GOLDEN VALLEY ELECTRIC ASSOCIATION VALLEY ELECTRIC ASSOCIATION Eva Creek Wind Farm-Limited Study...
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October 13, 2008 GOLDEN VALLEY ELECTRIC ASSOCIATION Eva Creek Wind Farm-Limited Study Doubly Fed Asynchronous Generators Power Flow, Reactive Compensation, Transient Stability Revision 0 PROJECT NUMBER: 115215 PROJECT CONTACT: MIKE WALBERT, P.E. EMAIL: [email protected] PHONE: 208-788-0357 PROJECT CONTACT: KEITH STUMP, MSEE EMAIL: [email protected] PHONE: 678-966-4435 PROJECT CONTACT: ALICE MULLINS, P.E. EMAIL: [email protected] PHONE: 208-685 6364
Transcript of GOLDEN VALLEY ELECTRIC ASSOCIATION VALLEY ELECTRIC ASSOCIATION Eva Creek Wind Farm-Limited Study...
October 13, 2008
GOLDEN VALLEY ELECTRIC ASSOCIATION
Eva Creek Wind Farm-Limited Study Doubly Fed Asynchronous Generators
Power Flow, Reactive Compensation, Transient Stability
Revision 0 PROJECT NUMBER: 115215
PROJECT CONTACT: MIKE WALBERT, P.E. EMAIL: [email protected] PHONE: 208-788-0357
PROJECT CONTACT: KEITH STUMP, MSEE EMAIL: [email protected] PHONE: 678-966-4435
PROJECT CONTACT: ALICE MULLINS, P.E. EMAIL: [email protected] PHONE: 208-685 6364
ATL 029-762 (SR-06) GVEA (10/13/08) ks 115215 Rev. 0 i
Eva Creek Wind Farm-Limited Study
Prepared by POWER Engineers, Inc. for
Golden Valley Electric Association
POWER Engineers, Inc. Project No. 115215
For additional information contact: Keith Stump (678) 966-4435 [email protected] Alice Mullins (208) 685-6364 [email protected] Mike Walbert (208) 788-0357 [email protected]
Rev. Issue Date
Issued For
Prep By
Chkd By
Appvl By Notes
A 10/08/08 Appvl KBS AMM Issued for approval 0 10/13/08 Impl KBS AMM SP POWER approved sent to GVEA
“Issued For” Definitions: - “Prelim” means this document is issued for preliminary review, not for implementation - “Appvl” means this document is issued for review and approval, not for implementation - “Impl” means this document is issued for implementation - “Record” means this document is issued after project completion for project files Use Alpha (A, B, . .) Rev. identifiers for “Prelim” or “Appvl” issues. Otherwise use numeric (0, 1, . . .)
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TABLE OF CONTENTS 1.0 Introduction ..................................................................................................................................1 2.0 Power Flow Cases ........................................................................................................................2 3.0 Dynamic Simulation Results........................................................................................................3 4.0 Conclusion ...................................................................................................................................9
TABLES Table 1- Winter Peak- C System Load Power Flow Summary ........................................................2 Table 2- Dynamic Case Summary ....................................................................................................7 Table 3- LVRT II Set Points ............................................................................................................9 FIGURE Figure 1- LF Case 4b- Douglas ........................................................................................................6 APPENDIX .....................................................................................................................................11
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Golden Valley Electric Association
Eva Creek Wind Farm – Limited Study Doubly Fed Asynchronous Generators (DFAG) (POWER Engineers, Inc. Project No. 115215)
1.0 Introduction The object of this analysis is to determine the effect of installing a 24 MW wind farm consisting of sixteen GE 1.5 MW doubly-fed asynchronous generators. Steady state power flow and dynamic analysis of the GVEA system is performed using the Siemens PSS/E system analysis package. The PSS/E software package contains user written models for the wind turbine generators (WTG) that are used in this analysis. The effect of the Eva Creek wind farm is evaluated for transmission system responses to faults near the Wilson substation that are cleared from the system in five (5) cycles. The present system (without the Eva Creek wind farm) response is evaluated by opening the Healy to Wilson 138 kV line. When the wind farm is added, the fault is cleared from the system by opening the Eva Creek to Wilson section of the line. A 138 kV switching station will be required at the Eva Creek point of common coupling (PCC) when the wind farm is installed. Prior to dynamic system simulations, steady state conditions are required from which the dynamic simulations begin. These steady state conditions are developed from projected system load conditions using the load flow calculation feature of PSS/E. Base case power flow conditions for this work are based on a projected winter peak system loading condition. For these base cases, power from the south toward the GVEA system is kept constant with 70 MW flowing north from the Douglas substation. Table 1 summarizes the power flow conditions. LFcases 1 through 5 embedded in the appendix file LFresults.zip show the power flow results on a single line diagram of the GVEA system.
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2.0 Power Flow Cases
Table 1 Winter Peak –C System Load Power Flow Summary
70 MW flowing north from the Douglas Substation
LFcase
Eva Crk. Healy North Pole Zehnder Wilson
Wind Farm
HLP S1
HCCP S2
NPP #1
NPP #2
NPCC GTG
NPCC STG GT1
Shunt Cap
Bank
Battery Energy Storage System
MW MW MW MW MW MW MW MW MVAR MW 1MVAR
1 0 28 0 0 52.1 50 12 0 0 0 8.1 2 23.95 28 0 0 29.4 50 12 0 0 0 12.9 3 0 28 58.5 0 0 50 12 4.1 0 0 23.3 4 0 28 58.5 0 0 50 12 4.1 15 0 8.1 5 23.95 28 58.5 0 0 37 7.3 0 15 0 16.1
1 Positive means that BESS is supplying capacitive MVARs Case 1 is representative of the way that the present transmission system would be operated with the winter peak loading. Stability runs from this initial condition are used to evaluate present system stability without the Healy Clean Coal Plant (HCCP) and the Eva Creek wind farm. Case 2 is similar to Case 1 except that the Eva Creek wind farm is added and the output power of the North Pole Plant (NPP) generator #2 is reduced to compensate for the addition of the wind farm. The power flowing north from the Douglas substation is kept at 70 MW. Stability runs from this condition are compared to dynamic cases based on Case 1 to evaluate the effect of the wind farm without the HCCP. Case 3 is a no Eva Creek wind farm case similar to Case 1 except that HCCP is activated and operated at 58.5 MW, North Pole Plant #2 (NPP #2) is off line and Zehnder #1 is operated at 4.1 MW to keep the power flow from Douglas at 70 MW. This condition is not acceptable because the Wilson Battery Energy Storage System (BESS) is operating very close to its limit and would not be available for dynamic VAR support during a system transient. This case is not used as a base for dynamic simulations. Case 4 is similar to Case 3 except that a 15 MVAR capacitor bank is added to the 138 kV Wilson substation bus. This brings the BESS away from its limit to an output of 8.1 MVAR. In this case, the BESS has some dynamic range available to help the system dynamic response. Load flow results from Case 4 are shown on Figure 1. This is the base case for no wind farm operation with the HCCP in service. It means that GVEA must install the Wilson 15 MVAR capacitor bank before the HCCP is used for this heavy load condition. The capacitor bank could probably be switched in 5 MVAR steps (or smaller) and controlled manually or with the BESS
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control. Independent voltage control is not appropriate for a capacitor bank at the Wilson substation. Case 5 is similar to Case 4 with the addition of the 15 MVAR Wilson substation capacitor bank and the Eva Creek wind farm in service. Zehnder generator #1 is not operated in this case and the output of the North Pole Combined Cycle (NPCC) power plant is reduced to 44.3 MW to keep the power flow from the Douglas substation north at 70 MW for this condition. This case is the initial condition for the preliminary transient analysis to determine the effect of the addition of the wind farm with the HCCP in service. Dynamic runs based upon the Case 1, 2, 4 and 5 power flow results provide a good first look at the effect of the proposed Eva Creek DFAG wind farm and its control. 3.0 Dynamic Simulation Results Table 2 summarizes the dynamic cases simulated for this analysis. The first group of cases (Cases 1 through 11) is run without the Eva Creek wind farm. These cases provide an indication of the present transmission system dynamics and a basis for judging the effects of an Eva Creek wind farm. Cases Dyn1w through Dyn11w are comparable cases with the Eva Creek wind farm on the system correspondingly numbered to the present system cases without the wind farm. The “w” after the first number in the case name indicates that the Eva Creek wind farm is active. The LF number at the end of the case name indicates the power flow case upon which the dynamic case is based. Not every dynamic case without the wind farm has a comparable wind farm case. Consequently, there is not a wind farm case number corresponding to every non-wind farm case. PSS/E output plots for the dynamic cases listed in Table 2 are included in the embedded *.zip files in the Appendix. One consideration for the Eva Creek wind farm addition (and present operation) is the capability of the Battery Energy Storage System (BESS) at the Wilson substation to supply real power. The amount of real power it can supply is a function of the charge and condition of the batteries. Hence, some variations in the BESS output capability are simulated for both cases with and without the Eva Creek wind farm. The effect of BESS real power is simulated by initializing its real power limit then increasing its real power set point to the limit value four (4) cycles after the fault is initiated. The dynamic BESS model simulates the internal BESS control and its actual real and reactive power output. 3.1 Dynamic cases without the Eva Creek wind farm Cases Dyn1LF1, Dyn4LF1 and Dyn5LF1 are fault-clear responses for faults near the Wilson substation on the Healy 138 kV line without the Eva Creek wind farm or the Healy Clean Coal Plant (HCCP). The three cases have the BESS real power varied from 0 to 20 MW to 40 MW after the fault is initiated. These cases are all stable and result in lightly damped 0.6 Hz north-south power oscillation through Healy with an increase from base case power flowing north from Healy toward Gold Hill.
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The other non wind farm cases all have the HCCP in service with an output of 58.5 MW. Operation of the HCCP puts the system closer to its stability limit and requires real power from the BESS to keep the system stable and synchronized. Case Dyn6LF4 simulates a solid 3-phase fault near the Wilson substation and no real power available from the BESS. Loss of the Healy-Wilson 138 kV line is so unstable that the simulation gets numerical errors and can not run to the end of the programmed 15 second simulation. Cases Dyn2LF4 and Dyn3LF4 are similar to the solid 3-phase fault case except fault impedance is added to reduce the severity of the disturbance. Case Dyn2LF4 has a 200 ohm fault resistance and is still unstable, but the simulation continues to the end of the programmed 15 second run. Case Dyn3LF4 is similar except it has a 400 ohm fault resistance. It is stable and results in 145 MW flowing north from Healy toward Gold Hill. These three cases have no real power available from the BESS to provide the power to the Fairbanks area lost from the Healy-Wilson 138 kV line outage. Cases Dyn7LF4 through Dyn11LF4 with the HCCP in service all simulate solid faults near the Wilson substation with various BESS real power limits. Case Dyn7LF11 simulates a BESS real power limit of 10 MW. The case pulls out of synchronism and is unstable, but the simulation continues to the end of the 15 second programmed run. When the BESS real capability is increased to 12 MW (Case Dyn8LF4) the system is stable and the real power flowing north from Healy toward Gold Hill increases to 134 MW. Further increases in BESS real power capability also result in stable fault-clear transients with reduced power in the line from Healy to Gold Hill. These cases indicate that a minimum of 12 MW is required from the BESS to maintain system stability when the Healy-Wilson 138 kV line is lost due to a fault on the line near the Wilson substation. 3.2 Dynamic cases with the Eva Creek wind farm The Eva Creek wind farm model was added to the system at Eva Creek using a 16 WTG equivalent with 1.5 MW GE DFAGs aggregated on a 34.5 kV collector bus; 24 MW total. The PCC for the Eva Creek wind farm is between the Healy and Wilson substations approximately 17.4 miles (138 kV line distance) north of the Healy substation. The wind model used for Eva Creek included GE’s optional LVRT II low voltage ride through (LVRT) package. The LVRT II under/over voltage set points used in the study are taken from GE publication ARE_E210 Rev. 2, and are listed in Table 3. Cases Dyn1wLF2, Dyn4wLF2 and Dyn5wLF2 are comparable to the corresponding non wind farm cases Dyn1LF2, Dyn4LF2 and Dyn5LF2. These cases are all stable and have BESS real power availabilities of 0 MW, 20 MW and 40 MW. For the wind farm cases, only the line between Eva Creek and Wilson is opened to clear the fault. Increasing BESS real power results in less post fault power required to flow north from Healy toward Gold Hill. These three wind farm cases have lower amplitude transients than the comparable non wind farm cases and slightly better damping for the 0.6 Hz north-south swing frequency.
