Impact of the connections of large-scale wind and solar generation in the brazilian interconnected..
Djalma M. Falcão e Glauco N. Taranto (orgs.)
1 Introduction
2 Assumptions, Tools, and Data Used in the Studies
3 Chosen Scenarios
3.1. Medium-Term Horizon: PAR/PEL 2024
3.2. Long-Term Horizon: PDE 2029
4 Steady State and Electromechanical Dynamic Studies
4.1. Study Overview
4.2. Investigation of the Behavior of HVDC Systems Embedded in the AC Transmission Systems
4.3. Fault-Induced Delayed Voltage Recovery (FIDVR)
5 Electromagnetic Simulation Studies
5.1. Methodology Description
6 Methodology for Probabilistic Steady State and Electromechanical Dynamic Assessment
6.1. Probabilistic Assessment Conceptual Framework
6.2. BIPS Probabilistic Assessment
6.3. Research of Probabilistic Models of Wind Generation in the Northeast Region
6.4. Probabilistic Models of Load Profile in the Northeast Region
6.5. Monte Carlo Simulation Software
6.6. BIPS Study
7 Diagnostics, Alternatives, and Recommendations
7.1. Frequency Control in High Wind Generation Scenarios
7.2. Fault-Induced Delayed Voltage Recovery (FIDVR)
7.3. Suggestion of an angular difference control between the HVDC link converter buses
7.4. Computational Tools and Models
7.5. Application of WPP equivalent methodology for wind impact assessment for EMT simulation
7.6. Probabilistic Assessment
8 General Conclusions
9 References
About the authors