pmu data analytics for power distributionhamed/ucr-hamed.pdf · hamedmohsenian-rad nonintrusive...
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![Page 1: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/1.jpg)
PMU Data Analytics for Power DistributionFirst S
essio
n Hamed Mohsenian-Rad, University of California, RiversideNonintrusive Load Modeling Using Micro-PMUs
Asja Derviskadic, Swiss Federal Institute of Tech of LausanneSynchronized Sensing for Wide-Area Situational Awareness of Power Distribution Networks
Second
Sessio
n Wei Zhou, Huazhong University of Science and TechnologyDPMU for Harmonic State Estimation
Moosa Moghimi Haji, University of AlbertaEstimating Distribution System Parameters using DPMU and Smart Meter Data
![Page 2: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/2.jpg)
Nonintrusive Load Modeling Using Micro‐PMUs
Hamed Mohsenian‐Rad
Associate Professor, Electrical Engineering, University of California, RiversideAssociate Director, Winston Chung Global Energy Center
Director, UC‐National Lab Center for Power Distribution Cyber Security
Smart Grid Comm 2019, Beijing, China
Acknowledgements: A. Shahsavari, M. Farajollahi, E. Stewart, E. Cortez, A. von‐Meier, L. Alvarez, C. Roberts, F. Megala, Z. Taylor
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Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside 1 / 18
Background: Events in Micro-PMU Data Streams
Sensor
Phase A
120 fps
Micro‐PMU
(Riverside, CA)
Event Signature
Current (𝐼)Voltage (𝑉)
Active Power (𝑃)Reactive Power (𝑄)
12 kV
120 Million Data Points Per Day
![Page 4: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/4.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Background: Events in Micro-PMU Data Streams
Sensor
Phase A
120 fps
1 / 18
Micro‐PMU
(Riverside, CA)
Event Signature
Current (𝐼)Voltage (𝑉)
Active Power (𝑃)Reactive Power (𝑄)
12 kV
120 Million Data Points Per Day
![Page 5: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/5.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Background: Events in Micro-PMU Data Streams
Sensor
120 fps
1 / 18
Micro‐PMU
(Riverside, CA)
Event Signature
Current (𝐼)Voltage (𝑉)
Active Power (𝑃)Reactive Power (𝑄)
12 kV
120 Million Data Points Per Day
![Page 6: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/6.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Background: Events in Micro-PMU Data Streams
Sensor
120 fps
Event Signature
Current (𝐼)Voltage (𝑉)
Active Power (𝑃)Reactive Power (𝑄)
1 / 18
Micro‐PMU
(Riverside, CA)
12 kV
![Page 7: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/7.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Background: Events in Micro-PMU Data Streams
Sensor
120 fps
Event Signature
Current (𝐼)Voltage (𝑉)
Active Power (𝑃)Reactive Power (𝑄)
1 / 18
Micro‐PMU
(Riverside, CA)
12 kV
![Page 8: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/8.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Background: Events in Micro-PMU Data Streams
Sensor
120 fps
Event Signature
Current (𝐼)Voltage (𝑉)
Active Power (𝑃)Reactive Power (𝑄)
1 / 18
Micro‐PMU
(Riverside, CA)
Switching
12 kV
![Page 9: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/9.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Background: Events in Micro-PMU Data Streams
Sensor
120 fps
1 / 18
On Average: 500 Events Per Day Per Feeder
Micro‐PMU
(Riverside, CA)
12 kV
Switching
![Page 10: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/10.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Background: Events in Micro-PMU Data Streams
Sensor
120 fps
1 / 18
On Average: 500 Events Per Day Per Feeder
Micro‐PMU
(Riverside, CA)
Data Stream
12 kV
Switching
![Page 11: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/11.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
2 / 18
1. Event Detection and Event Classification (Machine Learning):
Window
Switching Events
[1] A. Shahsavari, M. Farajollahi, E. Stewart, E. Cortez, H. Mohsenian‐Rad, "Situational Awareness in Distribution Grid Using Micro‐PMU Data: A Machine Learning Approach," IEEE Trans. on Smart Grid, Nov 2019.
![Page 12: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/12.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
2 / 18
1. Event Detection and Event Classification (Machine Learning):
[1] A. Shahsavari, M. Farajollahi, E. Stewart, E. Cortez, H. Mohsenian‐Rad, "Situational Awareness in Distribution Grid Using Micro‐PMU Data: A Machine Learning Approach," IEEE Trans. on Smart Grid, Nov 2019.
