Difference between revisions of "P200D"

From EPRI GO&P Resource Center
Line 1: Line 1:
Distribution Protection
+
== Distribution Protection ==
  
 
The optimal performance of protection relays is critical to the safe, reliable and stable operation of modern power systems. When a disturbance occurs on a power system the protection systems should act in concert to quickly isolate the faulted equipment, while minimizing customer outages and impact on power quality.  
 
The optimal performance of protection relays is critical to the safe, reliable and stable operation of modern power systems. When a disturbance occurs on a power system the protection systems should act in concert to quickly isolate the faulted equipment, while minimizing customer outages and impact on power quality.  
 +
 
The key research question of this work is to establish practical solutions for how protection systems can be assessed, designed, and implemented for solving modern grid challenges. These challenges include developing resilient protection systems considering integration of distributed energy resources, unintentional islanding of DER, improving protection sensitivity, and designing protection with variable short circuit levels and changing system topologies.  
 
The key research question of this work is to establish practical solutions for how protection systems can be assessed, designed, and implemented for solving modern grid challenges. These challenges include developing resilient protection systems considering integration of distributed energy resources, unintentional islanding of DER, improving protection sensitivity, and designing protection with variable short circuit levels and changing system topologies.  
  
 
The ultimate goals of this multi-year R&D project are the following:  
 
The ultimate goals of this multi-year R&D project are the following:  
1. Improve Grid Reliability Through Reduced Protection Misoperation
+
# Improve Grid Reliability Through Reduced Protection Misoperation
2. Secure and Reliable Protection of Grids with DER  
+
# Secure and Reliable Protection of Grids with DER  
3. Appropriate Application of Technologies for Improving Protection Performance
+
# Appropriate Application of Technologies for Improving Protection Performance
4. Technology Transfer of Protection Research Results to Utility Engineers
+
# Technology Transfer of Protection Research Results to Utility Engineers
  
 
Each year there are many project webcasts presenting research results, topical discussions, and cases study results.
 
Each year there are many project webcasts presenting research results, topical discussions, and cases study results.
Link to [[Webcast Calendar and Recordings]]
 
  
Latest Deliverables:
+
Link to [[P200D Webcast Calendar and Recordings]]
[[Modeling of DER for Protection Studies]]
+
 
 +
 
 +
== Latest Deliverables: ==
 +
[[P200D Modeling of DER for Protection Studies]]
  
[[Impacts of DER on Protection and Mitigation Solutions]]
+
[[P200D Impacts of DER on Protection and Mitigation Solutions]]
  
[[Microgrid Protection]]
+
[[P200D Microgrid Protection]]
  
[[Adaptive Protection]]
+
[[P200D Adaptive Protection]]

Revision as of 05:33, 25 June 2020

Distribution Protection

The optimal performance of protection relays is critical to the safe, reliable and stable operation of modern power systems. When a disturbance occurs on a power system the protection systems should act in concert to quickly isolate the faulted equipment, while minimizing customer outages and impact on power quality.

The key research question of this work is to establish practical solutions for how protection systems can be assessed, designed, and implemented for solving modern grid challenges. These challenges include developing resilient protection systems considering integration of distributed energy resources, unintentional islanding of DER, improving protection sensitivity, and designing protection with variable short circuit levels and changing system topologies.

The ultimate goals of this multi-year R&D project are the following:

  1. Improve Grid Reliability Through Reduced Protection Misoperation
  2. Secure and Reliable Protection of Grids with DER
  3. Appropriate Application of Technologies for Improving Protection Performance
  4. Technology Transfer of Protection Research Results to Utility Engineers

Each year there are many project webcasts presenting research results, topical discussions, and cases study results.

Link to P200D Webcast Calendar and Recordings


Latest Deliverables:

P200D Modeling of DER for Protection Studies

P200D Impacts of DER on Protection and Mitigation Solutions

P200D Microgrid Protection

P200D Adaptive Protection