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Cases Dyn9wLF5, Dyn10wLF5 and Dyn11wLF5 have the HCCP in service generating 58.5 MW along with the 24 MW Eva Creek wind farm. Operation with the HCCP is more onerous for the transmission system than when the GVEA generation is farther north (North Pole generating station). Without the HCCP, no real power is required from the BESS to maintain system stability for the Wilson fault (Case Dyn1wLF2). With the HCCP, 24 MW of BESS power is required to maintain stability. This is illustrated by cases Dyn9wLF5 where the system is unstable with the BESS set point raised to 20 MW and Case Dyn10wLF5 where the system is stable when the BESS set point is raised to 24 MW. Case Dyn11wLF5 has the BESS set point raised to 40 MW to get system operation farther away from the stability limit. This lowers the power flowing north from Healy toward Wilson and increases the system damping of the 0.6 Hz north-south oscillatory transient initiated by the fault-clear transient.
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Table 2 Dynamic Case Summary
(70 MW flowing north from Douglas in the base load flow cases. Clear fault by opening faulted line in 5 cycles.)
Dynamic Case
LF Base Case
Case Description
Simulation Results
Dyn1LF1 1b
No Eva Creek wind farm, No HCCP, NPP #1=0 MW, NPP
#2=52.1 MW, NPCC=62 MW, Solid fault near Wilson, Healy-
Wilson line opens.
BESS Pset=0 MW @ 4 cycles. System stable. Power north from Healy goes to 85MW. Compare to Case Dyn1wLF2.
Dyn2LF4 4b
No Eva Creek wind farm, HCCP=58.5 MW, NPP #1=0
MW, NPP #2=0 MW, NPCC=62 MW, Zehnder
#1=4.1MW. 200 Ω fault near Wilson, Healy-Wilson line
opens.
BESS Pset=0 MW @ 4 cycles. System unstable. Simulation shows pullout at approximately 2.8 seconds. Solution
continues to 15 seconds.
Dyn3LF4 4b
No Eva Creek wind farm, HCCP=58.5 MW, NPP #1=0
MW, NPP #2=0 MW, NPCC=62 MW, Zehnder
#1=4.1MW. 400 Ω fault near Wilson, Healy-Wilson line
opens.
BESS Pset=0 MW @ 4 cycles. System stable. Power north from Healy goes to
145MW
Dyn4LF1 1b Same as Case Dyn1LF1
BESS Pset=20 MW @ 4 cycles. System stable. Power north from Healy
goes to 72 MW. Compare to Case Dyn4wLF2.
Dyn5LF1 1b Same as Case Dyn1LF1
BESS Pset=40 MW @ 4 cycles. System stable. Power north from Healy
goes to 55MW. Compare to Case Dyn5wLF2.
Dyn6LF4 4b
No Eva Creek wind farm, HCCP=58.5 MW, NPP #1=0
MW, NPP #2=0 MW, NPCC=62 MW, Zehnder
#1=4.1MW. Solid fault near Wilson, Healy-Wilson line
opens.
BESS Pset=0 MW @ 4 cycles. System unstable. Simulation fails with message
”PSS/E – NT has just detected a floating point arithmetic error …”.
Dyn7LF4 4b Same as Case Dyn6LF4
BESS Pset=10 MW @ 4 cycles. System unstable. Simulation runs to
15 seconds. Compare to Case Dyn9wLF2.
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Table 2 Dynamic Case Summary (continued)
Dyn8LF4 4b Same as Case Dyn6LF4
BESS Pset=12 MW @ 4 cycles. System stable. Power north from Healy
goes to 134 MW. Compare to Case Dyn10wLF2.
Dyn9LF4 4b Same as Case Dyn6LF4
BESS Pset=20 MW @ 4 cycles. System stable. Power north from Healy
goes to 127 MW. Compare to Case Dyn9wLF2.
Dyn10LF4 4b Same as Case Dyn6LF4
BESS Pset=24 MW @ 4 cycles. System stable. Power north from Healy
goes to 123 MW. Compare to Case Dyn10wLF2.
Dyn11LF4 4b Same as Case Dyn6LF4
BESS Pset=40 MW @ 4 cycles. System stable. Power north from Healy
goes to 108 MW. Compare to Case Dyn11wLF2.
Dyn1wLF2 2b
Eva Creek wind farm=24 MW, No HCCP, NPP #1=0 MW,
NPP #2=29.4 MW, NPCC=62 MW, Solid fault near Wilson,
Healy-Wilson line opens.
BESS Pset=0 MW @ 4 cycles. System stable. Power north from Healy goes to 115 MW. Compare to Case Dyn1LF1.
Dyn4wLF2 2b Same as Case Dyn1wLF2
BESS Pset=20 MW @ 4 cycles. System stable. Power north from Healy
goes to 98 MW. Compare to Case Dyn4LF1.
Dyn5wLF2 2b Same as Case Dyn1wLF2
BESS Pset=40 MW @ 4 cycles. System stable. Power north from Healy
goes to 80 MW. Compare to Case Dyn5LF1.
Dyn9wLF5 5b
Eva Creek wind farm=24 MW, HCCP=58.5 MW, NPP #1=0
MW, NPP #2=0 MW, NPCC=44.3 MW. Solid fault
near Wilson, Healy-Wilson line opens.
BESS Pset=20 MW @ 4 cycles. System is unstable. Simulation shows pullout at approximately 2.2 seconds.
Solutions continue to 15 seconds. Pullout will also occur for all BESS powers below 20 MW. Compare to
Cases Dyn7LF4 and Dyn9LF4
Dyn10wLF5 5b Same as Case Dyn9wLF5
BESS Pset=24 MW @ 4 cycles. System stable. Power north from Healy
goes to 150 MW. Compare to Cases Dyn8LF4 and Dyn10LF4.
Dyn11wLF5 5b Same as Case Dyn9wLF5
BESS Pset=40 MW @ 4 cycles. System stable. Power north from Healy
goes to 132 MW. Compare to Case Dyn11LF4.
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Table 3
LVRT II Set Points
Voltage Range pu Trip Time sec.
0.0 – 0.15 0.02
0.15 – 0.7 0.625
0.7 – 0.75 1.0
0.75 – 0.85 10.0
0.85 – 0.9 600.0
1.10 – 1.15 1.0
1.15 – 1.3 0.1 4.0 Conclusion 1. System operation with the HCCP in service is more onerous than with generation closer to
Fairbanks (North Pole Power Plant). 2. When the HCCP is operated at high power output for heavy winter load conditions, 15
MVAR of additional capacitance is needed at the Wilson substation to keep the BESS away from its VAR limit with or without a wind farm at Eva Creek.
3. For the peak winter system loading considered, power flowing north from Douglas is limited
to 70 MW and without the HCCP in service, the 24 MW DFAG wind farm can be added to the GVEA system without requiring significant real power from the BESS. The DFAG Eva Creek wind farm has some system performance benefits for this operating condition. The system exhibits lower amplitude transients than the comparable non wind farm cases and slightly better damping for the 0.6 Hz north-south swing frequency.
4. For the peak winter system loading considered, power flowing north from Douglas is limited
to 70 MW, with the HCCP in service and the 24 MW DFAG wind farm added, 24 MW of real power is required from the BESS to maintain system stability for the Wilson fault considered. The comparable case, without the Eva Creek wind farm, required only 12 MW from the BESS to maintain system stability for the same fault condition.
5 Previous studies found the following system improvements necessary for operation of
HCCP: • 5 cycle relay protection of the Healy to Wilson 138 kV lines.
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• 5 cycle protection will likely also be needed for the Healy to Gold Hill 138 kV line. • 15 MVAR of additional capacitance at the Wilson substation. • A minimum of 12 MW of real power capability from the Wilson BESS.
6. The following additional system improvements are required for the Eva Creek wind farm
addition with HCCP also in operation: • A minimum of 24 MW of real power capability from the Wilson BESS. • A 138 kV switching station at the Eva Creek wind farm PCC. • Low or zero voltage ride through capability of the WTGs. Further study can identify
minimum level of LVRT capability.
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Appendix
Steady State Power Flow Results
LFresults.zip
LFresults.zip
Dynamic PSS/E output plots for non-wind farm cases Dyn1LF1 through Dyn11LF4
DynNoWind.zip
DynNoWind.zip
Dynamic PSS/E output plots for wind farm cases Dyn1wLF2 through Dyn11wLF5
DynYesWind.zip
DynYesWind.zip
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0.9750
0.956530.00
-31.
0-0
.531
.0
-0.6
R
2.6
335NPOLESUB
1.009-53.8
0.9750
0.956530.00
-10.
41.
810
.4-1
.6
0.9750
0.956530.00
-10.
41.
810
.4-1
.6
336NPOLEIND
1.009-53.8
3.5
-36.94.1 -4.8
341CARNEY
1.008-56.2
45.6
-45.36.1
-6.8
-3.5
37.0-7.2
33801ELSN PWR
1.028-87.7
1
16.0
1
2.5-0.4R
2
-0.4R
3
5.02.5H
4
2.1H
1.00
00 0.5-0.6
1.00
00 0.5-0.5-0.6
-0.50.61.
0000
1.00
00
0.62.5
5.0
5.0
3400JOHNSON
1.004-56.9
2.5-2.5-0.1
3410CARNEY
1.007-56.7
-0.7
4.20.5
34102CNS CAP2
0.956-26.7SW 0.
0
1.05
00
0.99
7630
.00-0.0
0.0
0.0
34100CARNEY T
1.007-86.8
1.00
001.
0000
-4.2* 4.20.5
* 0.0
1.00
00
-0.0
-0.0
41.1-6.7
-40.7
1.005-58.9
5.7
343TECKPOGO
0.992-60.2
12.80.7
-12.7
1.005-60.6
27.8-6.4
-27.74.7
-4.8
345PUMP9TAP
1.005-60.8
18.4-1.9
-18.31.4
34400JARVIS
1.002-94.5
R1 2.2
0.4
R2 0.4
-0.1
R3 0.6
0.9
R4 2.4 9.0-9.0
-3.1 1.02
50-3
0.00
1.00
00
344JARVIS
0.4
342POGO TAP
3.8
346PUMP 9
1.005-60.9
-16.90.4
347MDS
1.005-60.8
1.4-0.8
-1.40.8
-0.616.9
34000JOHNSON
1.039-88.2
R1 1.6
0.1
R2
-0.0 0.95
00
0.98
56-3
0.00 2.5-2.5
-0.1 0.10.8
34700MDS
1.022-91.3
1
1.4
1.01
25-3
0.00 1.4-1.4
0.8 1.00
00
-0.8-0.8
32601FTWW CAP
1.047-87.5
SW-17.8
-0.0 0.017.8-17.8
32600FTWW SUB
1.016-56.8
325WILSON
1.008-54.7
SS
0.3
B 0.0
15.6-4.3
-15.54.0
1.015-44.8
304GOLDHILL
1.003-55.1
-25.
