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- Tasks: Lead innovative mechanical engineering projects for subsea technology in renewable energy.
- Company: Join Triton, a leader in subsea technology for offshore wind and marine energy solutions.
- Benefits: Enjoy creative autonomy, mentorship, and hands-on experience in a collaborative environment.
- Why this job: Make a real impact on renewable energy while working with cutting-edge technology and diverse teams.
- Qualifications: Bachelor's in Mechanical Engineering or related field; 5+ years of relevant experience required.
- Other info: Ideal for those passionate about subsea robotics and sustainable energy solutions.
The predicted salary is between 48000 - 72000 £ per year.
We are a leading developer of subsea technology mostly related to mooring and anchoring of floating offshore wind and marine renewable energy generating platforms. We employ a diverse team of mechanical, geotechnical, ocean, and systems engineers, and business development specialists to create innovative technological solutions and implement them in the commercial market. Triton retains significant talent in the areas of mechanical engineering, mooring design, geotechnical engineering, and offshore maritime subsea construction. Triton Anchor's mission is to responsibly unlock the energy of the ocean by providing cost-effective and ecologically mindful anchoring solutions for floating offshore wind technologies.
Our team is seeking an experienced mechanical engineer to strengthen our multi-disciplinary team working on products related to offshore renewable energy. Innovation and technical problem solving will be a major part of your position along with the ability to work productively with a diverse team of engineers and business co-workers. You will lead engineering, design, and analysis capabilities to support the operation of subsea hydraulic tooling and other subsea mechanical systems.
You may be interested if you:
- Want a variety of responsibilities across mechanical design, assembly, and testing
- Like working in a fast-paced collaborative environment
- Enjoy hands-on rapid prototyping and iterative design
- Want to see your ideas put into use on a more immediate time scale
- Want creative autonomy with mentorship from experienced engineers
- Are interested in subsea robotics and renewable energy
Job Duties/Responsibilities:
- Works collaboratively with engineers to create and refine concept designs into detailed designs to meet client requirements.
- Develops and drives innovative solutions from concept to production.
- Identifies design faults and suggests alternatives.
- Develop hydraulic circuits with custom and off the shelf components including motors, valves, blocks, hoses/tubing, etc.
- Develop dynamic industrial robots for offshore applications including gears, screws, bearings, etc.
- Support manufacturing plans that include but not limited to structural steel shapes with welding.
- Assembly and testing of mechanical designs in the lab, off-site testing facilities and offshore.
- Analyses engineering sketches, specifications and related data and drawings to determine design factors such as size, shape and arrangement of parts.
- Provides input in design changes, specifications, schematics, and test plans for installation equipment, subsea equipment and subsea hardware.
- This may include identifying commercial off the shelf (COTS) pieces, vendor, and assisting with material selection.
- Creates and modifies machine or structural designs to correct operating deficiencies or to reduce production problems.
- Drafts detailed multi-view drawings of structural, machine, and subassemblies, including but not limited to specifications of moving parts and material properties.
- Interprets FEA and stress results to advance the design.
- Identifies material, coating, and cathodic protection solutions for subsea hardware.
We would especially like to talk to you if you:
- Have experience with hydraulic systems.
- Have experience with ROV and/or subsea equipment design and engineering.
- Have experience performing material selection for subsea structures, subsea equipment, and ROV tooling.
- Enjoy a mixture of hands on assembly and testing as well as computer aided design.
Qualifications:
- Bachelor's Degree in Mechanical or other related field, or equivalent combination of education and experience.
- At least 5 years of practical technical experience in the mechanical engineering designs.
- Knowledge of dynamic mechanical systems, including bearings, gears, motors, screws, etc.
- Experience with 3D CAD software (Solidworks, Pro/Engineer, NX, etc.), and Microsoft Office.
- Experience with GD&T, tolerance stack up analysis, and design for manufacturability.
How to Apply: Apply here or send resume to zmiller@tritonanchor.com
Lead Mechanical Engieer employer: Massachusetts Clean Energy
Contact Detail:
Massachusetts Clean Energy Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Lead Mechanical Engieer
✨Tip Number 1
Familiarise yourself with the latest trends in subsea technology and renewable energy. This will not only help you understand the industry better but also allow you to engage in meaningful conversations during interviews, showcasing your passion and knowledge.
✨Tip Number 2
Network with professionals in the offshore wind and subsea engineering sectors. Attend industry events, webinars, or join relevant online forums to connect with potential colleagues and learn about unadvertised job opportunities.
✨Tip Number 3
Prepare to discuss specific projects you've worked on that relate to hydraulic systems or subsea equipment design. Highlight your problem-solving skills and how you've contributed to innovative solutions in past roles.
✨Tip Number 4
Showcase your hands-on experience with assembly and testing of mechanical designs. Be ready to provide examples of how you've successfully integrated theoretical knowledge with practical applications in previous positions.
We think you need these skills to ace Lead Mechanical Engieer
Some tips for your application 🫡
Understand the Role: Before applying, make sure you fully understand the responsibilities and qualifications required for the Lead Mechanical Engineer position. Familiarise yourself with subsea technology and the specific skills mentioned in the job description.
Tailor Your CV: Customise your CV to highlight relevant experience in mechanical engineering, particularly in hydraulic systems and subsea equipment design. Emphasise your hands-on assembly and testing experience, as well as your proficiency with 3D CAD software.
Craft a Compelling Cover Letter: Write a cover letter that showcases your passion for renewable energy and subsea technology. Mention specific projects or experiences that demonstrate your problem-solving skills and ability to work collaboratively in a diverse team.
Highlight Relevant Skills: In your application, be sure to highlight key skills such as knowledge of dynamic mechanical systems, experience with GD&T, and your ability to interpret FEA and stress results. These are crucial for the role and will set you apart from other candidates.
How to prepare for a job interview at Massachusetts Clean Energy
✨Showcase Your Technical Expertise
Be prepared to discuss your experience with hydraulic systems and subsea equipment design. Highlight specific projects where you developed innovative solutions or overcame technical challenges, as this will demonstrate your problem-solving skills.
✨Emphasise Collaboration Skills
Since the role involves working with a diverse team, share examples of how you've successfully collaborated with engineers and other professionals in past projects. This will show that you can thrive in a fast-paced, team-oriented environment.
✨Demonstrate Hands-On Experience
Talk about your hands-on experience with assembly and testing of mechanical designs. Mention any relevant tools or technologies you've used, as well as your familiarity with rapid prototyping and iterative design processes.
✨Prepare for Design Challenges
Expect to face questions related to design faults and material selection. Be ready to discuss how you would approach identifying and resolving design issues, as well as your experience with FEA and stress analysis to support your decisions.
