upgrades.
- Actively introduce new technologies and capability improvements.
- Identify inefficiencies, capability gaps, and potential improvements in the O&M process to advocate for and implement better solutions.
Requirements
- Bachelor of Science Degree in Mechanical or Aerospace Engineering.
- Direct experience working with rocket test facility.
- 4+ years of experience in testing environment with focus on engineering and project management.
- Demonstrated ability to lead projects from concept definition to full implementation.
- Advanced computer skills such as Windows, Microsoft Office, etc.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Absorbing and calm demeanor in high pressure situations with tenacity to resolve conflict for permanent problem resolution.
- A continuous improvement mindset.
Qualifications
- 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.
Skills
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work around pressurized systems up to 6,000 PSIG.
- Intermediate technical fundamentals in fluids and thermodynamic principles.
- Strong ability to perform data analysis and establish dispositions or recommendations based upon system performance.
- Intermediate working knowledge of instrumentation including pressure transducers, thermocouples, silicon diodes, resistance temperature detectors, flow measuring devices, and accelerometers.
- Advanced knowledge of high pressure, cryogenic, hydraulic, pneumatic, data acquisition, and electrical power systems.
- Ability to read and interpret engineering standards, technical requirements, and engineering drawings.
- Ability to safely work