9-1
0.7
25.99.9
32501BESS AUX
1.007-24.7
1.00
00
1.00
0030
.00 0.1
-0.1
-0.1
0.1
3201CHENA 1
1.006-57.5 4.
1
32000CHENA 2
1.000-55.5
5
1.0000
1.0125
5.3
-3.0
-4.1 4.2
-4.2 3.3
-5.3
1.004-57.7
9.5
0.8
-9.4
32001CHENA 1
1.000-55.5
B3
1.9
B5
4.7
1.5
B6
1.0000
1.0125
-5.3 3.3
5.3
-3.0
32002CHENA 3
1.000-55.5
-17.
71.
917
.7-1
.9
4.7
13.5
-13.
51.
8-1
.8
32003CHENA
1.005-52.8
SS
0.6
0.4
1
0.5H
2
3
1.0000
1.0000
4.3
0.1
4.9
-4.0
L20
.0
3220SSS TAP
1.015-57.2
-10.
34.
3
10.3
32300SFAIRBNK
1.039-89.5
R1
1.2
R2
0.5
R3
3.1
0.9
1.0000
1.0313-30.00
6.0
0.8
-6.0
-0.5
1.7
0.4
-0.9
3210S. SIDE
32100S.SIDE
1.034-91.1
B2 3.4
1.0
B3 2.8
0.8
B4 3.1
1.00
00
1.03
75-3
0.00 9.4
0.9-9.4-0.3
1.3
3190PEGER RD
1.015-57.3
-10.34.3
10.3
-4.3
3180INTRNATL
1.017-57.4
-3.24.7
3.2-4.8
31900PEGER RD
1.036-89.8
R23.9
1.2
R31.
0000
1.02
50-3
0.007.1
0.5-7.1
1.2-0.2 3.2
8.1R
0.0
3090UNIVTAP
1.018-57.45.
96.
2
-5.9-6.2
31800INTRNATL
R13.1
1.0
R23.8
R32.1
1.00
00
1.03
12-3
0.009.0
1.5-9.0
0.8
-0.9
1.034-91.2
0.9
3100UAF PWR
1.003-57.7
-1.1-4.2
1.14.2
31100UNIV AVE
1.051-89.4
R1
1.9
0.6
R2
0.2
R3
0.9
1.0000
2.10.3
-2.1
-0.3
1.0000
1.0562-30.00
2.3
-2.3
-0.4
2.3
31000UAF PWR
0.974-28.0
1
9.4
5.7
1
2
3
8.3
1.6R
1.0000
1.14.2
-1.1
-4.1
0.1
-4.3
-4.2
0.5
0.1
1.000030.00
1.0562-30.00
1.022-57.3
12.512.7
-12.
4-1
2.6
31200AURORA
1.038-90.0
R1
1.3
0.5
R2
0.1
R4
5.4
1.7
1.0000
1.0313-30.00
7.0
0.4
-7.0
-0.1
3040GOLDHILL
0.2 31302
ZNDER 2G
3070CHENATAP
1.020-57.4
5.9
6.2
-5.9
-6.2
11.67.4
-11.
5-7
.43080CHENAPMP
1.020-57.4
5.7
1.2
-5.7-1.2
30800CHENAPMP
1.037-89.1
R11.7
0.4
R43.9
1.1
1.00
00
1.02
50-3
0.005.7
-1.01.2-5.6
3060MUSKOX
1.019-57.66.3
0.6
-6.3
-0.8
30400GOLDHILL
1.027-58.5
R1 0.7
-0.2 1.00
00
1.00
00 0.7-0.2
-0.7
30401GLDHLSVS
1.034-87.6
S
-0.0-19.4R
SW0.0
0.0-35.3 0.9750
1.00001.0000
-20.5
31.3
* -0.215.9
6.1
0.2
* -31.1
30600MUSK OX
R1
3.4
R3
2.1
R4
0.7
1.0000
1.025030.00
6.3
0.8
-6.3
-0.5 1.037
-30.3
0.5
0.8
0.2
303ESTER
305FT. KNOX
0.997-57.0
31.3
-0.5
-31.2-1.8
302NENANA
1.009-50.5
40.3-6.1
-39.74.6
30300ESTER
1.034-86.1
R11.8
0.4
R31.1
0.2
2.8 -2.8
1.004-54.8
1.00
00
1.03
75-3
0.00
-0.6
30200NENANA
R11.0
0.2
R20.71.
00001.7
0.4-1.7
0.1-0.3
1.036-83.9
300CANTWELL
1.035-77.3
R1
2.8
-1.2
R2
3.1
0.9937-30.00
5.8
-5.8 0.6
30103HEALYSVS
1.011-14.8
S
0.0
0.0
1.0000
0.1
-0.1
-1.0
30110HCCP#2-G
1.044-14.8
2
0.5
-0.730120
HLP#1-G1.010-9.4
1
28.0
0.9750
0.956530.00
-0.8
25.3
3.2
1.000030.00
-25.
1
0.7
1.0000
1.029930.00
5.3R
1.0
-0.3
0.6
-22.
5
-23.
5R
-0.5
795STEVENS
0.993-26.7
-68.311.4
69.6-8.7
30000CANTWELL
1.040-70.6
R10.0
0.0
R30.6
-0.1
1.03
13-3
0.00 -0.6
0.1-0.1
790DOUGLAS
0.991-23.3
70.0
-69.6
7951STEVENS
1
1.
0000
1.00
00-3
0.00 -0.0
-0.0
0.993-56.7
0.7
1.04
38-3
0.00
0.9750
0.6
0.0
1.00
00
780TEELAND
1.003-18.5
77.7-3.8
-76.37.4
7901DOUGLAS
1.035-25.6
1
6.4
0.2
1.0000
1.0500
6.40.4
-6.4
-0.2
0.1 -4.2
1.00
00
1.3
-0.5
30501FKS #1
0.993-29.5
0.0-6.9 1.
0000
30.0
0-15.6
30502FKS #2
0.993-29.5
1.00
00
1.00
0030
.00 15.6
0.9-15.6-0.2
-0.2 0.91.00
00 15.6
GVEA 2007 WINTER PEAK FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 10:11
Diagram created usingR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\LFcase1b.savR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\gvea_2007Eva6.sld
GVEA1.015-46.6
1.015-46.6
0.0-0.2
-0.0
-0.0
1.015-16.6
1.000030.00
-0.0
-0.0
0.0
0.0
Bus - VOLTAGE (PU)/ANGLEBranch - MW/MVAREquipment - MW/MVARKV: <=34.500 <=69.000 <=138.000 >138.000
1.019-17.3
1.019-17.3
1.019-17.3
1.0000
1.019-17.3
1.019-17.3
358COLLECT5
355EVACRKWF
353COLLECT1
352EVACRKTX
1.014-46.7
-42.05.7
42.6
-6.8
-7.3
-42.
66.
8
30100HEALY
360EVATAP2
-7.90.00.0
8.7
0.00.00.0
1.008-40.0
301HEALY
0.0
0.0
0.0
0.0
0.0
0.00.0
1.008-54.6
-41.92.3
41.942.6-4.1
-41.92.3 -2.3
367FLTWILSON
1.015-44.8
-4.7
-42.
84.
7
-42.64.3
42.8
-4.7
0.0
-67.
211
.611
.742
.9
1.015-44.7
67.7-11.3
0.00.0
316FLTHEAL-DOUG
SS
3
-1.4
R
33601NPCC 1
0.985-77.7
4
-0.0
R12
.0
-12.
00.
0
-0.0
12.0 33602
NPCC 2
50.0
0.9565
-61.
862
.0-1
.48.
0
0.975030.00
0.985-77.7
20.8
-20.
8
67.2
-11.
6-6
7.2
42.8
366FLTHEAL-EVA
-5.3
5.1
5.1
36.8
-36.
8 1.003-55.1
306FLTGH-ES
-36.
8
0.0
350EVACRKTAP
0.0
1
356COLLECT3
357COLLECT4
354COLLECTOR
SVC
Eva Creek Wind Farm
kstump
Text Box
LFcase1b - Douglas = 70 MW, HCCP = 0 MW, Eva Creek Wind = 0 MW, NPP2 = 52.1 MW, NPCC = 62 MW
1.007-60.1
3110UNIV AVE
1.004-60.2
-5.4-5.0
5.4
5.01.010
-60.16.6
11.7
-6.6
-11.
7
3140STEESE
1.005-60.3
10.2
0.8
-10.
2-0
.9
3200CHENA 2
1.006-60.1
-1.2
1.2
-7.4
-13.
7-1
.4
1.4
1.037-92.4
R10.5
-0.3
R22.4
0.8
R30.0
0.0
R42.6
0.5
1.03
13-3
0.00
5.5 0.4
0.959-30.1
1
-0
.0
2
1.000030.00
-0.0
-0.01.006
-30.2
1
2
1.000030.00
0.2
-0.2
1.0000
1.000030.00
0.0
-0.2
31300ZEHNDER
-5.4
1.00
00
13.7
3240HAMILTON
1.008-60.0
3120AURORA
-0
.0
-0.0
-0.0
3130ZEHNDER 0.
00.
2
1.0000
0.0
7.4
31303ZNDR DG
1.0500
0.0 0.959
-30.1
31301ZNDER 1G
1.000030.00
1.0500
0.0
-0.1
0.0
3150KAS TAP10
.20.
9
-10.
2-0
.9
31400STEESE
1.0000.0
R1
R3
R4
1.004-60.4
1.0000
1.0938-30.00
3160KASALEK
1.004-60.4
7.8
1.0
-7.8
-1.0
3170FOX
1.004-60.5
2.4
-0.1
-2.4-0.0
31710FOX
1.028-61.2
R12.4
0.01.00
000.97
501.
0000
* 2.40.0 -0.0
* 0.0-0.0
1.028-91.2
31711FOX-T
-2.4
3260FTWW SUB
-25.6-3.4
25.83.6
1.039-93.8
R1 3.6
1.1
R2 2.8
0.7
R3 1.4
0.3
R4 4.0
1.3
1.00
00
1.04
37-3
0.00 11.9
2.0-11.8-1.2
32400HAMILTON
3230S.FAIRBK
1.015-59.6
-15.
13.
1
15.1-3.1
3270FTWP TAP
13.16.4
-13.
1-6
.4
326FTWW SUB
1.008-57.3
1.048-90.1
1.00
00
1.00
00
-54.0-8.2
17.8
* 54.1
* 0.0
1.00
00
1.014-59.5
3280FTWW PWR
1.014-59.5
1.0
-2.6
3290BADGR TP
1.003-60.1
12.1
3.8
-12.
