Sub-project Manager System Design
Siemens Energy AG
Total years of experience :10 years, 5 Months
• Sub-project manager of the complex local and global High Voltage Direct Current (HVDC) Power Transmission projects
• Responsible for scope, schedule, costs, quality, risks, and resources management for system design work packages in the projects
• Accountable for all technical aspects of system design engineering and studies in the projects
• Manage and monitor effective and efficient communication and stakeholder engagement for system design activities
• Assist project directors with the optimization of the overall system design during projects tender and execution phases with the aim of driving up the business value and meeting business strategy goals
• System design engineer for the local and global projects of High Voltage Direct Current (HVDC) Power Transmission
• Technical advisor and consultant for complex problems and issues related to overall system design
• Perform system design studies for the high voltage equipment used in HVDC transmission converter stations
• Design the HVDC systems at the core level in close coordination with customers in order to
comprehensively meet the customer requirements and expectations
Final grade: 1.2 (Scale: max. = 1.0, min. = 4.0) with Distinction Thesis: Impact of Digitalization and AI on Strategic Management Major Courses: • International Strategic Management, Top Management Issues, Managerial Decisions • International Economics, Finance, Accounting, Marketing, Supply Chain Management, Business Law, Taxation • Project Management, Innovation Management, Digital Business • Social and Intercultural Communication Competence, Applied Leadership, Leadership in International Organizations Course Projects: • Utility 4.0 - Digital District Heating (in cooperation with M/s Landis+Gyr GmbH) • Organization of Digital Transformation (in cooperation with M/s Siemens AG)
Final grade: 1.1 (Scale: max. = 1.0, min. = 4.0) with Distinction Thesis (at Siemens AG): Design of Reactive Power Compensation Schemes for HVDC LCC Transmission for the Connection to Weak AC Systems Major Courses: • High Voltage Engineering, Power Cable Engineering, Measurement Techniques for Power Systems, Low Carbon Energy Systems, Electrical Railway Traction Drives • Power System Dynamics, Automation of Complex Power Systems, Power Economics in Liberalized Electricity Markets, Battery Storage Systems
Final grade: 3.646 (Scale: max. = 4.0, min. = 1.0) Thesis: Application of FACTS Devices to Improve Voltage Stability in Power Systems