Aircraft Engine Development Engineer (Excluding Design)
こうくうきえんじんかいはつぎじゅつしゃ(せっけいをのぞく)
Industry & Occupation
Classification
- Major : Research and Technical Occupations
- Middle : Development Engineers
- Minor : Mechanical Development Engineers
Summary
Technical role involving performance verification, testing and evaluation, and improvement development of aircraft engines.
Description
Aircraft Engine Development Engineer (Excluding Design) primarily focuses on performance testing and evaluation of aircraft engines such as turbofans and turboprops, operating test equipment, analyzing data, and studying improvements in materials and combustion systems. Compares CFD and FEA analysis results with actual measurement data to address technical challenges like fuel efficiency improvement, durability enhancement, and exhaust emission regulation compliance. Ensures engine safety and reliability while engaging in research and development of next-generation propulsion technologies.
Future Outlook
With strengthening aircraft fuel efficiency and environmental regulations, demand for high-efficiency, low-emission engine technologies is increasing. Advances in electric propulsion and sustainable aviation fuel compatibility will further heighten the need for specialized engineers.
Personality Traits
Attentive to details / Cooperative / Curious and inquisitive / Strong sense of responsibility
Work Style
Flexitime / In-House Development / On-Site Testing / Overseas Business Trips / R&D Work
Career Path
Junior Engine Engineer → Senior Engine Engineer → Test Leader → Project Manager → Technical Director
Required Skills
CFD Simulation / Data Analysis / Engine Testing / Finite Element Analysis / Test Equipment Operation and Management
Recommended Skills
Combustion Simulation / Materials Testing Technology / Programming / Project Management Tools / Reading English Technical Documents
Aptitudes (Strengths Preferred)
| Item | Description |
|---|---|
| Analytical & Logical Thinking | Advanced logical thinking is required for numerical analysis and modeling of engine performance. |
| Attention to Detail & Accuracy | Because minor errors in test data can significantly affect product performance. |
| Learning Agility & Knowledge Acquisition | Continuous acquisition of new materials and the latest propulsion technologies is required. |
| Numerical & Quantitative Analysis | Advanced mathematical analysis skills are needed for CFD analysis and test data processing. |
| Problem Solving | Required for troubleshooting during tests and proposing performance improvements. |
Related Qualifications
- CAD Utilization Engineer Exam
- Professional Engineer (Mechanical Department)
Aliases
- Aviation Propulsion System Engineer
- Engine Development Engineer
- Propeller Engine Engineer
Related Jobs
- Aerospace Engineer
- Mechanical Design Engineer
- Propulsion Engineer
- Quality Assurance Engineer