0-3
.8
-1.0
2.6
31600KASALEK
1.0000
1.0375-30.00
7.8
1.0
-7.8
-0.6
1.034-93.2
3300BADGR RD
7.5
1.5
-7.5
-1.5
3310BROCK TP
1.001-60.2-4
.5-2
.3
1.002-60.2
2.3
4.5
33000BADGR RD
1.039-92.8
R1
1.3
R2
1.1
R3
0.9
R4
2.3
0.6
1.0000
1.0500-30.00
7.5
1.5
-7.4
-1.2
2.7
0.3
0.3
3320BROCKMAN
0.999-60.3
0.6
-3.4
-0.8
3330HWY PARK
1.000-60.2
1.2
-1.2
-1.8
3.4
1.7
33200BROCKMAN
1.034-93.5
R2
0.3
R4
1.3
0.3
1.0000
1.0500-30.00
3.4
-3.3
-0.6
0.8
2.0
0.999-60.0
-10.
6
10.6
3370DAWSON
1.000-60.3
5.1
-4.1
-5.14.0
33300HWY PARK
1.035-92.9
R1
3.7
1.2
R2
1.4
0.3
R3
1.6
0.4
1.0000
0.9
-6.7
-0.6
-5.1
6.7
1.0437-30.00
3380EIELSON
1.001-60.2
-1.10.1
1.1-0.3
33700DAWSON
1.040-92.8
R1 2.1
0.6
R2 1.2
0.2
R3 0.9
0.2
R4 1.9
0.5
1.00
00
1.05
00-3
0.00 6.2-6.2
-1.0
33701DAWSNCAP
1.012-30.4
SW
1.01
810.05.5-5.5 -5.40.
9976
30.0
0 0.0
3390JOHNSN T
1.004-60.1
-2.1-0.8
2.10.6
1.037-90.5
1.04
38-3
0.00 1.0
-1.1-1.0
33800EIELSON
1.2
3350NPOLESUB
0.999-60.0
-26.5-1.7
26.5
1.7
33401MAPCO A
1.035-90.0
B3
0.97
10 -0.00.0
0.0
-0.0
33402MAPCO B
B4
2.4
6.02.7
-2.4
33403MAPCO C
B7
3.3
B8
0.2
B9
0.7
1.03
12-3
0.00 9.9-3
.7
-6.0 1.035
-92.2 -9.8
1.00
62-3
0.00
6.0
0.97
10
1.02
50-3
0.00
9.0
0.0
0.0
0.0
4.1
1.037-92.3
0.97
50
0.4 3340
MAPCO TP
5.0
32800FTWW PWR
1.013-89.9
1
13.8 4.5
1
5.0
0.8R
3
5.0
0.8R
4
1.8
0.3R
5
1.0
0.2R
1.0000
2.6
-1.0
-2.5
1.0
1.0250-30.00
33500NPOLESUB
0.988-26.7
SS
0.3
0.0
1
2
29.4
0.9750
0.956530.00
-26.
5-1
.726
.6
1.0R
3.3
335NPOLESUB
1.008-56.8
0.9750
0.956530.00
-1.3
1.2
1.3
-1.2
0.9750
0.956530.00
-1.3
1.2
1.3
-1.2
336NPOLEIND
1.008-56.8
2.3
-18.41.9 -3.1
341CARNEY
1.008-59.3
46.0
-45.76.3
-6.9
-2.3
18.4-6.9
33801ELSN PWR
1.028-90.9
1
16.0
1
2.5-0.4R
2
-0.4R
3
5.02.5H
4
2.1H
1.00
00 0.5-0.6
1.00
00 0.5-0.5-0.6
-0.50.61.
0000
1.00
00
0.62.5
5.0
5.0
3400JOHNSON
1.004-60.1
2.5-2.5-0.1
3410CARNEY
1.006-59.8
-0.7
4.60.5
34102CNS CAP2
0.956-29.8SW 0.
0
1.05
00
0.99
7630
.00-0.0
0.0
0.0
34100CARNEY T
1.007-90.0
1.00
001.
0000
-4.6* 4.60.6
* 0.0
1.00
00
-0.0
-0.0
41.1-6.9
-40.7
1.005-62.0
5.9
343TECKPOGO
0.992-63.3
12.80.7
-12.7
1.005-63.7
27.8-6.6
-27.74.9
-4.8
345PUMP9TAP
1.005-63.9
18.4-1.9
-18.31.4
34400JARVIS
1.002-97.6
R1 2.2
0.4
R2 0.4
-0.1
R3 0.6
0.9
R4 2.4 9.0-9.0
-3.1 1.02
50-3
0.00
1.00
00
344JARVIS
0.4
342POGO TAP
3.8
346PUMP 9
1.005-64.0
-16.90.4
347MDS
1.005-63.9
1.4-0.8
-1.40.8
-0.616.9
34000JOHNSON
1.038-91.3
R1 1.6
0.1
R2
-0.0 0.95
00
0.98
56-3
0.00 2.5-2.5
-0.1 0.10.8
34700MDS
1.022-94.4
1
1.4
1.01
25-3
0.00 1.4-1.4
0.8 1.00
00
-0.8-0.8
32601FTWW CAP
1.048-90.1
SW-17.8
-0.0 0.017.8-17.8
32600FTWW SUB
1.016-59.5
325WILSON
1.008-57.1
SS
0.3
B 0.0
35.8-6.5
-35.86.3
1.015-44.8
304GOLDHILL
1.003-57.4
-19.
7-1
3.6
19.812.9
32501BESS AUX
1.007-27.2
1.00
00
1.00
0030
.00 0.1
-0.1
-0.1
0.1
3201CHENA 1
1.006-60.1 4.
1
32000CHENA 2
1.000-58.1
5
1.0000
1.0125
5.3
-3.0
-4.1 4.2
-4.2 3.3
-5.3
1.004-60.3
9.5
0.8
-9.4
32001CHENA 1
1.000-58.1
B3
1.9
B5
4.7
1.5
B6
1.0000
1.0125
-5.3 3.3
5.3
-3.0
32002CHENA 3
1.000-58.1
-17.
71.
917
.7-1
.9
4.7
13.5
-13.
51.
8-1
.8
32003CHENA
1.005-55.4
SS
0.6
0.4
1
0.5H
2
3
1.0000
1.0000
4.3
0.1
4.9
-4.0
L20
.0
3220SSS TAP
1.015-59.8-9
.1 3.8
9.1
32300SFAIRBNK
1.039-92.1
R1
1.2
R2
0.5
R3
3.1
0.9
1.0000
1.0313-30.00
6.0
0.8
-6.0
-0.5
1.7
0.4
-0.9
3210S. SIDE
32100S.SIDE
1.035-93.7
B2 3.4
1.0
B3 2.8
0.8
B4 3.1
1.00
00
1.03
75-3
0.00 9.4
0.9-9.4-0.3
1.3
3190PEGER RD
1.015-59.9
-9.13.8
9.1
-3.8
3180INTRNATL
1.017-60.0
-2.04.2
2.0-4.3
31900PEGER RD
1.036-92.4
R23.9
1.2
R31.
0000
1.02
50-3
0.007.1
0.5-7.1
1.2-0.2 3.2
12.8R
0.0
3090UNIVTAP
1.018-59.97.
15.
7
-7.1-5.7
31800INTRNATL
R13.1
1.0
R23.8
R32.1
1.00
00
1.03
12-3
0.009.0
1.5-9.0
0.8
-0.9
1.034-93.8
0.9
3100UAF PWR
1.003-60.2
-1.1-4.2
1.14.2
31100UNIV AVE
1.051-92.0
R1
1.9
0.6
R2
0.2
R3
0.9
1.0000
2.10.3
-2.1
-0.3
1.0000
1.0562-30.00
2.3
-2.3
-0.4
2.3
31000UAF PWR
0.974-30.6
1
9.4
5.7
1
2
3
8.3
1.6R
1.0000
1.14.2
-1.1
-4.1
0.1
-3.8
-4.2
0.5
0.1
1.000030.00
1.0562-30.00
1.022-59.8
13.712.2
-13.
6-1
2.1
31200AURORA
1.038-92.5
R1
1.3
0.5
R2
0.1
R4
5.4
1.7
1.0000
1.0313-30.00
7.0
0.4
-7.0
-0.1
3040GOLDHILL
0.2 31302
ZNDER 2G
3070CHENATAP
1.020-59.9
7.1
5.7
-7.1
-5.7
12.86.9
-12.
7-6
.93080CHENAPMP
1.020-59.9
5.7
1.2
-5.7-1.2
30800CHENAPMP
1.037-91.6
R11.7
0.4
R43.9
1.1
1.00
00
1.02
50-3
0.005.7
-1.01.2-5.6
3060MUSKOX
1.019-60.16.3
0.6
-6.3
-0.8
30400GOLDHILL
1.027-61.0
R1 0.7
-0.2 1.00
00
1.00
00 0.7-0.2
-0.7
30401GLDHLSVS
1.034-90.1
S
-0.0-19.7R
SW0.0
0.0-35.3 0.9750
1.00001.0000
-19.5
33.7
* -0.215.6
5.5
0.2
* -33.4
30600MUSK OX
R1
3.4
R3
2.1
R4
0.7
1.0000
1.025030.00
6.3
0.8
-6.3
-0.5 1.037
-32.8
0.5
0.8
0.2
303ESTER
305FT. KNOX
0.997-59.3
31.3
-0.5
-31.2-1.8
302NENANA
1.007-51.8
49.2-8.1
-48.28.0
30300ESTER
1.033-88.4
R11.8
0.4
R31.1
0.2
2.8 -2.8
1.003-57.0
1.00
00
1.03
75-3
0.00
-0.6
30200NENANA
R11.0
0.2
R20.71.
00001.7
0.4-1.7
0.1-0.3
1.033-85.2
300CANTWELL
1.035-77.4
R1
2.8
-1.2
R2
3.1
0.9937-30.00
5.8
-5.8 0.6
30103HEALYSVS
1.013-14.8
S
0.0
0.0
1.0000
0.1
-0.1
-0.5
30110HCCP#2-G
1.044-14.9
2
0.5
-0.730120
HLP#1-G1.010-9.4
1
28.0
0.9750
0.956530.00
-0.8
25.3
3.2
1.000030.00
-25.
1
0.7
1.0000
1.029930.00
5.3R
0.5
-0.3
0.6
-22.
6
-23.
0R
-0.5
795STEVENS
0.993-26.7
-68.411.4
69.7-8.7
30000CANTWELL
1.040-70.6
R10.0
0.0
R30.6
-0.1
1.03
13-3
0.00 -0.6
0.1-0.1
790DOUGLAS
0.990-23.3
70.0
-69.7
7951STEVENS
1
1.
0000
1.00
00-3
0.00 -0.0
-0.0
0.993-56.7
0.7
1.04
38-3
0.00
0.9750
0.6
0.0
1.00
00
780TEELAND
1.002-18.5
77.8-3.8
-76.47.4
7901DOUGLAS
1.035-25.6
1
6.4
0.2
1.0000
1.0500
6.40.4
-6.4
-0.2
0.1 -4.6
1.00
00
1.3
-0.5
30501FKS #1
0.993-31.9
0.0-6.9 1.
0000
30.0
0-15.6
30502FKS #2
0.993-31.9
1.00
00
1.00
0030
.00 15.6
0.9-15.6-0.2
-0.2 0.91.00
00 15.6
GVEA 2007 WINTER PEAK FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 10:19
Diagram created usingR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\LFcase2b.savR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\gvea_2007Eva6.sld
GVEA1.015-46.2
1.015-46.1
-23.90.0
23.9
-0.2
1.020-11.7
1.000030.00
23.9
1.7
-23.
90.
2
Bus - VOLTAGE (PU)/ANGLEBranch - MW/MVAREquipment - MW/MVARKV: <=34.500 <=69.000 <=138.000 >138.000
1.021-11.3
-12.