Upstream Event (Sub‐transmission or Transmission)
![Page 13: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/13.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
2 / 18
1. Event Detection and Event Classification (Machine Learning):
[1] A. Shahsavari, M. Farajollahi, E. Stewart, E. Cortez, H. Mohsenian‐Rad, "Situational Awareness in Distribution Grid Using Micro‐PMU Data: A Machine Learning Approach," IEEE Trans. on Smart Grid, Nov 2019.
Switching Event (Distribution)
![Page 14: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/14.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
2 / 18
1. Event Detection and Event Classification (Machine Learning):
[1] A. Shahsavari, M. Farajollahi, E. Stewart, E. Cortez, H. Mohsenian‐Rad, "Situational Awareness in Distribution Grid Using Micro‐PMU Data: A Machine Learning Approach," IEEE Trans. on Smart Grid, Nov 2019.
Switching Event (Distribution)
![Page 15: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/15.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
3 / 18
2. Event Location Identification (Hybrid Model‐Based):
[2] M. Farajollahi, A. Shahsavari, E. Stewart, H. Mohsenian‐Rad, "Locating the Source of Events in Power Distribution Systems Using Micro‐PMU Data," IEEE Trans. on Power Systems vol. 33, no. 6, Nov. 2018.
𝐼∠𝐼
𝑉∠𝑉
𝐼∠𝐼
𝑉∠𝑉
![Page 16: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/16.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
3 / 18
2. Event Location Identification (Hybrid Model‐Based):
[2] M. Farajollahi, A. Shahsavari, E. Stewart, H. Mohsenian‐Rad, "Locating the Source of Events in Power Distribution Systems Using Micro‐PMU Data," IEEE Trans. on Power Systems vol. 33, no. 6, Nov. 2018.
𝐼∠𝐼
𝑉∠𝑉
𝐼∠𝐼
𝑉∠𝑉
∆𝐼 ∠∆𝐼
Pre
Post
∆𝑉 ∠∆𝑉
Pre
Post
∆𝐼 ∠∆𝐼
Pre
Post
∆𝑉 ∠∆𝑉
Pre
Post
![Page 17: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/17.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
3 / 18
2. Event Location Identification (Hybrid Model‐Based):
[2] M. Farajollahi, A. Shahsavari, E. Stewart, H. Mohsenian‐Rad, "Locating the Source of Events in Power Distribution Systems Using Micro‐PMU Data," IEEE Trans. on Power Systems vol. 33, no. 6, Nov. 2018.
𝑘: Event Bus (Unknown)
Second Micro‐PMU
?
∆𝐼 ∠∆𝐼
Pre
Post
DifferentialSynchrophasors
![Page 18: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/18.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
3 / 18
2. Event Location Identification (Hybrid Model‐Based):
[2] M. Farajollahi, A. Shahsavari, E. Stewart, H. Mohsenian‐Rad, "Locating the Source of Events in Power Distribution Systems Using Micro‐PMU Data," IEEE Trans. on Power Systems vol. 33, no. 6, Nov. 2018.
𝑘: Event Bus (Unknown)Forward Backward
𝑘 argmin ∆𝑉 ∆𝑉𝑖
Discrepa
ncy
Inde
x
![Page 19: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/19.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Previous Results
3 / 18
2. Event Location Identification (Hybrid Model‐Based):
[2] M. Farajollahi, A. Shahsavari, E. Stewart, H. Mohsenian‐Rad, "Locating the Source of Events in Power Distribution Systems Using Micro‐PMU Data," IEEE Trans. on Power Systems vol. 33, no. 6, Nov. 2018.
𝑘: Event Bus (Unknown)Forward Backward
𝑘 argmin ∆𝑉 ∆𝑉𝑖
Discrepa
ncy
Inde
x
![Page 20: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/20.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Observations
4 / 18
• We used only two micro-PMUs
• We can remotely and automatically monitor all load switching events
• Therefore, we can keep track of switching configurations.
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
1: Open 0: Closed
1 0 0 1
![Page 21: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/21.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Observations
4 / 18
• We used only two micro-PMUs
• We can remotely and automatically monitor all load switching events
• Therefore, we can keep track of switching configurations.
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
1: Open 0: Closed
1 1 0 1
![Page 22: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/22.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Observations
4 / 18
• We used only two micro-PMUs
• We can remotely and automatically monitor all load switching events
• Therefore, we can keep track of switching configurations.
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
1: Open 0: Closed
1 1 0 0
![Page 23: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/23.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Observations
4 / 18
• We used only two micro-PMUs
• We can remotely and automatically monitor all load switching events
• Therefore, we can keep track of switching configurations.
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
1: Open 0: Closed
1 1 1 0
![Page 24: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/24.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Observations
4 / 18
• We used only two micro-PMUs
• We can remotely and automatically monitor all load switching events
• Therefore, we can keep track of switching configurations.
