Power system analysis are an essential part of electrical power system design. Calculations and simulations are performed to verify that the electrical system, including the system components, are correctly specified to perform as intended, withstand expected stress and be protected against failures. The level of detailing and accuracy of the models and results increase towards the “as built” and operational phases. For many installations, the models are validated by measurements of the electrical system performance in operation. A validated “as built” model provides significant advantages when used for decision support throughout the installation’s operational phase and for verification of proposed future installation modifications.
This course is intended to equip the attendees with necessary skills and certify them in the field of Power System Analysis Using PSSE with real time simulations.
| Review of Current, Voltage & Power in a Three Phase Balanced System |
| Per Unit System |
| Electrical Characteristic of Transmission Lines |
| Overview of PSSE Software |
| Modelling of Generating Unit |
| Modelling of 2 Winding Transformer |
| Modelling of 3 Winding Transformer |
| Modelling of Transmission Line |
| Modelling of Load |
| Modelling of a Sample Power System in PSSE |
| Overview of Load Flow Analysis |
| Hands on Load Flow Analysis & Interpreting the results |
| Preparing IEEE 9 Bus System |
| Overview of Contingency Analysis |
| How to Prepare case for Contingency Analysis – Hands on |
| Reviewing Contingency Analysis Results |
| Introduction to Power System and its relation with Short Circuit |
| Balanced Three Phase Short Circuit |
| Symmetrical Components & Modelling of Unbalanced Faults |
| Hands On Short Circuit Analysis & Interpreting the results |
| Classification of Power System Stability |
| Review of Basic Power System Stability Concepts |
| Rotor Angle Stability & Critical Clearing Time |
| Hands on for Rotor Angle Stability using SMIB Model |
| Generator Modelling |
| Exciter Modelling |
| Governor Modelling |
| Load Modelling |
| SVC Modelling |
| Hands on for Dynamic Stability Analysis |
| Grid Interconnections Studies for Conventional Power Plants |
| Grid Interconnections Studies for Solar/PV Power Plants |
| Hands on for Typical Grid Interconnection Studies |
| Overview of VRE Technologies |
| VRE Integration into Power System |
| VRE Integration Challenges |
| Technical Requirements for VRE Integration |
| Hands on Modelling of Solar PV |
| Hands on Modelling of Wind Power Plants |
| Grid Interconnections Studies for Conventional Power Plants |
| Grid Interconnections Studies for Solar/PV Power Plants |
| Hands on for Typical Grid Interconnection Studies |
Electrical Engineers, Plant Engineers, Design/Selection Engineers, Procurement Engineers, Power Utilities Engineers, Contractors, Consultancy Firms, Professors, Lecturers, and Sales Engineers, Safety Engineers.
Seasoned Power System Engineer with 13+ years of progressive experience in power system studies, planning, real-time operations & control for various electrical utilities. Enriched experience in successfully managing and conducting electrical system studies of high value mega projects for EPC, consultancy and utility using advanced engineering tools and softwares like PSCAD, PSS/E, ETAP, DIgSILENT, PSS SINCAL, Power World Simulator, PVSyst, Python etc.
The certificate of attendance will be issued to the participants on completion of course.
To be Decided.
Transforming the Energy Sector with Expertise in Power Systems Studies, Transmission & Substation Design, Energy Audits, Renewable Energy (Solar, Wind, Hydro), Battery Energy Storage Systems (BESS), and Microgrids.
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