0-0
.912
.00.
3
1.019-17.3
1.019-17.3
1.0000
1.019-17.3
1.019-17.3
358COLLECT5
355EVACRKWF
353COLLECT1
352EVACRKTX
1.012-47.2
-50.97.7
51.8
-7.4
-7.2
-51.
87.
4
30100HEALY
360EVATAP2
-7.90.00.0
8.7
0.00.00.0
1.008-40.0
301HEALY
0.0
0.0
0.0
0.0
0.0
0.00.0
1.008-57.0
-56.06.4
56.057.3-3.4
-56.06.3 -6.3
367FLTWILSON
1.015-44.9
-4.3
-33.
64.
3
-33.53.4
33.6
-4.3
0.0
-67.
311
.711
.752
.2
1.015-44.7
67.7-11.4
0.00.0
316FLTHEAL-DOUG
SS
3
-1.0
R
33601NPCC 1
0.985-80.7
4
0.0R12.0
-12.
0-0
.0
0.0
12.0 33602
NPCC 2
50.0
0.9565
-61.
862
.0-1
.07.
7
0.975030.00
0.985-80.7
2.5
-2.5
67.3
-11.
7-6
7.3
33.6
366FLTHEAL-EVA
-8.7
8.6
8.7
45.4
-45.
3 1.003-57.4
306FLTGH-ES
-45.
3
0.0
350EVACRKTAP
0.0
1
24.0
0.7R
-12.
0
-0.9
12.0
0.3
356COLLECT3
357COLLECT4
354COLLECTOR
SVC
Eva Creek Wind Farm
kstump
Text Box
LFcase2b - Douglas = 70 MW, HCCP = 0 MW, Eva Creek Wind = 24 MW, NPP2 = 29.4 MW, NPCC = 62 MW
1.008-64.1
3110UNIV AVE
1.005-64.1
-5.4-5.2
5.4
5.11.011
-64.06.8
10.3
-6.8
-10.
3
3140STEESE
1.006-64.3
10.2
0.8
-10.
2-0
.9
3200CHENA 2
1.007-64.0
-1.2
1.2
-7.4
-9.4
-1.6
1.6
1.039-96.3
R10.5
-0.3
R22.4
0.8
R30.0
0.0
R42.6
0.5
1.03
13-3
0.00
5.5 0.4
0.970-32.6
1
4.1
4.1
2
1.000030.00
-0.0
-0.01.008
-34.1
1
2
1.000030.00
0.2
-0.2
1.0000
1.000030.00
0.0
-0.2
31300ZEHNDER
-5.4
1.00
00
9.5
3240HAMILTON
1.009-64.0
3120AURORA
1.5R
1.5
-0.0
-0.0
3130ZEHNDER 0.
00.
2
1.0000
-1.4
7.4
31303ZNDR DG
1.0500
0.0 0.960
-34.1
31301ZNDER 1G
1.000030.00
1.0500
-4.1
-0.1
0.0
3150KAS TAP10
.20.
9
-10.
2-0
.9
31400STEESE
1.0000.0
R1
R3
R4
1.006-64.3
1.0000
1.0938-30.00
3160KASALEK
1.006-64.3
7.8
1.0
-7.8
-1.0
3170FOX
1.005-64.4
2.4
-0.1
-2.4-0.0
31710FOX
1.029-65.1
R12.4
0.01.00
000.97
501.
0000
* 2.40.0 -0.0
* 0.0-0.0
1.030-95.1
31711FOX-T
-2.4
3260FTWW SUB
-21.3-3.6
21.43.7
1.040-97.7
R1 3.6
1.1
R2 2.8
0.7
R3 1.4
0.3
R4 4.0
1.3
1.00
00
1.04
37-3
0.00 11.9
2.0-11.8-1.2
32400HAMILTON
3230S.FAIRBK
1.015-63.7
-13.
32.
4
13.3-2.4
3270FTWP TAP
19.05.3
-19.
0-5
.3
326FTWW SUB
1.008-61.4
1.048-94.2
1.00
00
1.00
00
-53.7-8.6
17.8
* 53.9
* 0.0
1.00
00
1.014-63.6
3280FTWW PWR
1.014-63.6
1.0
-2.6
3290BADGR TP
1.000-64.6
18.0
2.7
-17.
8-2
.5
-1.0
2.6
31600KASALEK
1.0000
1.0375-30.00
7.8
1.0
-7.8
-0.6
1.036-97.1
3300BADGR RD
7.5
1.5
-7.5
-1.5
3310BROCK TP
0.998-64.8
-10.
3-1
.0
0.999-64.7
1.0
10.3
33000BADGR RD
1.037-97.4
R1
1.3
R2
1.1
R3
0.9
R4
2.3
0.6
1.0000
1.0500-30.00
7.5
1.5
-7.4
-1.2
2.7
0.3
0.3
3320BROCKMAN
0.996-65.0
0.6
-3.4
-0.8
3330HWY PARK
0.996-65.0
6.9
-6.9
-0.5
3.4
0.4
33200BROCKMAN
1.037-98.2
R2
0.3
R4
1.3
0.3
1.0000
1.0562-30.00
3.4
-3.3
-0.6
0.8
2.0
0.994-64.9
-4.5
4.5
3370DAWSON
0.996-65.2
4.7
-4.5
-4.74.4
33300HWY PARK
1.037-97.8
R1
3.7
1.2
R2
1.4
0.3
R3
1.6
0.4
1.0000
0.9
-6.7
-0.6
-4.1
6.7
1.0500-30.00
3380EIELSON
0.998-65.0
-1.5-0.3
1.50.1
33700DAWSON
1.035-97.7
R1 2.1
0.6
R2 1.2
0.2
R3 0.9
0.2
R4 1.9
0.5
1.00
00
1.05
00-3
0.00 6.2-6.2
-1.0
33701DAWSNCAP
1.008-35.3
SW
1.01
810.05.5-5.5 -5.30.
9976
30.0
0 0.0
3390JOHNSN T
1.001-64.8
-2.5-1.0
2.50.7
1.036-95.3
1.04
38-3
0.00 1.0
-0.9-1.0
33800EIELSON
0.9
3350NPOLESUB
0.994-64.9
-20.4-2.7
20.4
2.7
33401MAPCO A
1.030-94.9
B3
0.97
10 -0.00.0
0.0
-0.0
33402MAPCO B
B4
2.4
6.02.7
-2.4
33403MAPCO C
B7
3.3
B8
0.2
B9
0.7
1.03
12-3
0.00 9.9-3
.7
-6.0 1.030
-97.2 -9.8
1.00
62-3
0.00
6.0
0.97
10
1.02
50-3
0.00
9.0
0.0
0.0
0.0
4.1
1.032-97.3
0.97
50
0.4 3340
MAPCO TP
4.1
32800FTWW PWR
1.013-94.0
1
13.8 4.5
1
5.0
0.8R
3
5.0
0.8R
4
1.8
0.3R
5
1.0
0.2R
1.0000
2.6
-1.0
-2.5
1.0
1.0250-30.00
33500NPOLESUB
0.984-32.4
SS
0.3
0.0
1
2
0.9750
0.956530.00
-20.
4-2
.720
.4
3.6
335NPOLESUB
1.006-61.5
0.9750
0.956530.00
10.4
2.0
-10.
3-1
.8
0.9750
0.956530.00
10.4
2.0
-10.
3-1
.8
336NPOLEIND
1.006-61.5
4.0
5.31.7 -3.1
341CARNEY
1.006-64.0
46.4
-46.16.9
-7.4
-4.0
-5.3-6.5
33801ELSN PWR
1.028-95.7
1
16.0
1
2.5-0.3R
2
-0.3R
3
5.02.5H
4
2.1H
1.00
00 0.5-0.5
1.00
00 0.5-0.5-0.5
-0.50.51.
0000
1.00
00
0.52.5
5.0
5.0
3400JOHNSON
1.001-64.9
2.5-2.5-0.1
3410CARNEY
1.004-64.6
-0.9
5.00.7
34102CNS CAP2
0.954-34.6SW 0.
0
1.05
00
0.99
7630
.00-0.0
0.0
0.0
34100CARNEY T
1.005-94.8
1.00
001.
0000
-5.0* 5.00.8
* 0.0
1.00
00
-0.0
-0.0
41.1-7.6
-40.7
1.004-66.8
6.7
343TECKPOGO
0.991-68.0
12.80.7
-12.7
1.005-68.4
27.8-7.4
-27.75.7
-4.8
345PUMP9TAP
1.005-68.6
18.4-1.9
-18.31.4
34400JARVIS
1.002-102.3
R1 2.2
0.4
R2 0.4
-0.1
R3 0.6
0.9
R4 2.4 9.0-9.0
-3.1 1.02
50-3
0.00
1.00
00
344JARVIS
0.4
342POGO TAP
3.8
346PUMP 9
1.005-68.7
-16.90.4
347MDS
1.005-68.7
1.4-0.8
-1.40.8
-0.616.9
34000JOHNSON
1.036-96.1
R1 1.6
0.1
R2
-0.0 0.95
00
0.98
56-3
0.00 2.5-2.5
-0.1 0.10.8
34700MDS
1.022-99.2
1
1.4
1.01
25-3
0.00 1.4-1.4
0.8 1.00
00
-0.8-0.8
32601FTWW CAP
1.048-94.2
SW-17.8
-0.0 0.017.8-17.8
32600FTWW SUB
1.016-63.5
325WILSON
1.008-61.1
SS
0.3
B 0.0
59.2-6.8
-59.16.9
1.015-44.8
304GOLDHILL
1.002-61.2-8
.2-1
9.1
8.218.3
32501BESS AUX
1.007-31.1
1.00
00
1.00
0030
.00 0.1
-0.1
-0.1
0.1
3201CHENA 1
1.007-64.0 4.
1
32000CHENA 2
1.001-62.0
5
1.0000
1.0125
5.3
-3.0
-4.1 4.2
-4.2 3.3
-5.3
1.005-64.2
9.5
0.8
-9.4
32001CHENA 1
1.001-62.0
B3
1.9
B5
4.7
1.5
B6
1.0000
1.0125
-5.3 3.3
5.3
-3.0
32002CHENA 3
1.001-62.0
-17.
71.
917
.7-1
.9
4.7
13.5
-13.
51.
8-1
.8
32003CHENA
1.006-59.3
SS
0.6
0.4
1
0.5H
2
3
1.0000
1.0000
4.3
0.1
4.9
-4.0
L20
.0
3220SSS TAP
1.015-63.8-7
.3 3.1
7.3
32300SFAIRBNK
1.039-96.2
R1
1.2
R2
0.5
R3
3.1
0.9
1.0000
1.0313-30.00
6.0
0.8
-6.0
-0.5
1.7
0.4
-0.9
3210S. SIDE
32100S.SIDE
1.036-97.6
B2 3.4
1.0
B3 2.8
0.8
B4 3.1
1.00
00
1.03
75-3
0.00 9.4
0.9-9.4-0.3
1.3
3190PEGER RD
1.015-63.9
-7.33.1
7.3
-3.1
3180INTRNATL
1.017-63.9
-0.13.5
0.1-3.6
31900PEGER RD
1.036-96.4
R23.9
1.2
R31.
0000
1.02
50-3
0.007.1
0.5-7.1
1.2-0.2 3.2
23.3R
0.0
3090UNIVTAP
1.018-63.88.
95.
