Job Description Summary Become part of a winning team and help to deliver the Green Energy transition.
This role is designed to interpret the customer's technical enquiry and to design the most cost-effective overall solution for an HVDC installation utilising the PES power electronics solutions, aiming to minimising the total cost, and to specify the main (high-value) items of bought-out equipment for HVDC Projects.
The successful candidate will also be involved in the development and industrialisation of tools and processes and will have technical knowledge and experience in the field of power system engineering (academic and professional).
The successful candidate will be part of an established team of experienced power systems engineer which will provide them with various opportunities to develop their skills in the field of high voltage AC and DC power system design via mentoring by Systems Expert, on-the-job training, classroom training (such as the HVDC university training modules), placement in other engineering departments etc.
Job Description
As part of the role, the candidate will be required to represent GE in front of external stakeholders such as clients, third party suppliers, professional bodies (IEC, Cigré, etc). You will also interact with GE stakeholders within the HVDC business and the wider GE renewables organisation.
The successful candidate will also have the opportunity to develop innovative ideas and publish their work internationally in scientific papers and patents.
Internal Interfaces:
Solution Centre Operations (for Customer projects) Technology (for R&D projects) Strategic Sourcing Quality Other engineering departments External Interfaces
Major Suppliers Customers Consultants Professional Organizations Statutory Bodies Competitors Essential responsibilities:
The successful candidate may be involved in any of the following areas and is expected to have experience in a number of these areas:
Main Circuit Design
Develop an integrated scheme design that meets the Customer's needs, by developing requirements on the ratings and functionalities of the different HVDC system's subsystems, in an optimised and cost-effective manner.
Insulation Coordination Studies
Determine the temporary and transient overvoltage stresses on HV equipment and provide the protective level requirements for the surge arresters. Equipment Lifecycle Management
Manage the lifecycle of high economic value High Voltage equipment such as power transformers, instrument transformers, reactors, capacitors, and surge arresters, covering the development of its requirements, specification, supplier management and the validation and verification (testing) of design, manufacturing and commissioning. Reliability, Availability and Maintainability Studies and Management
Create, verify, and validate the reliability, availability and maintainability models for HVDC systems and subsystems, providing insight to customers and leaders and managing the risks, issues and opportunities that affect the systems throughout their lifecycle. Losses Management
Create, verify, and validate the electrical power losses models for HVDC systems and subsystems, providing insight to customers and leaders and managing the risks, issues and opportunities that affect the systems throughout their lifecycle. Technical Leadership
Lead Project activities within the Systems department and co-ordination with other engineering department Quality
Take part in the development and deployment of engineering processes, working methods and best practices within the Department. Enforce engineering discipline and set processes across all work tasks and adherence to company policies, quality procedures and work instructions (e.g., through trainings, technical reviews). Report or resolve any non-conformances in a timely manner. Development and Industrialisation
Develop and industrialise solutions tools and processes associated with the engineering activities identified above. Health and Safety
Identify and evaluate EHS risks in own area and implement practical measures. Set the example by demonstrating the proper acts and actively observe work conditions and behaviours, giving constructive feedback and celebrating EHS effective prevention. Actively participate in defining corrective actions when work is unsafe or when an uncontrolled risk is observed. Routinely observe routines and behaviours of others and provide immediate feedback regarding unsafe behaviour and celebrates achievements or safe behaviours. Actively and routinely promote the identification of hazards and near misses to their team/s. Desired additional skills:
Network Studies
Confirmation of the correct interaction between the equipment, its control system, and the rest of the network. Transient Stability studies, Load Flow Studies, Short Circuit Studies, Interaction Studies. Transient Studies
Determination (by simulation) of temporary and transient overvoltage stresses on equipment and surge arrester energy ratings. Harmonic Analysis and Power Quality
Conducting AC and DC harmonic performance and harmonic stability studies for HVDC converter stations for VSC and LCC HVDC schemes. Radio Frequency Interference studies and Electromagnetic Compatibility studies. Power Line Carrier Interference studies and filters. Design of AC, DC, and High Frequency harmonic filters and screening. Calculations of filter performance and rating. Creation of project-specific equipment specifications for filter reactors / capacitors / resistors. Tools
PSCAD, PSS/E, DigSilent, Python and MATLAB. Desired Candidate Profile
Qualifications and Experience:
Preferably educated with a Master in Power Systems Engineering from an accredited institution (or equivalent knowledge) and proven professional experience and technical expertise in the field of Power Systems Engineering and preferably in HVDC System Design.
