We are seeking a skilled HV Power Systems Engineer
to lead the design, analysis, and optimization of high-voltage electrical systems. This role involves conducting advanced dynamic studies , such as Dynamic Voltage Control, Reactive Power Stability, Fault Ride Through, Fast Fault Current Injection, and Frequency Response (LFSM/FSM) studies. Additionally, the candidate will support model validation and verification
post-commissioning. Proficiency in AutoCAD
and advanced analysis tools such as ETAP, PSCAD, DigSILENT, PowerFactory is essential.
Key Responsibilities:
Design and refine high-voltage system layouts using AutoCAD.
Dynamic Voltage Control
and
Reactive Power Stability
studies.
Fault Ride Through
(FRT) and
Fast Fault Current Injection
analysis.
Frequency Response Studies
– LFSM (Limited Frequency Sensitive Mode) and FSM (Frequency Sensitive Mode).
Load flow, short-circuit, harmonic analysis, and transient stability simulations.
Conduct
model validation and verification
post-commissioning to ensure compliance and performance.
Analyse HV equipment performance and interaction with grid systems under diverse conditions.
Prepare and deliver detailed technical reports, models, and recommendations.
Collaborate with stakeholders to ensure successful project delivery.
Requirements:
Degree in Electrical Engineering or related field.
Advanced proficiency in AutoCAD for HV system design.
Experience with power system analysis tools such as ETAP, PSCAD, or DigSILENT PowerFactory.
Strong expertise in dynamic studies for high-voltage networks.
Familiarity with industry standards (IEC, IEEE, ENTSO-E).
Excellent problem-solving, organizational, and communication skills.
Fully remote working flexibility.
Opportunity to work on technically challenging, high-impact HV projects.
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to lead the design, analysis, and optimization of high-voltage electrical systems. This role involves conducting advanced dynamic studies , such as Dynamic Voltage Control, Reactive Power Stability, Fault Ride Through, Fast Fault Current Injection, and Frequency Response (LFSM/FSM) studies. Additionally, the candidate will support model validation and verification
post-commissioning. Proficiency in AutoCAD
and advanced analysis tools such as ETAP, PSCAD, DigSILENT, PowerFactory is essential.
Key Responsibilities:
Design and refine high-voltage system layouts using AutoCAD.
Dynamic Voltage Control
and
Reactive Power Stability
studies.
Fault Ride Through
(FRT) and
Fast Fault Current Injection
analysis.
Frequency Response Studies
– LFSM (Limited Frequency Sensitive Mode) and FSM (Frequency Sensitive Mode).
Load flow, short-circuit, harmonic analysis, and transient stability simulations.
Conduct
model validation and verification
post-commissioning to ensure compliance and performance.
Analyse HV equipment performance and interaction with grid systems under diverse conditions.
Prepare and deliver detailed technical reports, models, and recommendations.
Collaborate with stakeholders to ensure successful project delivery.
Requirements:
Degree in Electrical Engineering or related field.
Advanced proficiency in AutoCAD for HV system design.
Experience with power system analysis tools such as ETAP, PSCAD, or DigSILENT PowerFactory.
Strong expertise in dynamic studies for high-voltage networks.
Familiarity with industry standards (IEC, IEEE, ENTSO-E).
Excellent problem-solving, organizational, and communication skills.
Fully remote working flexibility.
Opportunity to work on technically challenging, high-impact HV projects.
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