Power System Studies
Advanced analysis and simulation of power systems for reliability and optimal performance
Comprehensive Power System Analysis
At Power Engineering Networks, we have successfully completed design studies for projects exceeding 1.5 GW in capacity. Our study services involve comprehensive analysis and evaluation of electrical power systems to ensure safe, efficient, and reliable operation. These studies are essential for identifying potential issues, optimizing system performance, and ensuring compliance with relevant industry standards and regulations.
Our Analysis Services
Grid Interconnection of Renewable Energy
PEN specializes in enabling renewable energy projects to connect efficiently and reliably to the grid, ensuring compliance with regulatory standards and enhancing grid stability. Our services in this area include:
- Interconnection Feasibility Studies
- Compliance and Standards
- Dynamic and Static Grid Impact Analysis
- Operational Strategy Development
POWER SYSTEM PLANNING
We provide comprehensive planning services to optimize grid reliability, efficiency, and performance, including:
- Grid Integration and Connection Studies
- Short Circuit, Load Flow, and Contingency Analysis
- Dynamic Stability Studies
- Plant Control Interaction Studies (SSTI & SSCI)
- Model Quality Testing & Benchmarking for Inverter-Based Resources (IBRs)
OPERATION PLANNING STUDIES
Our operational studies ensure that clients’ systems meet performance standards and operate efficiently. Key studies include:
- Generation Dispatch Studies
- Blackout Restoration Studies
- Under Frequency & Under Voltage Review Studies
- Interarea Transfer Limit & Operability Assessment Studies
NETWORK DESIGN STUDIES
- Relay Configuration & Protection Coordination
- Insulation Coordination
- Earth Grid Analysis and HV/LV Reticulation
- Transformer Energization Studies
- Transformer and Breaker TRV Studies
POWER QUALITY STUDIES
- Harmonic Analysis: Identifying and mitigating harmonic distortions.
- Filter Design and Analysis: Designing filters to improve power quality.
- Background Harmonics Analysis
Why Power System Studies Matter
Enhanced Safety
Identify potential safety hazards and ensure proper protection systems are in place.
Cost Optimization
Optimize equipment sizing and system design to reduce capital and operational costs.
Improved Performance
Ensure optimal system performance and reliability under all operating conditions.
Compliance Assurance
Meet regulatory requirements and industry standards for power system operation.
Our Study Process
Data Collection
Gather comprehensive system data including equipment specifications, load profiles, and network topology.
Model Development
Create accurate mathematical models of the power system using industry-standard software.
Analysis Execution
Perform detailed analysis under various scenarios including normal, emergency, and contingency conditions.
Results & Recommendations
Provide comprehensive reports with findings, recommendations, and implementation guidance.