EE460: SMART GRIDS CREDITS = 3 (L=3, T=0, P=0)

Course Objective:

To provide students with a working knowledge of fundamentals and development of Smart Grid, from the basic concepts of power systems.

Teaching and Assessment Scheme:

Teaching Scheme Credits Assessment Scheme

L T P C

Theory Practical Total

Marks

ESE CE ESE CE

3 0 0 3 70 30 0 0 100

Course Contents:

Unit

No. Topics Teaching

Hours 1 SMART GRID ARCHITECTURAL DESIGNS:

Introduction, Today’s Grid versus the Smart Grid, Energy Independence and Security Act of 2007: Rationale for the Smart Grid, Computational Intelligence, Power System Enhancement, Communication and Standards, Environment and Economics, General View of the Smart Grid Market Drivers, Stakeholder Roles and Function, Working Definition of the Smart Grid Based Performance Measures, Representative Architecture, Functions of Smart Grid Components.

07

2 SMART GRID COMMUNICATIONS AND MEASUREMENT TECHNOLOGY :

Communication and Measurement, Monitoring PMU, Smart Meters, and Measurements Technologies, GIS and Google Mapping Tools, Multi agent Systems (MAS) Technology, Micro grid and Smart Grid Comparison.

07

3 SCADA FUNDAMENTALS :

Intelligent electronic devices (IEDs), Data concentrators and merging units, SCADA communication systems, Master station, Human-machine interface (HMI), Building the SCADA systems, legacy, hybrid, and new systems, Classification of SCADA systems.

07

Unit

No. Topics Teaching

Hours 4 SUBSTATION AUTOMATION:

Substation automation: Why? Why now?, Conventional substations: Islands of automation, New smart devices for substation automation, The new integrated digital substation, Substation automation: Technical issues, The new digital substation, Substation automation architectures, New versus existing substations, Substation automation (SA) application functions.

08

5 ENERGY MANAGEMENT SYSTEMS (EMS) FOR CONTROL CENTERS:

Introduction. Operating states of the power system and sources of grid Vulnerability, Energy control centers, EMS framework, Data acquisition and communication (SCADA systems), Generation operation and management, Transmission operations and management: Real time, Study-mode Simulations, Post-event analysis and energy scheduling and accounting, Dispatcher training simulator, Smart transmission, EMS with WAMS, Future trends in EMS and DMS with WAMS, Case studies in EMS and WAMS.

08

6 DISTRIBUTION AUTOMATION AND DISTRIBUTION MANAGEMENT (DA/DMS) SYSTEMS:

Overview of distribution systems, Introduction to distribution automation, Subsystems in a distribution control center, DMS framework: Integration with subsystems, DMS application functions, Advanced real-time DMS applications, Advanced analytical DMS applications, DMS coordination with other systems, Customer automation functions, Social media usage for improved reliability and customer Satisfaction.

07

TOTAL 44 List of References:

1. James Momoh, “SMART GRID: Fundamentals of Design and Analysis”, Wiley India limited, March 2012.

2. Mini. S Thomas and John D McDonald, “Power Systems SCADA and Smart Grids”, CRC Press, 2015.

3. Nouredine Hadjsaïd, Jean-Claude Sabonnadière, “Smart grids”, 1^st edition, Wiley India limited, 2012.

4. Clark W. Gellings, “The Smart Grid: Enabling Energy Efficiency and Demand Response”, CRC press Taylor and Francis Group, 2009.

Course Outcomes (COs):

At the end of this course students will be able to …

1. Understand the fundamental element of the smart grid and power grid.

2. Be able to different communication technologies used in smart grids.

3. Understand the fundamentals of SCADA and IED

4. Understand the Importance of Automation in Substation and substation Automation.

5. Understand the Energy management systems in era of smart grid.

6. Understand the distribution automation for smart grid development.