About Heart Aerospace
Heart’s mission is to create the fastest, most affordable and sustainable mode of transport for regional travel. Our goal is to serve the market in every corner of the world.
Our first aircraft is the ES-19, a nineteen-passenger airliner with an operating range of 400 km. The ES-19 is a fully electric aircraft, and our goal is to have the aircraft certified for commercial operation by 2026.
Your place of work will be at our main office and hangar facility. This is located at Säve Airport in Gothenburg, Sweden. Relocation assistance can be provided. At Heart you’ll be working at the cutting edge of technology while contributing towards a sustainable future. We offer stock options to all our employees and a challenging and inspiring work environment.
We seek experienced and skilled professionals to join our small, fast moving team developing a new electric aircraft in Sweden. We’re in a very expansive phase and now is the time to join our team. Come help us write a new chapter in the history of aviation together.
We are seeking a Senior System Safety, Reliability & Maintainability Engineer to help us design and develop the aircraft and its installed systems. As an all-electric aircraft, this may entail new and novel approaches to system safety and reliability, in some cases requiring an innovative approach to the system design. This will be a broad role covering design support, analysis and compliance finding. In this senior role, you will provide specialist support to all other engineering groups including systems and structures.
Qualifications & Experience
Graduate degree in aerospace, aeronautical similar discipline, or equivalent experience
Minimum 10 years experience within an aerospace OEM company environment, including the conceptual and preliminary design phase
Experience with aircraft development programs through the entire design, development & certification lifecycle (EASA/FAA Part 23 or 25)
Experience working in an EASA Part 21J Design Organization, or international equivalent
Direct experience with safety and system safety engineering, within an approved design organization
Experience with functional hazard analyses, fault tree analyses, common cause analyses and particular risk analyses
Knowledge of systems & safety engineering principles for safety critical systems (SAE ARP 4754/4761) Direct experience with reliability & maintainability engineering, within an approved design organization
Knowledge of reliability analysis & predictions, FMEA and MSG-3
Excellent verbal & written communication skills in English
Eagerness to work with others
Passion for aircraft and Heart’s mission
The ideal candidate would have
Experience working in an aerospace start-up environment
Proficiency coordinating activities of engineers internally and in partner supplier companies
Working knowledge of airborne hardware & software qualification (DO-254/178)
Be part of the electric aviation revolution!
Heart Aerospace is a Swedish startup making electric regional airplanes. Heart's mission is to create the fastest, most affordable and sustainable transportation for regional travel to every corner of the world. Our first aircraft is the ES-19, a nineteen-passenger airliner with an operating range of 400 km. Our goal is to have the aircraft certified for commercial operation by 2026.
GREENAir travel accounts for 2% of global CO2 emissions, and that share is expected to rise to 12-27% by 2050. 40% of worldwide emissions are from short-haul flights. Electric aircraft are the solution. These planes have zero operational emissions, and the lowest infrastructural footprint of all modes of regional transport.
ACCESSIBLEWe believe air travel should be integrated into–not seperated from–our towns and communities. Our zero-emissions, low-noise aircraft can operate on 750m runways, making new use of the vast network of small airports close to city centres.
COST-EFFICIENTElectrification changes the equation for regional air travel. Electric aircraft are affordable to buy, operate and maintain. Simple, reliable electric motors reduce maintenance costs by 90% compared to turboprops, and intelligent electronic monitoring reduces inspection needs. Most importantly, fuel costs go down by 50-75%.