Study on Utilizing High-Set Load Shedding Schemes to Replace Responsive Reserve Obligation

1. Study Scope Review Utilizing High-set Load Shedding Schemes (UHSLSS) to Replace Responsive Reserve Obligation Juan S. Santos (512) 248-3139 • jsantos@ercot.com Senior Consultant, System Planning Technical Operations

2. Topics From the Study Scope • Objective of study • Method Of Analysis • Study Approach by tasks • Report and Criteria for acceptance • Estimated Cost and Timeline

3. Objective of Study • The current ERCOT rule allows for 25% of the ERCOT 2300 MW Responsive Reserve • Obligation stability classification, or 575 MW, of interruptible load tripped at 59.6 Hz to be substituted for responsive reserve. • The objective of this study is to investigate how much of this limit can be increased without significant negative impacts on the ERCOT system.

4. Method Of Analysis • This study will compare the effects of replacing increasing amounts of responsive spinning reserve with hi-set interruptible loads set to trip by automatic relays with a time delay of not more than 20 cycles. • Study will monitor, frequency, bus voltage, rotor angles, speed, • megawatts, mega-vars, terminal voltage, and exciter field voltage. • Study will also scan for any out of step conditions. • A solved load-flow case will be saved and examined for abnormal • network conditions at the end of the dynamic simulation period.

5. Task 1 – Assembly And Sanity Check Of Data • Data of the base models will be provided by TSP’s • 2002 spring and summer cases • Data in PTI PSS/E format will be assembled by ERCOT staff – flat start • Data collection and sanity checking • Powerflow • Dynamic initialization • Any data questions or problems identified will be brought to the attention of DWG members and resolved with recommended modifications approved by DWG • Data does not include boiler models (simulations limited to 15 sec) • Loads to used as is without scaling them to match the actual ERCOT loads on any given day.

6. Task 2 – Development Of Scenarios And Criteria • Four scenarios will be assembled representing increasing levels of HSLSS High Set Load Shedding Schemes • Base Case – 100% of spinning reserves as “real” generation. • Case 2 – Use High-Set Load Shedding Schemes (HSLSS) to replace 50% of the Spinning Reserve. • Case 3 – Use High-Set Load Shedding Schemes (HSLSS) to replace 75% of Spinning Reserve. • Case 4 – Use High-Set Load Shedding Schemes (HSLSS) to replace 100% of the Spinning Reserve.

7. Task 3 – Add/Modify High Set Load Relays • Placement of Replacement Reserve Service (RRS) will be set at several different levels: • 1. Trip level to be set at 59.7 Hz for 20 cycles. • 2. Trip level to be set at 59.8 Hz for 20 cycles. • 3. Trip level to be set at 59.9 Hz for 20 cycles. • Load RRS to be selected using a non-bias approach based on size and location.

8. Task 4 – Run Full Analysis for Each Scenarios

9. Report and Criteria • Working Group members will write report and recommendations • If any scenario studied fails to meet all of the following criteria, • it will be considered unacceptable. • 1. No abnormal system conditions leading to cascading outages and system collapse. • 2. No firm load will be shed. To ensure this the minimum allowable frequency in the study will be shed for that stage. 3. Maximum frequency deviation based on ANSI/IEEE Standard C37.106-1987, Guide for Abnormal Frequency Protection for Power Generating Plants.

10. Estimated Cost and Timeline • This study will require each working group member’s time. Time = Money • Will require the formation of working group members who will have to commit a large amount of time. • 4 people 12 days or 384 man – hours • Work group will meet (min.) four times for three days • Report writing will require an additional 160 man-hours