Power Systems Engineering
Academic Advisor: Philip Pong
The objective of the certificate in Power Systems Engineering is to provide students with the knowledge to be involved with the technology advancements and future developments in power generation, controls, and management as well as with alternate and new energy resources. This program will prepare engineers to work in the power and energy industry. Academic programs in energy technology and management are needed to prepare the future workforce for the energy and power industry as more than fifty percent of the workforce in the power industry is retiring during this decade. At the same time, developing new, clean, and more efficient energy resources and technologies is of global significance.
Who is suited for this program?
Power Systems Engineering is ideal for preparing future engineers in the power and energy industry. Additionally, it fits students who are interested in technology advancements and future developments in the power generation, control, and management as well as alternate and new resources.
What will I learn?
- Power system steady-state analysis of power system networks, particularly real and reactive power flows under normal conditions and current flows under faulty conditions. Symmetrical components and digital solutions are emphasized.
- Computer methods applied to power systems and digital computer techniques proven successful in the solution of power system problems, particularly in the electric utility industry. Emphasis on short-circuit, load flow, and transient stability problems. Matrix sparsity is considered.
- Transient performance of power systems with lumped properties, interruption of arcs, restriking voltage, re-ignition inertia effects, switching of rotational systems, magnetic saturation in stationary networks, harmonic oscillations, saturated systems, transient performance of synchronous machines.
- Protection of power systems
- Theoretical developments and computer methods in determining economic operation within the boundaries of a given steam-electric operating area. Energy accounting control and economic theories for interconnected steam and hydroelectric power systems.
Why study Power Systems Engineering at NJIT?
Energy resources and technology has become a key thrust area of significant importance at several leading institutions. With the synergy in nanotechnology, solar cells and other related sciences at NJIT, an advanced energy technology initiative was formulated to offer an academic and research program in energy resources, technology management, and alternate energy research.
Academic programs in energy technology and management are much needed to prepare the future workforce for the energy and power industry as more than 50% of the workforce in the power industry is retiring in this decade. At the same time, developing new, clean and more efficient energy resources and technologies is of global significance.
Prerequisites
Applicants are expected to have undergraduate backgrounds in physics, mathematics (through differential equations and vector analysis), electrical networks and devices, electronics, analysis and design methods, transients, electromagnetic fields, and appropriate laboratory work in some of these areas. Completion of a Bachelor’s degree with a overall cumulative Grade Point Average of 2.8 or higher on a 4.0 scale.
Related Degree Programs
All credits for the Power Systems Engineering Certificate relates in its entirety to either MS in Electrical Engineering or MS in Power and Energy Systems.
Gainful Employment Disclosure
Click here for the Gainful Employment Disclosure for this program
<<Core Courses>>
ECE610 Power System Steady-State Analysis
ECE611 Transients in Power Systems
<<Elective Courses>> (Select two of the following)
ECE613 Protection of Power Systems
ECE616 Power Electronics
ECE617 Economic Control of Interconnected Power Systems
ECE618 Renewable Energy Systems
ECE619 Intelligent Sensing for Smart Grid and Smart City
ECE651 Wind Power Transmission and Grid Interconnection
ECE652 HVDC Design, Operation and Maintenance
ECE656 Power System Dynamics
ECE698 Power Grid Modernization
ECE698 Selected Topics in Electrical and Computer Engineering