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Single Phase Compressor Point-on-Wave Response Including tests done at BPA Bernie Lesieutre (UW-Madison, LBNL) Dmitry Kosterev Steve YangErik Lane (BPA)

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Presentation on theme: "Single Phase Compressor Point-on-Wave Response Including tests done at BPA Bernie Lesieutre (UW-Madison, LBNL) Dmitry Kosterev Steve YangErik Lane (BPA)"— Presentation transcript:

1 Single Phase Compressor Point-on-Wave Response Including tests done at BPA Bernie Lesieutre (UW-Madison, LBNL) Dmitry Kosterev Steve YangErik Lane (BPA) 1 WECC Load Modeling Task Force, June 17, 2015, Salt Lake City Lesieutre acknowledges support from CERTS and PSERC

2 Single Phase Compressor Simulation Model 2 T mech T ave 0 0.250.50.75 1.0 mechanical revolution Reciprocating Compressor Mechanical Load

3 Current Research: Point-on-Wave Effects 3 Simulations of Single-Phase Compressor Motor Applied voltage. The disturbance occurs at different points along the sinusoid: peak, zero crossing, in between. Instantaneous drop to 62% nominal for 3 cycles. Speed for the different applied voltages. Worst case: zero crossing disturbance.

4 Current Research: Point-on-Wave Effects 4 Stall Voltage vs fault duration, and point-on-wave variation.

5 Current Research: Point-on-Wave Effects Ramp Voltage Instead: 5 Point-on-wave effect is greatly reduced for even a very short ramp. Performance Model Characteristic for reference

6 Current Research: Point-on-Wave Effects These results suggest a reason why FIDVR events don’t cascade. Locally, A/C motors stall in response to event. 6 Point-on-wave effect is greatly reduced for even a very short ramp. Performance Model Characteristic for reference Further away, the filtered voltage exceeds threshold.

7 Laboratory Tests Air Conditioner Tests at BPA Facility Test Point-on-Wave Response, with and without ramp. Scroll Compressor 7 Voltage dip to 48, 45, 40, 35 and 30% nominal Recovery voltage at 90% nominal. Find fault duration to result in a change in operating characteristic (not stall)

8 Fault Regions, Instantaneous Voltage Dip 8 Zero Crossing 45° Peak

9 Fault Region: 1 Cycle Ramp in Voltage Dip 9 Peak Zero Crossing45°

10 Key Point A slight ramp in the voltage disturbance characteristic greatly decreases the propensity to stall or abnormal operation. This may be a contributing factor to why FIDVR events appear to be localized. 10

11 Scroll Compressor: Three Operating States 11 1.Normal 2.Stall (Rotor stopped) 3.Single Winding Equivalent Mode?

12 Scroll Compressor: Three Operating States 12 1.Normal 2.Stall (Rotor stopped) 3.Single Winding Equivalent Mode? NormalAbnormal Vmain242.6 / 0 °242.2 / 0 ° Vaux381.0 / 87.1 °328.3 / -103.9 ° Imain13.7 / -47.3 °29.6 / -24.4 ° Iaux 7.9 / 30.0 ° 8.3 / 134.3 ° Itotal19.1 / -21.1 °23.7 / -17.5 °

13 Scroll Compressor: Abnormal Operation 13 3.8 KW 2.2 KW 1.6 KW 5.1 KW 6.5 KW 1.4 KW Normal Power FlowAbnormal Power Flow Inefficient circulating power flow? 25% higher total energy use.

14 Active Power after a Fault 14

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