1
-8.9-5.1
31800INTRNATL
R13.1
1.0
R23.8
R32.1
1.00
00
1.03
12-3
0.009.0
1.5-9.0
0.8
-0.9
1.034-97.7
0.9
3100UAF PWR
1.005-64.1
-1.1-4.4
1.14.4
31100UNIV AVE
1.052-95.9
R1
1.9
0.6
R2
0.2
R3
0.9
1.0000
2.10.3
-2.1
-0.3
1.0000
1.0562-30.00
2.3
-2.3
-0.4
2.3
31000UAF PWR
0.974-34.5
1
9.4
5.7
1
2
3
8.3
1.4R
1.0000
1.14.4
-1.1
-4.3
0.1
-3.2
-4.2
0.5
0.1
1.000030.00
1.0562-30.00
1.022-63.7
13.810.7
-13.
8-1
0.6
31200AURORA
1.039-96.4
R1
1.3
0.5
R2
0.1
R4
5.4
1.7
1.0000
1.0313-30.00
7.0
0.4
-7.0
-0.1
3040GOLDHILL
0.2 31302
ZNDER 2G
3070CHENATAP
1.020-63.8
8.9
5.0
-8.9
-5.1
14.66.2
-14.
6-6
.23080CHENAPMP
1.019-63.8
5.7
1.2
-5.7-1.2
30800CHENAPMP
1.037-95.5
R11.7
0.4
R43.9
1.1
1.00
00
1.02
50-3
0.005.7
-1.01.2-5.6
3060MUSKOX
1.019-64.06.3
0.6
-6.3
-0.8
30400GOLDHILL
1.027-64.9
R1 0.7
-0.2 1.00
00
1.00
00 0.7-0.2
-0.7
30401GLDHLSVS
1.034-94.0
S
-0.0-20.6R
SW0.0
0.0-35.3 0.9750
1.00001.0000
-17.4
35.7
* -0.214.6
4.5
0.2
* -35.5
30600MUSK OX
R1
3.4
R3
2.1
R4
0.7
1.0000
1.025030.00
6.3
0.8
-6.3
-0.5 1.037
-36.6
0.5
0.8
0.2
303ESTER
305FT. KNOX
0.995-63.1
31.3
-0.5
-31.2-1.8
302NENANA
1.002-53.8
63.4-11.2
-61.914.2
30300ESTER
1.031-92.0
R11.8
0.4
R31.1
0.2
2.8 -2.8
1.001-60.6
1.00
00
1.03
75-3
0.00
-0.6
30200NENANA
R11.0
0.2
R20.71.
00001.7
0.4-1.7
0.1-0.3
1.028-87.2
300CANTWELL
1.035-77.3
R1
2.8
-1.2
R2
3.1
0.9937-30.00
5.8
-5.8 0.6
30103HEALYSVS
1.028-14.9
S
0.0
0.0
1.0000
0.1
-0.1 3.4
30110HCCP#2-G
0.993-10.1
2
58.5
10.0
R
-0.0
51.430120
HLP#1-G1.007-9.4
1
28.0
0.9750
0.956530.00
0.0
25.3
2.4
1.000030.00
-25.
1
-51.
1
1.0000
0.971030.00
4.5R
-3.3
-0.3
0.6
-23.
2
-19.
8R
4.3
795STEVENS
0.993-26.7
-68.311.4
69.7-8.7
30000CANTWELL
1.040-70.6
R10.0
0.0
R30.6
-0.1
1.03
13-3
0.00 -0.6
0.1-0.1
790DOUGLAS
0.991-23.3
70.0
-69.7
7951STEVENS
1
1.
0000
1.00
00-3
0.00 -0.0
-0.0
0.993-56.7
0.7
1.04
38-3
0.00
0.9750
0.6
0.0
1.00
00
780TEELAND
1.002-18.5
77.8-3.8
-76.47.4
7901DOUGLAS
1.035-25.6
1
6.4
0.2
1.0000
1.0500
6.40.4
-6.4
-0.2
0.1 -5.0
1.00
00
1.3
-0.7
30501FKS #1
0.992-35.6
0.0-6.9 1.
0000
30.0
0-15.6
30502FKS #2
0.992-35.6
1.00
00
1.00
0030
.00 15.6
0.9-15.6-0.2
-0.2 0.91.00
00 15.6
GVEA 2007 WINTER PEAK FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 10:26
Diagram created usingR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\LFcase3b.savR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\gvea_2007Eva6.sld
GVEA1.011-47.7
1.011-47.7
0.0-0.2
-0.0
-0.0
1.011-17.7
1.000030.00
-0.0
-0.0
0.0
0.0
Bus - VOLTAGE (PU)/ANGLEBranch - MW/MVAREquipment - MW/MVARKV: <=34.500 <=69.000 <=138.000 >138.000
1.019-17.3
1.019-17.3
1.019-17.3
1.0000
1.019-17.3
1.019-17.3
358COLLECT5
355EVACRKWF
353COLLECT1
352EVACRKTX-SVC
1.009-47.8
-65.110.8
66.6
-7.8
-6.3
-66.
67.
8
30100HEALY
360EVATAP2
-7.90.00.0
8.7
0.00.00.0
1.008-40.0
301HEALY
0.0
0.0
0.0
0.0
0.0
0.00.0
1.008-61.0
-67.811.7
67.869.8-3.4
-67.811.6 -11.6
367FLTWILSON
1.015-44.9
-1.7
-70.
21.
8
-69.83.6
70.2
-1.8
0.0
-67.
311
.611
.767
.3
1.015-44.7
67.7-11.3
0.00.0
316FLTHEAL-DOUG
SS
3
0.1R
33601NPCC 1
0.985-85.4
4
0.0R12.0
-12.
0-0
.0
0.0
12.0 33602
NPCC 2
50.0
0.9565
-61.
862
.0 0.2
6.5
0.975030.00
0.985-85.4
-20.
720
.7
67.3
-11.
6-6
7.3
70.2
366FLTHEAL-EVA
-14.9
15.0
15.1
59.0
-58.
9 1.001-61.1
306FLTGH-ES
-58.
9
0.0
350EVACRKTAP
0.0
1
356COLLECT3
357COLLECT4
354COLLECTOR
S
SVC
Eva Creek Wind Farm
kstump
Text Box
LFcase3b - Douglas = 70 MW, HCCP = 58.5 MW, Eva Creek Wind = 0 MW, NPP2 = 0 MW, NPCC = 62 MW
1.008-64.1
3110UNIV AVE
1.005-64.1
-5.4-5.2
5.4
5.11.011
-64.06.8
10.3
-6.8
-10.
3
3140STEESE
1.006-64.3
10.2
0.8
-10.
2-0
.9
3200CHENA 2
1.007-64.0
-1.2
1.2
-7.4
-9.4
-1.6
1.6
1.039-96.3
R10.5
-0.3
R22.4
0.8
R30.0
0.0
R42.6
0.5
1.03
13-3
0.00
5.5 0.4
0.970-32.6
1
4.1
4.1
2
1.000030.00
-0.0
-0.01.008
-34.1
1
2
1.000030.00
0.2
-0.2
1.0000
1.000030.00
0.0
-0.2
31300ZEHNDER
-5.4
1.00
00
9.5
3240HAMILTON
1.009-64.0
3120AURORA
1.5R
1.5
-0.0
-0.0
3130ZEHNDER 0.
00.
2
1.0000
-1.4
7.4
31303ZNDR DG
1.0500
0.0 0.960
-34.1
31301ZNDER 1G
1.000030.00
1.0500
-4.1
-0.1
0.0
3150KAS TAP10
.20.
9
-10.
2-0
.9
31400STEESE
1.0000.0
R1
R3
R4
1.006-64.3
1.0000
1.0938-30.00
3160KASALEK
1.006-64.3
7.8
1.0
-7.8
-1.0
3170FOX
1.005-64.4
2.4
-0.1
-2.4-0.0
31710FOX
1.029-65.1
R12.4
0.01.00
000.97
501.
0000
* 2.40.0 -0.0
* 0.0-0.0
1.030-95.1
31711FOX-T
-2.4
3260FTWW SUB
-21.3-3.6
21.43.7
1.040-97.7
R1 3.6
1.1
R2 2.8
0.7
R3 1.4
0.3
R4 4.0
1.3
1.00
00
1.04
37-3
0.00 11.9
2.0-11.8-1.2
32400HAMILTON
3230S.FAIRBK
1.015-63.7
-13.
32.
4
13.3-2.4
3270FTWP TAP
19.05.3
-19.
0-5
.3
326FTWW SUB
1.008-61.4
1.048-94.2
1.00
00
1.00
00
-53.7-8.6
17.8
* 53.9
* 0.0
1.00
00
1.014-63.6
3280FTWW PWR
1.014-63.6
1.0
-2.6
3290BADGR TP
1.000-64.6
18.0
2.7
-17.
8-2
.5
-1.0
2.6
31600KASALEK
1.0000
1.0375-30.00
7.8
1.0
-7.8
-0.6
1.036-97.1
3300BADGR RD
7.5
1.5
-7.5
-1.5
3310BROCK TP
0.998-64.8
-10.
3-1
.0
0.999-64.7
1.0
10.3
33000BADGR RD
1.037-97.4
R1
1.3
R2
1.1
R3
0.9
R4
2.3
0.6
1.0000
1.0500-30.00
7.5
1.5
-7.4
-1.2
2.7
0.3
0.3
3320BROCKMAN
0.996-65.0
0.6
-3.4
-0.8
3330HWY PARK
0.996-65.0
6.9
-6.9
-0.5
3.4
0.4
33200BROCKMAN
1.037-98.2
R2
0.3
R4
1.3
0.3
1.0000
1.0562-30.00
3.4
-3.3
-0.6
0.8
2.0
0.994-64.9
-4.5
4.5
3370DAWSON
0.996-65.2
4.7
-4.5
-4.74.4
33300HWY PARK
1.037-97.8
R1
3.7
1.2
R2
1.4
0.3
R3
1.6
0.4
1.0000
0.9
-6.7
-0.6
-4.1
6.7
1.0500-30.00
3380EIELSON
0.998-65.0
-1.5-0.3
1.50.1
33700DAWSON
1.035-97.7
R1 2.1
0.6
R2 1.2
0.2
R3 0.9
0.2
R4 1.9
0.5
1.00
00
1.05
00-3
0.00 6.2-6.2
-1.0
33701DAWSNCAP
1.008-35.3
SW
1.01
810.05.5-5.5 -5.30.
9976
30.0
0 0.0
3390JOHNSN T
1.001-64.8
-2.5-1.0
2.50.7
1.036-95.3
1.04
38-3
0.00 1.0
-0.9-1.0
33800EIELSON
0.9
3350NPOLESUB
0.994-64.9
-20.4-2.7
20.4
2.7
33401MAPCO A
1.030-94.9
B3
0.97
10 -0.00.0
0.0
-0.0
33402MAPCO B
B4
2.4
6.02.7
-2.4
33403MAPCO C
B7
3.3
B8
0.2
B9
0.7
1.03
12-3
0.00 9.9-3
.7
-6.0 1.030
-97.2 -9.8
1.00
62-3
0.00
6.0
0.97
10
1.02
50-3
0.00
9.0
0.0
0.0
0.0
4.1
1.032-97.3
0.97
50
0.4 3340
MAPCO TP
4.1
32800FTWW PWR
1.013-94.0
1
13.8 4.5
1
5.0
0.8R
3
5.0
0.8R
4
1.8
0.3R
5
1.0
0.2R
1.0000
2.6
-1.0
-2.5
1.0
1.0250-30.00
33500NPOLESUB
0.984-32.4
SS
0.3
0.0
1
2
0.9750
0.956530.00
-20.
