Senior Engineer, Mechanical Responsible at Grundfos A/S
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In a fast-paced and ever-changing industry, (re-)planning and adjustments are sometimes necessary, and I am not afraid to speak the truth. Individually, I am innovative, supportive and curious, which often leads to involvement in end-to-end development projects. Furthermore, I offer an open and realistic mindset resulting in great communication and respectful treatment even in stressful situations.
In addition, I strive to add value to my team and organization, not only through project deliverables but also through honesty and knowledge sharing. That is my recipe and key values to success.
Senior Engineer, Mechanical Responsible at Grundfos A/S (2024-01 – Present)
In my current role, I am responsible for mechanical development of production test equipment within electronics testing platforms. I drive technical solutions from concept to implementation in high-tech production environments, coordinating work across mechanical, electrical and software disciplines as well as suppliers and production stakeholders. A key initiative includes development of a cost-optimized version of a multipurpose tester for functional testing of electronic components, achieving 40% faster test performance, 48% lower equipment cost and around 30% reduction in mechanical complexity, contributing to improved OEE.
The development is supported by Model-Based Systems Engineering. I also work with structured risk management using risk matrices and FMEA, support RFQ processes and supplier dialogue, and help maintain alignment between project budget and actual implementation cost.
Senior Mechanical Design Engineer at Grundfos A/S (2023-01 – 2024-01)
In AME STE Test Engineering, I focus on modular design, optimization, and collaborative problem-solving to develop and improve testing units. I focus on enhancing product modularity, optimizing designs for better performance and sustainability, and proactively addressing complex challenges, especially on MPT Mk II with mechanical improvements on both platform, product-family and component level. I bridge theory and practice by transforming abstract ideas into practical solutions, employing methodologies like Reconfigurable Manufacturing Systems (RMS) and Flexible Manufacturing Systems (FMS).
Additionally, I use ANSYS Mechanical for Finite Element Method (FEM) to validate proposal results, ensuring mechanical system reliability. In summary, I utilize my curiosity to explore high levels of modularity and sustainability.
Project Engineer at Danfoss Hydronic (2022-01 – 2023-01)
Led the future modularization, structure, optimization, and 3D/2D design of the Compact Unit series, resulting in a reduction from 800 variants to 100 variants. Successfully transitioned the team from SolidWorks to NX/Teamcenter for improved workflow. Responsible for Master Data and Process Data Management for the series. Collaborated effectively with multiple interdisciplinary departments to achieve project goals.
Mechanical Engineer R&D at Danfoss Drives (2022-01 – 2022-01)
Led the development of high-quality general plastic components. Created 3D/2D documentation for the VLT HVAC series and developed concepts in alignment with the V-Model.
Equipment Functional Lead Engineer (Global, Offshore) at Siemens Gamesa (2022-01 – 2022-01)
Led a team of over 30 mechanical engineers in Denmark and India, resulting in improved efficiency and quality. Promoted to NX Key User and played a key role in improving global tooling procedures. Led the participation in international trade fairs and conferences relevant to the Mechanical Engineers. Developed a tender-matrix to evaluate suppliers for selection.
Master Thesis at Siemens Gamesa (2021-01 – 2022-01)
The Master's thesis covered implementation of reconfigurable fixtures for a Blade drilling line. Based on dedicated fixtures, the aim was to develop reconfigurability using the Brownfield approach, thus increasing the changeover readiness of the entire production line. This was proven to increase efficiency by between 60%-80% depending on the occupancy. The project has been assigned and is still ongoing, and will be implemented soon.
Mechanical Engineer (Global, Offshore) at Siemens Gamesa (2016-01 – 2022-01)
Designed and developed production equipment for both Offshore and Onshore blades. Developed moulds and casting equipment for Integral Casting. Collected casting data, created analysis', and made suggestions for process improvements. Participated in interdisciplinary teams, and became a Patent Owner of a piece of equipment in the casting process. This is including the employment as Consultant at Sonne A/S, Silkeborg.
