Power System Design
The Power System Design course provides comprehensive training in designing and analyzing electrical power systems. It covers fundamental topics such as electrical circuit theory, power generation, transmission, and distribution. Students learn about grid integration, focusing on the seamless incorporation of various energy sources, including renewable energy like solar and wind power, into the power grid.
Key components of the course include protection schemes, which are essential for safeguarding electrical systems from faults and ensuring reliable operation. The course also delves into smart grid technologies, exploring advancements that enhance grid efficiency, flexibility, and resilience. Emphasis is placed on modern tools and software for power system analysis and simulation.
Through a blend of theoretical knowledge and practical application, students gain the skills needed to design robust and efficient power systems. The course prepares graduates for careers in electrical engineering, utility management, and renewable energy sectors, equipping them with the expertise to address contemporary challenges in power system design and operation.
Advantages of Power System Design
- Improved Efficiency
- Reliability and Stability
- Scalability
- Integration of Renewable Energy
- Cost-effectiveness
- Enhanced Safety
- Environmental Benefits
- Smart Grid Implementation
- Regulatory Compliance
- Economic Growth
Power System Design Job Opportunities
- Power System Engineer
- Renewable Energy Engineer
- Transmission Planning Engineer
- Distribution System Engineer
- Protection Engineer
- Smart Grid Engineer
- Energy Consultant
- Project Manager
- Research and Development (R&D) Engineer
- Regulatory Compliance Specialist
- Duration
6 Months
- Type of Study
Full Time
- Fees
20000
- R & D Department
22 Years
What you will learn?
TEACHING
WORLD-CLASS FACULTY WITH A WEALTH OF INDUSTRY EXPERIENCE.
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Power System Design - Syllabus
Power and Automation – Main Course + 2 Higher end PLC, SCADA, HMI, VFD, PAC, DCS
AC Generator(Alternator)
Construction: Operation – parts of the generator – types of AC generator – single-phase AC generator – three-phase AC generator
DC Generator: Basic principle – construction – parts of the generator – method of functioning -types of the generator – series generator – shunt generator – Compound
Transformer : Introduction – construction – operation – types of transformers – uses – protective devices of transformer – transformer oil.
DC Motor: Basic principles – construction – parts of dc motor – method of functioning – types of dc motor – series motor – shunt motor – compound motor
AC Motor: Three-phase motor – single phase motor – construction – operation – uses
- High Tension and Low Tension Electrical Work
- Marine Electrical Work
- Estimate Material Quantities and Costs Prior to
- Bidding an Electrical based Project
- Calculation of total load
- Selection of electrical equipment
- Teach to create and manage projects, create and
- edit various electrical drawings,
- develop reports with the help of Autocad Electrical
- Megger
- Multimeter
- Tong tester
- Earth tester
- Neon tester
- Loop calibrator
- Generator synchronization, VFD and AMF Earthing
- Load testing
- Power management and monitoring
- Ferrule and types of crimping
- Bus bar arrangements
- Relay Contactor and switch gear
- Complete panel design and wiring
- Basics of electricity and its symbols electrical machines and instruments
- distribution of electricity
Build your Career in Power System Design with SMEC
A Power System Design course equips students with the knowledge and skills necessary to design, analyze, and optimize electrical power systems. The curriculum typically covers a broad range of topics essential for understanding and implementing effective power systems:
Fundamentals of Electrical Engineering: Basic principles including circuit theory, electromagnetism, and power electronics form the foundation.
Power Generation: Study of various methods of generating electricity, including conventional sources like thermal, hydro, and nuclear, as well as renewable sources such as solar and wind.
Transmission and Distribution: Understanding the principles and techniques for efficient and reliable transfer of electricity over long distances (transmission) and within local networks (distribution).
Grid Integration: Integration of different energy sources into the power grid, including management of intermittency and grid stability.
Protection Systems: Design and implementation of protection schemes to detect and isolate faults in power systems, ensuring safety and reliability.
Smart Grid Technologies: Exploration of advanced technologies like automation, digital communication, and data analytics to enhance grid efficiency and reliability.
Renewable Energy Integration: Strategies and challenges associated with integrating renewable energy sources into existing power systems.
Software Tools and Simulation: Hands-on experience with industry-standard software for power system analysis, simulation, and optimization.
A well-rounded Power System Design course prepares graduates for careers as power system engineers, renewable energy specialists, grid planners, consultants, and researchers. It emphasizes practical applications through projects, lab work, and industry collaborations, ensuring graduates are ready to tackle real-world challenges in the evolving field of electrical power systems.
Benefits of learning from us
- Designed for Working Professionals
- Personalised mentorship sessions
- Dedicated career support
- Doubt-Solving with Expert Industry mentors
- Proactive Program Support
- Job Assistance with Top Firms
- IIIT Kanpur Alumni organised syllabus
- Virtual Lab Facility
- 100% Placement Assistance
- National & International Certifications
FAQs for Factory Automation
We have mainly three types of courses.
a.) A three and a half months full course which is known as Post Graduate Diploma in Industrial Automation (PGDIA) which covers 7 brands of PLCs (SIEMENS, Allen Bradley, ABB, Schneider Electric, Omron, Delta, GE Fanuc), 5 SCADAs (Intouch, Factory Talkview, WinCC, Vijeo Citect and iFix), VFD, HMI, MCC Panel wiring and designing, PAC
(Programmable Automation Controller), P&FI and DCS (Distributed Control System)
b.) The next course is a two months course – Advanced Diploma in Industrial Automation (ADIA) with 6 PLCs, 3 SCADAs, VFD, HMI, MCC Panel, P&FI and DCS can also be included.
C.) The third is the One-month course Certified Automation Engineering (CAE) with 6 PLCs, 2 SCADAs, VFD, P&FI.
SMEC, one of India’s first worldwide EPC contractor company globally recognized for its distinctive services specifically in Marine & Industrial Automation, Instrumentation, Electrical, Pneumatics, Hydraulics and Mechanical sectors which started its journey in 2001. It has a R&D and training division SMEClabs which caters job-oriented training in various domains which helps an aspiring engineer /fresher or professionals to get a jump start to their career.
Yes of course. Being a mechanical engineer, most of the people say that industrial automation is related to electrical, instrumentation electronics field, but in reality, even mechanical domain sectors are also using automation for their manufacturing units, factories, piping plants as well as rig areas.
Valves all are controlled by PLC only and plants can be monitored using SCADA. An automation engineer with a mechanical background will always be an advantage for factory/manufacturing units. In most of the countries especially European and western countries, you can see that more mechanical engineers work in Industrial Automation field as there more factories/manufacturing units etc. We will cover from basics only so that irrelevant of the branch you completed you can choose automation as your career. Actually, automation is a combination of electrical, electronics, mechanical, hydraulics and instrumentation.
- Students feedback
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