- #Power world simulator regulate remote bus full
- #Power world simulator regulate remote bus simulator
It is simplest for me to just lift the objectives from my lab report: We connected a single synchronous machine to an infinite bus across a 600km, 1000MW-SIL power line.
#Power world simulator regulate remote bus simulator
Using PowerWorld‘s Simulator software, we repeated one of our basic labs from ECE3333 as an introduction to computerized modelling of power systems. Like ECE3333 (Power Systems I), this course is being taught by one of the most inspiring professors I have ever had, Prof. Recently, I completed my first “lab” for ECE4464: Power Systems II. Some modifications are made to the compensation scheme as part of the study and report. Note that the small town bus has a constant 20Mvar reactive power demand, with a 40Mvar (nominal) shunt capacitor installed initially.
#Power world simulator regulate remote bus full
This lab provides insight on two very important issues in power systems, notably, the addition of distributed generation and the challenges involved with electrifying remote communities.įor my full report, see: Power Systems 4464 Lab 2 (PDF). In this manner, we can explore various phenomena resulting from distributed generation systems like wind farms, including the effects on power transfer and power system stability. To simplify this lab, we model the large city as an infinite bus, which consumes any excess power generated by the plant.
The nuclear plant serves a large city via two parallel transmission circuits, as well as the smaller city at the mid-line of one of these lines. Because these reactors are large, they will provide some voltage regulation by supplying or consuming MVARs. We simulate a very large capacity plant (a nuclear plant consisting of four reactors producing 750 MW each). In this lab, our objective is to study the potential impact of integration of distributed generation (in particular, a wind farm) using the PowerWorld Simulator software.
This town is near the proposed connection point of the Wind Turbine Generation (WTG) project this project has a peak output of 85MW. At the midline between the nuclear reactors and the large city, a transformer is installed at the midline bus to supply a different voltage to a nearby town. Using PowerWorld‘s Simulator software, we connected a large four-reactor nuclear generation plant (750MW per reactor, constant output) via two parallel transmission lines with a large city (modeled as an infinite bus). Like ECE3333 (Power Systems I), this course is being taught by Prof. My second “lab” for ECE4464: Power Systems II studied the effects of distributed generation (in particular, a large-scale wind turbine generation project) on the power system.
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