4-2
.720
.4
3.6
335NPOLESUB
1.006-61.5
0.9750
0.956530.00
10.4
2.0
-10.
3-1
.8
0.9750
0.956530.00
10.4
2.0
-10.
3-1
.8
336NPOLEIND
1.006-61.5
4.0
5.31.7 -3.1
341CARNEY
1.006-64.0
46.4
-46.16.9
-7.4
-4.0
-5.3-6.5
33801ELSN PWR
1.028-95.7
1
16.0
1
2.5-0.3R
2
-0.3R
3
5.02.5H
4
2.1H
1.00
00 0.5-0.5
1.00
00 0.5-0.5-0.5
-0.50.51.
0000
1.00
00
0.52.5
5.0
5.0
3400JOHNSON
1.001-64.9
2.5-2.5-0.1
3410CARNEY
1.004-64.6
-0.9
5.00.7
34102CNS CAP2
0.954-34.6SW 0.
0
1.05
00
0.99
7630
.00-0.0
0.0
0.0
34100CARNEY T
1.005-94.8
1.00
001.
0000
-5.0* 5.00.8
* 0.0
1.00
00
-0.0
-0.0
41.1-7.6
-40.7
1.004-66.8
6.7
343TECKPOGO
0.991-68.0
12.80.7
-12.7
1.005-68.4
27.8-7.4
-27.75.7
-4.8
345PUMP9TAP
1.005-68.6
18.4-1.9
-18.31.4
34400JARVIS
1.002-102.3
R1 2.2
0.4
R2 0.4
-0.1
R3 0.6
0.9
R4 2.4 9.0-9.0
-3.1 1.02
50-3
0.00
1.00
00
344JARVIS
0.4
342POGO TAP
3.8
346PUMP 9
1.005-68.7
-16.90.4
347MDS
1.005-68.7
1.4-0.8
-1.40.8
-0.616.9
34000JOHNSON
1.036-96.1
R1 1.6
0.1
R2
-0.0 0.95
00
0.98
56-3
0.00 2.5-2.5
-0.1 0.10.8
34700MDS
1.022-99.2
1
1.4
1.01
25-3
0.00 1.4-1.4
0.8 1.00
00
-0.8-0.8
32601FTWW CAP
1.048-94.2
SW-17.8
-0.0 0.017.8-17.8
32600FTWW SUB
1.016-63.5
325WILSON
1.008-61.1
SS
0.3
B 0.0
59.2-6.8
-59.16.9
1.015-44.8
304GOLDHILL
1.002-61.2-8
.2-1
9.1
8.218.3
32501BESS AUX
1.007-31.1
1.00
00
1.00
0030
.00 0.1
-0.1
-0.1
0.1
3201CHENA 1
1.007-64.0 4.
1
32000CHENA 2
1.001-62.0
5
1.0000
1.0125
5.3
-3.0
-4.1 4.2
-4.2 3.3
-5.3
1.005-64.2
9.5
0.8
-9.4
32001CHENA 1
1.001-62.0
B3
1.9
B5
4.7
1.5
B6
1.0000
1.0125
-5.3 3.3
5.3
-3.0
32002CHENA 3
1.001-62.0
-17.
71.
917
.7-1
.9
4.7
13.5
-13.
51.
8-1
.8
32003CHENA
1.006-59.3
SS
0.6
0.4
1
0.5H
2
3
1.0000
1.0000
4.3
0.1
4.9
-4.0
L20
.0
3220SSS TAP
1.015-63.8-7
.3 3.1
7.3
32300SFAIRBNK
1.039-96.2
R1
1.2
R2
0.5
R3
3.1
0.9
1.0000
1.0313-30.00
6.0
0.8
-6.0
-0.5
1.7
0.4
-0.9
3210S. SIDE
32100S.SIDE
1.036-97.6
B2 3.4
1.0
B3 2.8
0.8
B4 3.1
1.00
00
1.03
75-3
0.00 9.4
0.9-9.4-0.3
1.3
3190PEGER RD
1.015-63.9
-7.33.1
7.3
-3.1
3180INTRNATL
1.017-63.9
-0.13.5
0.1-3.6
31900PEGER RD
1.036-96.4
R23.9
1.2
R31.
0000
1.02
50-3
0.007.1
0.5-7.1
1.2-0.2 3.2
8.1R
0.0
3090UNIVTAP
1.018-63.88.
95.
1
-8.9-5.1
31800INTRNATL
R13.1
1.0
R23.8
R32.1
1.00
00
1.03
12-3
0.009.0
1.5-9.0
0.8
-0.9
1.034-97.7
0.9
3100UAF PWR
1.005-64.1
-1.1-4.4
1.14.4
31100UNIV AVE
1.052-95.9
R1
1.9
0.6
R2
0.2
R3
0.9
1.0000
2.10.3
-2.1
-0.3
1.0000
1.0562-30.00
2.3
-2.3
-0.4
2.3
31000UAF PWR
0.974-34.5
1
9.4
5.7
1
2
3
8.3
1.4R
1.0000
1.14.4
-1.1
-4.3
0.1
-3.2
-4.2
0.5
0.1
1.000030.00
1.0562-30.00
1.022-63.7
13.810.7
-13.
8-1
0.6
31200AURORA
1.039-96.4
R1
1.3
0.5
R2
0.1
R4
5.4
1.7
1.0000
1.0313-30.00
7.0
0.4
-7.0
-0.1
3040GOLDHILL
0.2 31302
ZNDER 2G
3070CHENATAP
1.020-63.8
8.9
5.0
-8.9
-5.1
14.66.2
-14.
6-6
.23080CHENAPMP
1.019-63.8
5.7
1.2
-5.7-1.2
30800CHENAPMP
1.037-95.5
R11.7
0.4
R43.9
1.1
1.00
00
1.02
50-3
0.005.7
-1.01.2-5.6
3060MUSKOX
1.019-64.06.3
0.6
-6.3
-0.8
30400GOLDHILL
1.027-64.9
R1 0.7
-0.2 1.00
00
1.00
00 0.7-0.2
-0.7
30401GLDHLSVS
1.034-94.0
S
-0.0-20.6R
SW0.0
0.0-35.3 0.9750
1.00001.0000
-17.4
35.7
* -0.214.6
4.5
0.2
* -35.5
30600MUSK OX
R1
3.4
R3
2.1
R4
0.7
1.0000
1.025030.00
6.3
0.8
-6.3
-0.5 1.037
-36.6
0.5
0.8
0.2
303ESTER
305FT. KNOX
0.995-63.1
31.3
-0.5
-31.2-1.8
302NENANA
1.002-53.8
63.4-11.2
-61.914.2
30300ESTER
1.031-92.0
R11.8
0.4
R31.1
0.2
2.8 -2.8
1.001-60.6
1.00
00
1.03
75-3
0.00
-0.6
30200NENANA
R11.0
0.2
R20.71.
00001.7
0.4-1.7
0.1-0.3
1.028-87.2
300CANTWELL
1.035-77.3
R1
2.8
-1.2
R2
3.1
0.9937-30.00
5.8
-5.8 0.6
30103HEALYSVS
1.028-14.9
S
0.0
0.0
1.0000
0.1
-0.1 3.4
30110HCCP#2-G
0.993-10.1
2
58.5
10.0
R
-0.0
51.430120
HLP#1-G1.007-9.4
1
28.0
0.9750
0.956530.00
0.0
25.3
2.4
1.000030.00
-25.
1
-51.
1
1.0000
0.971030.00
4.5R
-3.3
-0.3
0.6
-23.
2
-19.
8R
4.3
795STEVENS
0.993-26.7
-68.311.4
69.7-8.7
30000CANTWELL
1.040-70.6
R10.0
0.0
R30.6
-0.1
1.03
13-3
0.00 -0.6
0.1-0.1
790DOUGLAS
0.991-23.3
70.0
-69.7
7951STEVENS
1
1.
0000
1.00
00-3
0.00 -0.0
-0.0
0.993-56.7
0.7
1.04
38-3
0.00
0.9750
0.6
0.0
1.00
00
780TEELAND
1.002-18.5
77.8-3.8
-76.47.4
7901DOUGLAS
1.035-25.6
1
6.4
0.2
1.0000
1.0500
6.40.4
-6.4
-0.2
0.1 -5.0
1.00
00
1.3
-0.7
30501FKS #1
0.992-35.6
0.0-6.9 1.
0000
30.0
0-15.6
30502FKS #2
0.992-35.6
1.00
00
1.00
0030
.00 15.6
0.9-15.6-0.2
-0.2 0.91.00
00 15.6
GVEA 2007 WINTER PEAK FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 10:31
Diagram created usingR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\LFcase4b.savR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\gvea_2007Eva6.sld
GVEA1.011-47.7
1.011-47.7
0.0-0.2
-0.0
-0.0
1.011-17.7
1.000030.00
-0.0
-0.0
0.0
0.0
Bus - VOLTAGE (PU)/ANGLEBranch - MW/MVAREquipment - MW/MVARKV: <=34.500 <=69.000 <=138.000 >138.000
1.019-17.3
1.019-17.3
1.019-17.3
1.0000
1.019-17.3
1.019-17.3
358COLLECT5
355EVACRKWF
353COLLECT1
352EVACRKTX-SVC
1.009-47.8
-65.110.8
66.6
-7.8
-6.3
-66.
67.
8
30100HEALY
360EVATAP2
-7.90.00.0
8.7
0.00.00.0
1.008-40.0
301HEALY
0.0
0.0
0.0
0.0
0.0
0.0-15.2
1.008-61.0
-67.811.7
67.869.8-3.4
-67.811.6 -11.6
367FLTWILSON
1.015-44.9
-1.7
-70.
21.
8
-69.83.6
70.2
-1.8
0.0
-67.
311
.611
.767
.3
1.015-44.7
67.7-11.3
0.00.0
316FLTHEAL-DOUG
SS
3
0.2R
33601NPCC 1
0.985-85.4
4
-0.0
R12
.0
-12.
00.
0
-0.0
12.0 33602
NPCC 2
50.0
0.9565
-61.
862
.0 0.2
6.5
0.975030.00
0.985-85.4
-20.
720
.7
67.3
-11.
6-6
7.3
70.2
366FLTHEAL-EVA
-14.9
15.0
15.1
59.0
-58.
9 1.001-61.1
306FLTGH-ES
-58.
9
0.0
350EVACRKTAP
0.0
1
356COLLECT3
357COLLECT4
354COLLECTOR
S
SVC
Eva Creek Wind Farm
kstump
Text Box
LFcase4b - Douglas = 70 MW, HCCP = 58.5 MW, Eva Creek Wind = 0 MW, NPP2 = 0 MW, NPCC = 62 MW
1.007-66.7
3110UNIV AVE
1.004-66.8
-5.4-5.0
5.4
4.91.010
-66.79.1
10.8
-9.1
-10.
8
3140STEESE
1.005-66.9
10.2
0.8
-10.
2-0
.9
3200CHENA 2
1.006-66.7
-1.2
1.2
-7.4
-11.
2-2
.2
2.2
1.037-98.9
R10.5
-0.3
R22.4
0.8
R30.0
0.0
R42.6
0.5
1.03
13-3
0.00
5.5 0.4
0.959-36.7
1
-0
.0
2
1.000030.00
-0.0
-0.01.006
-36.8
1
2
1.000030.00
0.2
-0.2
1.0000
1.000030.00
0.0
-0.2
31300ZEHNDER
-5.4
1.00
00
11.2
3240HAMILTON
1.008-66.6
3120AURORA
-0
.0
-0.0
-0.0
3130ZEHNDER 0.
