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Projects in Awesome Lists tagged with power-systems-analysis

A curated list of projects in awesome lists tagged with power-systems-analysis .

https://github.com/GridMod/RTS-GMLC

Reliability Test System - Grid Modernization Lab Consortium

energy-data energy-system matpower power-systems power-systems-analysis rts

Last synced: 29 Mar 2025

https://github.com/OpenIPSL/OpenIPSL

A library of power system component models written in the Modelica language that can be used for power system dynamic analysis, such as phasor time-domain simulations.

energy energy-system energy-system-modeling gridcal hacktoberfest modelica power-grid power-grids power-system-dynamic-modeling power-system-dynamics power-system-simulation power-system-stability power-system-stabilizer power-systems power-systems-analysis smart-grids

Last synced: 14 Nov 2024

https://github.com/dynawo/dynawo

This repository contains Dynaωo's simulation tool code.

energy-system power-system-simulation power-systems power-systems-analysis

Last synced: 14 Nov 2024

https://github.com/kathleenwest/generation-shift-factors-contingency-analysis-power-flow-study-ac-vs-dc-methods

The project required the computation of the generation shift factors (GSF) based on a defined generator bus outage using the fast-decoupled XB version. The GSF values were used to approximate the post-contingency branch flows based on a pre-contingency branch flow and the generator output before the contingency. The AC power flows were compared with the DC method for the MW and MVA flows. Source code is provided in the same WinZip file for the functions calculating the generation shift factors and the approximated post-contingency branch flows.

branch-flows contingency contingency-analysis generation generation-shift-factors generator-bus-outage matlab mva-flows power-flow power-systems power-systems-analysis

Last synced: 23 Nov 2024

https://github.com/kathleenwest/-line-outage-distribution-factors-lodf-based-on-a-user-given-branch-outage-number---power-flows-

The project required the computation of the Line Outage Distribution Factors (LODF) based on a user given branch outage number using the fast-decoupled XB version. The LODF values were used to approximate the post-contingency branch flows based on a pre-contingency branch flow and the base branch flow before the contingency. The AC power flows were compared with the DC method for the MW and MVA flows. Source code is provided in the same WinZip file for the functions calculating the LODF values and the approximated post-contingency branch flows.

branch-flow branch-outages contingency lodf-factors lodf-values matlab mva-flows outage-distribution-factors power-flow power-system-simulation power-systems-analysis

Last synced: 23 Nov 2024

https://github.com/kathleenwest/genco-investment-strategies-by-simulation-for-demand-side-role-for-investments-and-capacity-adequacy

This project will present an applied and game-like approach to simulating the load growth, investment decisions by two types of generation technologies, demand-price responsiveness, and reliability, of a test-case power system. The simulation begins as a 9-bus system with existing generation (3 generators) and transmission lines (8 lines). System topology can be viewed in a figure throughout the game with the yearly generation and load at each bus. In addition, dynamic color-coding is used to highlight transmission lines that exceed MVA ratings and highlight bus voltages that violate any limits. The winning objective of the player company (you) is to maximize his profit. Reliability can be tracked by viewing the N-1 generator and line contingencies every year, but this does not influence profits. There are two generation technologies used: coal and gas turbine. Each technology will have a similar competitor in the simulation. The competitor can bring down the market price and reduce the player’s profits significantly. The clock starts at T=0 in the investment game with a historical record of past prices and projected prices based on lack of investment. As time moves forward in yearly increments, the load, prices, investment costs, and other variables are adjusted to that of the player’s performance. The player has the opportunity to study various profitable and unprofitable investment alternatives each year of the simulation. If he invests at the right location, and in the right planning year, his company can make windfall profits. Competitors randomly participate in adding extra generation in random areas of the system based on the competition level settings. The challenge for the user is to study the effects of his investment decisions on market prices, reliability, and his profitability.

electricity-consumption electricity-demand-forecasting electricity-prices generation investment-decisions linear-programming optimization power-economics power-grids power-market-operations power-system power-system-simulation power-systems power-systems-analysis simulation transmission

Last synced: 23 Nov 2024

https://github.com/kathleenwest/1p1q-screening-estimates-the-complex-voltage-v-vector-following-a-generator-disturbance

1P1Q screening estimates the complex voltage V vector following a disturbance. This project considers either an outage if generator 2 or generator 3 , but not both, affecting the voltage. The program flow and algorithm is as follows

branch-flows contingency-analysis disturbance electricity flow-analysis generator generator-outage matlab power-flow power-management power-system-simulation power-systems power-systems-analysis voltage

Last synced: 17 Mar 2025