ETAP for Power System Analysis Certified Course

Courrse Description:

The ETAP for Power System Analysis is designed to equip learners with in-depth knowledge of electrical power system modeling, simulation, and analysis using the industry-leading ETAP software. This course covers essential concepts such as load flow analysis, short circuit studies, transient stability, protection coordination, and power quality assessment, enabling participants to design and optimize reliable electrical networks. With practical hands-on training and real-world case studies, learners will gain the technical expertise required to solve complex challenges in power generation, transmission, and distribution systems. This certification is ideal for engineers, consultants, and professionals aiming to advance their careers in power system engineering and energy management.

Key Features of Course Divine:

• Collaboration with E‑Cell IIT Tirupati
• 1:1 Online Mentorship Platform
• Credit-Based Certification
• Live Classes Led by Industry Experts
• Live, Real-World Projects
• 100% Placement Support
• Potential Interview Training
• Resume-Building Activities

Career Opportunities After ETAP for Power System Analysis Certified Course:

• Power System Engineer 
• Electrical Design Engineer 
• Protection & Control Engineer 
• Energy Analyst / Consultant 
• Project Engineer (Electrical) 
• Renewable Energy Engineer

Essential Skills you will Develop ETAP for Power System Analysis Certified Course:

• Power System Modeling & Simulation
• Load Flow Analysis
• Short Circuit Analysis 
• Relay Coordination
• Protection Studies
• Dynamic Stability Analysis
• Harmonic & Power Quality Analysi
• Arc Flash & Safety Studies
• Renewable Energy Integration
• Energy Management & Optimization
• Report Generation & Documentation

Tools Covered:

• ETAP Load Flow Analysis
• Short Circuit Analysis
• Protection & Coordination
• Harmonics & Power Quality
• Transient Stability & Dynamics
• Motor Acceleration & Starting Analysis
• Arc Flash Analysis
• Renewable Energy Integration
• Cable Sizing & Thermal Analysis
• Load Shedding & Optimization

Syllabus:

Module 1: Introduction to ETAP and Power System Basics Overview of ETAP software environment Fundamentals of power system components Building single-line diagrams in ETAP Database configuration and system modeling.

Module 2: Load Flow Analysis Principles of load flow studies Running load flow simulations Voltage profile and line losses System performance improvement techniques.

Module 3: Short Circuit Analysis Types of faults and fault current calculations Symmetrical & unsymmetrical fault analysis Equipment rating and breaker sizing Case studies on industrial networks.

Module 4: Protection and Coordination Studies Relay characteristics and settings Protection device coordination Time-current characteristic (TCC) curves Protection optimization in ETAP.

Module 5: Transient Stability and Dynamics System stability concepts Generator swing curves and rotor dynamics Load disturbance response Case studies on stability improvement.

Module 6: Harmonics and Power Quality Sources of harmonics in power systems Total Harmonic Distortion (THD) analysis Power quality assessment using ETAP Harmonic filters and mitigation techniques.

Module 7: Motor Acceleration and Starting Studies Motor starting impact on system voltage Motor dynamic performance analysis Soft starter and VFD modeling in ETAP Case study on industrial motor loads.

Module 8: Arc Flash and Safety Studies Arc flash principles and safety standards (IEEE 1584, NFPA 70E) Incident energy calculations PPE level determination Safety compliance reporting in ETAP.

Module 9: Renewable Energy Integration and Microgrids Solar, wind, and hybrid system modeling Grid integration and islanding analysis Distributed generation impact studies Microgrid stability analysis.

Module 10: Energy Management, Reporting, and Optimization Load shedding strategies System optimization techniques Automatic report generation in ETAP Final project: End-to-end power system case study.

Industry Projects:

• Load Flow and Voltage Profile Study for a Manufacturing Plant
• Short Circuit and Protection Coordination for a Power Distribution Network
• Transient Stability Analysis of a Grid-Connected Power Plant
• Arc Flash Hazard Assessment in an Industrial Substation
• Harmonic and Power Quality Study in a Renewable Energy Integrated Grid
• Motor Starting Analysis for a Water Treatment Plant
• Microgrid Design and Optimization

Who is this program for?

• Electrical Engineers & Power System Engineers
• Mechanical & Electronics Engineers 
• Energy Consultants & Analysts 
• Project Engineers & Managers
• Utility Professionals & Grid Operators
• Renewable Energy Professionals
• Academicians & Researchers
• Students & Fresh Graduates

How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com