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
1: Open 0: Closed
0 1 1 0
![Page 25: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/25.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Observations
4 / 18
• We used only two micro-PMUs
• We can remotely and automatically monitor all load switching events
• Therefore, we can keep track of switching configurations.
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
Q: What can we do with this?
1: Open 0: Closed
0 1 1 0
![Page 26: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/26.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Observations
4 / 18
• We used only two micro-PMUs
• We can remotely and automatically monitor all load switching events
• Therefore, we can keep track of switching configurations.
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
Q: What can we do with this?
A: Nonintrusive Load Modeling
1: Open 0: Closed
0 1 1 0
![Page 27: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/27.jpg)
• Feeder Aggregated Load Model:
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Nonintrusive Load Modeling
5 / 18
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
𝑃 𝑃𝑉𝑉
𝑄 𝑄𝑉𝑉
A Variation of the “ZIP Model”.
SwitchingConfiguration
Number
Constant Impedance Constant Power
Constant Current
![Page 28: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/28.jpg)
• Individual Load Models:
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Nonintrusive Load Modeling
6 / 18
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
𝑃 𝑃𝑉𝑉
,
𝑄 𝑄𝑉𝑉
,𝑖 1, 2, … , 𝑛
𝑃 𝑃𝑉𝑉
𝑄 𝑄𝑉𝑉
SwitchingConfiguration
Number
Switching Event
![Page 29: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/29.jpg)
• Individual Load Models:
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Nonintrusive Load Modeling
6 / 18
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
𝑃 𝑃𝑉𝑉
,
𝑄 𝑄𝑉𝑉
,𝑖 1, 2, … , 𝑛
𝑃 𝑃𝑉𝑉
𝑄 𝑄𝑉𝑉
SwitchingConfiguration
Number
Switching Event
![Page 30: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/30.jpg)
• Complex Power Conservation:
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Step 1: Circuit Model Equations
7 / 18
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
𝑆 𝑆 , 𝑆𝑊 𝑍𝑆 ,
𝑉 ,
∗
𝑆𝑊
Total Load Total Loss
Current in Line j
Parameter 𝑺𝑾𝒊𝒎𝒌 is one if the individual load 𝒊 is turned on
during switching configuration 𝒎𝒌; and zero otherwise
# of Equations = 1
SwitchingConfiguration
![Page 31: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/31.jpg)
• KVL:
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Step 1: Circuit Model Equations
8 / 18
SubstationZ1 Z2 Zn
SW1 SW2 SWn-1 SWn
S Sl,n
l,n-1Sl,
2Sl,1
V , P , Qm m mk k k
m
Pointer of Metering at Feeder Head
mk mk mk mk
𝑉 𝑉 𝑍𝑆 ,
𝑉 ,
∗
𝑆𝑊
Voltage at Substation
Voltage Drop at Line j # of Equations = n
![Page 32: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/32.jpg)
• Combined Equations:
• For any switching configuration 𝒎𝒌:
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Step 1: Circuit Model Equations
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𝑆 𝑆 , 𝑆𝑊 𝑍𝑆 ,
𝑉 ,
∗
𝑆𝑊
𝑉 𝑉 𝑍𝑆 ,
𝑉 ,
∗
𝑆𝑊 , 𝑖 1, ⋯ , 𝑛
𝑆 , 𝑉 𝑖 1, ⋯ , 𝑛Unknowns: 𝑆 , and 𝑉 for 𝑖 1, ⋯ , 𝑛
𝑛 1 𝑛 𝑆𝑊
Number of Equations: Number of Unknowns :
![Page 33: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/33.jpg)
• For any two distinct switching configurations 𝒎𝒌 and 𝒎𝒉:
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Step 2: Load Model Equations
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𝑆 , 𝑃 , 𝑉𝑉
𝑗 𝑄 , 𝑉𝑉
Necessary Condition: 𝑆𝑊 2
𝑛 𝑛 j 𝑛 𝑖 1, ⋯ , 𝑛Additional Unknowns:
𝑛 𝑛 +j 𝑛 for 𝑖 1, ⋯ , 𝑛
![Page 34: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/34.jpg)
• Given 𝒄 distinct switching configurations:
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Step 3: Solving the System of Equations
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𝑛 𝑐 𝑆𝑊 𝑛
𝑐 𝑛 1 𝑆𝑊 𝑛
# of Unknowns:
# of Equations:
Theorem: We need to observe at least 𝑐 2𝑛 distinct switching configurations to solve the nonintrusive individual load modeling problem.
