Director, Mechanical Systems Engineering
* Full-time
Smart energy storage for every community to manage grid constraints, increase network resiliency and system flexibility, and lower costs for consumers through virtual energy storage and digital energy services.
This role is the mechanical system leader for Allye, responsible for developing the physical systems that are onboard our energy storage systems. This includes the primary and secondary structures, control panels, HV and LV sub-systems, wiring harnesses and heating/cooling systems. It is an important leadership role that goes beyond mechanical structures.
The Director of Mechanical Systems Engineering will take ownership of the design and release of multiple parts across our battery energy storage system, delivering to program milestones and targets in quality, cost, functionality, weight, and timing. This includes the development, testing and validation of all physical systems, including the packaging of EV battery packs and AC-DC bi-directional inverters (but does not include their design).
The role is a unique opportunity to lead development, testing and validation of mechanical systems within a rapidly growing and dynamic company. The ideal candidate will have a background in mechanical engineering having gained significant experience in their career working on electric vehicles including structures, cooling systems and battery pack integration. You will be hands-on and adept at developing new concepts as well as supporting the assembly and build of our systems on the production line.
Responsibilities
1. Lead the design and development of mechanical systems, products and components
2. Assess strength, stiffness, and fatigue of components, assemblies, and full systems, conducting both linear static analyses and non-linear analyses
3. Conceptual analysis and hand calculations to develop and validate engineering designs and determine structural performance
4. Design and develop integrated EV and power electronic cooling and heating systems
5. Choose and specify materials and components required, create detailed CAD drawings
6. Lead the generation and maintenance of system and component level DFMEAs
7. Conduct feasibility assessment and cost-benefit analyses to determine design viability
8. Identify and resolve design or manufacturing issues using CAD and analysis tools
9. Understand regulatory requirements and define testing activities to ensure the durability, reliability, and functionality of system design
10. Provide schemes, final designs and release drawings aligned to project requirements
11. Support the creation of RFQ/RFI documents & support supplier engagement
12. Work with suppliers to mature cost, manufacturability, and quality of engineering design
13. Provide technical guidance and support to technicians, support system production
14. Facilitate the engineering release process from initial concept to finalised drawings
15. Lead change management processes, root cause analyses and corrective actions
16. Lead the development/management of DVP&R schedule
17. Maintain knowledge of industry standards, regulations, and emerging technologies
Must-haves
1. MEng degree in mechanical, electrical or automotive engineering
2. A minimum of five years’ experience in automotive and with electric vehicles
3. Experience with electrical and mechanical EV components, including CAN protocol
4. Excellent knowledge of materials, pressings, forming technologies, and advanced joining for volume manufacture plus additive processes for prototyping
5. Experience in structural analysis (stress, stiffness, fatigue, optimisation)
6. Proficiency in simulation tool, analysing test data and correlating to CAE results
7. Understanding of typical battery characteristics, pack cooling and thermal systems
8. Understanding fluid mechanics and heat transfer principles.
9. Excellent knowledge of GD&T, drawing and assembly document creation
10. Experience in safe working practices around HV systems, legislative requirements
11. Experienced in system/component delivery including FMEA, quality planning, PPAP
12. Ability to work proactively with minimal support using a logical approach in an environment with minimal documented processes.
13. Must be self-motivated and an effective team player
14. Eligible to work in the UK
Nice-to-haves
1. Knowledge of battery system technology including cell chemistries, BMS etc.
2. Ability to challenge experts, consultants, and seniors by presenting a measured systematic first principles approach
3. Knowledge of automotive standards
Please note that at this time we are unable to provide UK visa sponsorship.
#J-18808-Ljbffr