Technical Domain Competencies
At least AWARE of the following areas, and PROFICIENT in some of them:
Power System Design Circuit analysis Power control Reactive power design HVAC domain knowledge HVDC domain knowledge High voltage equipment specification, design, and testing (E.g., power transformers, reactors, capacitors, switchgear, instrumentation transformers and transducers, surge arresters, bushings and insulators) Reliability, availability, and maintainability (RAM) assessment and management Electrical power systems modelling and analysis Insulation co-ordination Audible noise assessment and mitigation AWARE of:
Network Studies Harmonic Analysis and Power Quality EMC assessment and mitigation HVDC valves and their control systems Technical Domain Tools
AWARE of:
Power Network Analysis (PSS/E, DigSilent, Eurostag) EMT Software (PSCAD, EMTP-RV, ATP) Reliability assessment (Reliasoft, Isograph) Audible Noise (SoundPLAN) Visual Basic for Applications (VBA) Python MATLAB & Simulink Requirements Management (DOORS) Professional Competencies
Communications: Exceptional oral and written communication skills in English. Critical Thinking: Capable of structuring defendable arguments, evidence, assumptions, and decisions. Ethics and Professionalism: Personal commitment to professional standards, recognising obligations to society, the profession, and the environment. Technical Leadership: understanding of customer need, problem solving, creativity and innovation, relationship management, operational oversight and accountability, engineering instinct. Negotiation: capable of resolving points of difference, to gain advantage for an individual or collective, or crafting outcomes to satisfy various interests. Team Dynamics and Facilitation: Ability to be a team player and to facilitate groups interactions. Engineering Management
Competencies
Planning: Ability to plan and manage own work. Risk and Opportunity Management: Proactively identifies and manages risks, issues, and opportunities. Acquisition and Supply: Generation of work products associated with acquiring or providing products or services. Knowledge Management: capable of deploying training, coaching, and mentoring to customers and colleagues. Proactively records and disseminates return of experience. Grid Solutions, a GE Renewable Energy business, serves customers globally with over 13,000 employees. We provide power utilities and industries worldwide with equipment, systems and services to bring power reliably and efficiently from the point of generation to end power consumers. Grid Solutions is focused on addressing the challenges of the energy transition by enabling the safe and reliable connection of renewable and distributed energy resources to the grid. We electrify the world with advanced grid technologies and accelerate the energy transition.
About GE Grid Solutions:
At GE Grid Solutions we are electrifying the world with advanced grid technologies. As leaders in the energy space our goal is to accelerate the transition for a more energy efficient grid to full fill the needs of tomorrow. With a focus on growth and sustainability GE Grid Solutions plays a pivotable role in integrating Renewables onto the grid to drive to carbon neutral. In Grid Solutions we help enable the transition for a greener more reliable Grid. GE Grid Solutions has the most advanced and comprehensive product and solutions portfolio within the energy sector.
Why we come to work:
At GE Renewable Energy, our engineers are always up for the challenge - and we're always driven to find the best solution. Our projects are unique and interesting, and you'll need to bring a solution-focused, positive approach to each one to do your best. Surrounded by committed, loyal colleagues, if you can dare to bring your ingenuity and desire to make an impact, you'll be exposed to game-changing, diverse projects that truly allow you to play your part in the energy transition.
What we offer:
A key role in a dynamic, international working environment with a large degree of flexibility of work agreements
Competitive benefits, and great development opportunities
Additional Information
Relocation Assistance Provided:
No