![Page 35: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/35.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Illustrative Example
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Z1 Z2 Z4
S1 S2 S3 S4
mZ3
V1 V2 V3 V4
Sl4= 250+j30Sl
3= 500+j80Sl2= 100+j25= 200+j20Sl
1
1.5+j0.5 2+j0.75 1+j0.25 1.5+j0.5
Zsub
2.5+j1
Subs
tatio
n
= 1.6+j0.9ns1 = 0.8+j1.3ns2 = 0.2+j0.7ns3 = 1.4+j1.1ns4
V , P , Qm m mk k k
Pointer of Metering at Feeder Head
# of Equations
# of Unknowns
Circuit Model 40 52
Load Model 16 4
Combined 56 56
![Page 36: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/36.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Extension 1: Distribution Feeder with Laterals
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Z1 Z2 Z4
SW1SW3 SW4
MZ3
V1 V2 V3 V4
Sl4= 250+j30Sl
3= 500+j80
Sl5= 200+j30
= 200+j20Sl1
1.5+j0.5 2+j0.75 1+j0.25 1.5+j0.5
Zsub
2.5+j1
Subs
tatio
n
= 1.6+j0.9ns1
= 1.2+j0.9ns5
= 0.2+j0.7ns3 = 1.4+j1.1ns4
Z6
SW5 SW6
Z5V5 V6
1.5+j0.5
SW2
Sl2= 100+j25
= 0.8+j1.3ns2
Sl6= 100+j15
= 0.4+j0.3ns6
2.5+j0.75
Pointer of Metering at Feeder Head
V , P , Qm m mk k k
# of Equations
# of Unknowns
Circuit Model 84 120
Load Model 42 6
Combined 126 126
![Page 37: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/37.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Extension 2: Redundant Switching Configurations
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Z1 Z2 Z4
SW1SW3 SW4
MZ3
V1 V2 V3 V4
Sl4= 250+j30Sl
3= 500+j80
Sl5= 200+j30
= 200+j20Sl1
1.5+j0.5 2+j0.75 1+j0.25 1.5+j0.5
Zsub
2.5+j1
Subs
tatio
n
= 1.6+j0.9ns1
= 1.2+j0.9ns5
= 0.2+j0.7ns3 = 1.4+j1.1ns4
Z6
SW5 SW6
Z5V5 V6
1.5+j0.5
SW2
Sl2= 100+j25
= 0.8+j1.3ns2
Sl6= 100+j15
= 0.4+j0.3ns6
2.5+j0.75
Pointer of Metering at Feeder Head
V , P , Qm m mk k k
• # of Equations: 258 • # of unknowns: 246
In Presence of Error in Measurements
• We solve an “estimation” problem.
Error in Line Impedances
![Page 38: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/38.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Extension 3: Identifying Erroneous Switching Status
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Z1 Z2 Z4
SW1SW3 SW4
MZ3
V1 V2 V3 V4
Sl4= 250+j30Sl
3= 500+j80
Sl5= 200+j30
= 200+j20Sl1
1.5+j0.5 2+j0.75 1+j0.25 1.5+j0.5
Zsub
2.5+j1
Subs
tatio
n
= 1.6+j0.9ns1
= 1.2+j0.9ns5
= 0.2+j0.7ns3 = 1.4+j1.1ns4
Z6
SW5 SW6
Z5V5 V6
1.5+j0.5
SW2
Sl2= 100+j25
= 0.8+j1.3ns2
Sl6= 100+j15
= 0.4+j0.3ns6
2.5+j0.75
Pointer of Metering at Feeder Head
V , P , Qm m mk k k
• Residual Test (In Presence of Two Erroneous Configurations):
![Page 39: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/39.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Conclusions
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• Install a few micro-PMUs at feeder head and end buses.
• Remotely and automatically Identify:
• ZIP Model for all individual loads across the distribution feeder.
• AMI / Smart Meters:
• Not Available: Our Approach is a Replacement
• Available: Our Approach is an Oversight
• AMI Failure• Electricity Theft• Cybersecurity• …
Non‐Intrusive
![Page 40: PMU Data Analytics for Power Distributionhamed/UCR-Hamed.pdf · HamedMohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside Previous Results 2/ 18 1.Event Detection](https://reader034.vdocuments.us/reader034/viewer/2022050413/5f89f28b5489be77ed7c7bdb/html5/thumbnails/40.jpg)
Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Further Reading
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IEEE T. on Power Systems 2018 IEEE T. on Smart Grid 2019
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Hamed Mohsenian-Rad Nonintrusive Load Modeling Using Micro-PMUs UC Riverside
Further Reading (Cont.)
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IEEE PES Magazine 2018IEEE T. on Power Systems 2019