00.
2
1.0000
0.0
7.4
31303ZNDR DG
1.0500
0.0 0.959
-36.7
31301ZNDER 1G
1.000030.00
1.0500
0.0
-0.1
0.0
3150KAS TAP10
.20.
9
-10.
2-0
.9
31400STEESE
1.0000.0
R1
R3
R4
1.004-67.0
1.0000
1.0938-30.00
3160KASALEK
1.004-67.0
7.8
1.0
-7.8
-1.0
3170FOX
1.004-67.1
2.4
-0.1
-2.4-0.0
31710FOX
1.028-67.8
R12.4
0.01.00
000.97
501.
0000
* 2.40.0 -0.0
* 0.0-0.0
1.028-97.7
31711FOX-T
-2.4
3260FTWW SUB
-23.1-4.2
23.24.4
1.039-100.4
R1 3.6
1.1
R2 2.8
0.7
R3 1.4
0.3
R4 4.0
1.3
1.00
00
1.04
37-3
0.00 11.9
2.0-11.8-1.2
32400HAMILTON
3230S.FAIRBK
1.015-66.3
-12.
62.
4
12.6-2.4
3270FTWP TAP
20.24.8
-20.
2-4
.8
326FTWW SUB
1.008-63.9
1.047-96.8
1.00
00
1.00
00
-56.0-8.2
17.8
* 56.1
* 0.0
1.00
00
1.014-66.2
3280FTWW PWR
1.013-66.2
1.0
-2.5
3290BADGR TP
0.999-67.3
19.2
2.3
-19.
0-2
.1
-1.0
2.5
31600KASALEK
1.0000
1.0375-30.00
7.8
1.0
-7.8
-0.6
1.034-99.8
3300BADGR RD
7.5
1.5
-7.5
-1.5
3310BROCK TP
0.997-67.6
-11.
5-0
.6
0.999-67.4
0.6
11.5
33000BADGR RD
1.036-100.1
R1
1.3
R2
1.1
R3
0.9
R4
2.3
0.6
1.0000
1.0500-30.00
7.5
1.5
-7.4
-1.2
2.7
0.3
0.3
3320BROCKMAN
0.995-67.7
0.6
-3.4
-0.8
3330HWY PARK
0.995-67.8
8.1
-8.1
-0.0
3.4
-0.0
33200BROCKMAN
1.036-100.9
R2
0.3
R4
1.3
0.3
1.0000
1.0562-30.00
3.4
-3.3
-0.6
0.8
2.0
0.994-67.7
-3.6
3.6
3370DAWSON
0.995-68.0
5.0
-4.7
-5.04.6
33300HWY PARK
1.036-100.6
R1
3.7
1.2
R2
1.4
0.3
R3
1.6
0.4
1.0000
0.9
-6.7
-0.6
-3.9
6.7
1.0500-30.00
3380EIELSON
0.997-67.9
-1.2-0.6
1.20.3
33700DAWSON
1.034-100.5
R1 2.1
0.6
R2 1.2
0.2
R3 0.9
0.2
R4 1.9
0.5
1.00
00
1.05
00-3
0.00 6.2-6.2
-1.0
33701DAWSNCAP
1.007-38.1
SW
1.01
810.05.5-5.5 -5.30.
9976
30.0
0 0.0
3390JOHNSN T
1.001-67.7
-2.2-1.2
2.20.9
1.035-98.2
1.04
38-3
0.00 1.0
-0.9-1.0
33800EIELSON
0.9
3350NPOLESUB
0.994-67.7
-19.5-3.0
19.5
3.0
33401MAPCO A
1.030-97.7
B3
0.97
10 -0.00.0
0.0
-0.0
33402MAPCO B
B4
2.4
6.02.7
-2.4
33403MAPCO C
B7
3.3
B8
0.2
B9
0.7
1.03
12-3
0.00 9.9-3
.7
-6.0 1.029
-100.0 -9.8
1.00
62-3
0.00
6.0
0.97
10
1.02
50-3
0.00
9.0
0.0
0.0
0.0
4.1
1.031-100.1
0.97
50
0.4 3340
MAPCO TP
3.8
32800FTWW PWR
1.013-96.7
1
13.8 4.5
1
5.0
0.8R
3
5.0
0.8R
4
1.8
0.3R
5
1.0
0.2R
1.0000
2.5
-1.0
-2.4
1.0
1.0250-30.00
33500NPOLESUB
0.984-35.3
SS
0.3
0.0
1
2
0.9750
0.956530.00
-19.
5-3
.019
.5
3.8
335NPOLESUB
1.006-64.5
0.9750
0.956530.00
9.9
2.1
-9.9
-1.9
0.9750
0.956530.00
9.9
2.1
-9.9
-1.9
336NPOLEIND
1.006-64.5
4.1
21.7-0.3 -0.8
341CARNEY
1.006-66.9
46.1
-45.76.9
-7.4
-4.1
-21.7-6.8
33801ELSN PWR
1.028-98.6
1
16.0
1
2.5-0.2R
2
-0.2R
3
5.02.5H
4
2.1H
1.00
00 0.5-0.4
1.00
00 0.5-0.5-0.4
-0.50.41.
0000
1.00
00
0.42.5
5.0
5.0
3400JOHNSON
1.001-67.7
2.5-2.5-0.1
3410CARNEY
1.003-67.5
-1.1
4.70.9
34102CNS CAP2
0.953-37.5SW 0.
0
1.05
00
0.99
7630
.00-0.0
0.0
0.0
34100CARNEY T
1.004-97.6
1.00
001.
0000
-4.7* 4.70.9
* 0.0
1.00
00
-0.0
-0.0
41.1-7.8
-40.7
1.004-69.7
6.9
343TECKPOGO
0.991-71.0
12.80.7
-12.7
1.005-71.4
27.8-7.6
-27.75.8
-4.8
345PUMP9TAP
1.005-71.6
18.4-1.9
-18.31.4
34400JARVIS
1.002-105.2
R1 2.2
0.4
R2 0.4
-0.1
R3 0.6
0.9
R4 2.4 9.0-9.0
-3.1 1.02
50-3
0.00
1.00
00
344JARVIS
0.4
342POGO TAP
3.8
346PUMP 9
1.005-71.7
-16.90.4
347MDS
1.005-71.6
1.4-0.8
-1.40.8
-0.616.9
34000JOHNSON
1.035-99.0
R1 1.6
0.1
R2
-0.0 0.95
00
0.98
56-3
0.00 2.5-2.5
-0.1 0.10.8
34700MDS
1.022-102.1
1
1.4
1.01
25-3
0.00 1.4-1.4
0.8 1.00
00
-0.8-0.8
32601FTWW CAP
1.047-96.8
SW-17.8
-0.0 0.017.8-17.8
32600FTWW SUB
1.015-66.1
325WILSON
1.008-63.5
SS
0.3
B 0.0
77.9-8.2
-77.88.5
1.015-44.8
304GOLDHILL
1.001-63.5-3
.1-2
2.9
3.222.1
32501BESS AUX
1.007-33.5
1.00
00
1.00
0030
.00 0.1
-0.1
-0.1
0.1
3201CHENA 1
1.006-66.7 4.
1
32000CHENA 2
1.000-64.7
5
1.0000
1.0125
5.3
-3.0
-4.1 4.2
-4.2 3.3
-5.3
1.004-66.9
9.5
0.8
-9.4
32001CHENA 1
1.000-64.7
B3
1.9
B5
4.7
1.5
B6
1.0000
1.0125
-5.3 3.3
5.3
-3.0
32002CHENA 3
1.000-64.7
-17.
71.
917
.7-1
.9
4.7
13.5
-13.
51.
8-1
.8
32003CHENA
1.005-61.9
SS
0.6
0.4
1
0.5H
2
3
1.0000
1.0000
4.3
0.1
4.9
-4.0
L20
.0
3220SSS TAP
1.015-66.4-6
.5 3.1
6.5
32300SFAIRBNK
1.038-98.8
R1
1.2
R2
0.5
R3
3.1
0.9
1.0000
1.0313-30.00
6.0
0.8
-6.0
-0.5
1.7
0.4
-0.9
3210S. SIDE
32100S.SIDE
1.034-100.3
B2 3.4
1.0
B3 2.8
0.8
B4 3.1
1.00
00
1.03
75-3
0.00 9.4
0.9-9.4-0.3
1.3
3190PEGER RD
1.015-66.5
-6.53.1
6.5
-3.1
3180INTRNATL
1.017-66.5
0.63.5
-0.6-3.6
31900PEGER RD
1.035-99.0
R23.9
1.2
R31.
0000
1.02
50-3
0.007.1
0.5-7.1
1.2-0.2 3.2
16.1R
0.0
3090UNIVTAP
1.018-66.49.
75.
0
-9.6-5.1
31800INTRNATL
R13.1
1.0
R23.8
R32.1
1.00
00
1.03
75-3
0.009.0
1.5-9.0
0.8
-0.9
1.040-100.3
0.9
3100UAF PWR
1.003-66.8
-1.1-4.2
1.14.2
31100UNIV AVE
1.051-98.6
R1
1.9
0.6
R2
0.2
R3
0.9
1.0000
2.10.3
-2.1
-0.3
1.0000
1.0562-30.00
2.3
-2.3
-0.4
2.3
31000UAF PWR
0.974-37.1
1
9.4
5.7
1
2
3
8.3
1.6R
1.0000
1.14.2
-1.1
-4.1
0.1
-3.2
-4.2
0.5
0.1
1.000030.00
1.0562-30.00
1.022-66.2
16.211.3
-16.
1-1
1.2
31200AURORA
1.038-99.1
R1
1.3
0.5
R2
0.1
R4
5.4
1.7
1.0000
1.0313-30.00
7.0
0.4
-7.0
-0.1
3040GOLDHILL
0.2 31302
ZNDER 2G
3070CHENATAP
1.020-66.3
9.7
5.0
-9.7
-5.0
15.36.2
-15.
3-6
.23080CHENAPMP
1.019-66.4
5.7
1.2
-5.7-1.2
30800CHENAPMP
1.037-98.1
R11.7
0.4
R43.9
1.1
1.00
00
1.02
50-3
0.005.7
-1.01.2-5.6
3060MUSKOX
1.019-66.56.3
0.6
-6.3
-0.8
30400GOLDHILL
1.027-67.4
R1 0.7
-0.2 1.00
00
1.00
00 0.7-0.2
-0.7
30401GLDHLSVS
1.035-96.5
S
-0.0-19.1R
SW0.0
0.0-35.3 0.9750
1.00001.0000
-18.0
38.9
* -0.216.2
3.9
0.2
* -38.6
30600MUSK OX
R1
3.4
R3
2.1
R4
0.7
1.0000
1.025030.00
6.3
0.8
-6.3
-0.5 1.037
-39.2
0.5
0.8
0.2
303ESTER
305FT. KNOX
0.994-65.4
31.3
-0.5
-31.2-1.8
302NENANA
0.999-55.1
72.1-13.1
-70.118.4
30300ESTER
1.036-94.2
R11.8
0.4
R31.1
0.2
2.8 -2.8
1.000-62.9
1.00
00
1.04
38-3
0.00
-0.6
30200NENANA
R11.0
0.2
R20.71.
00001.7
0.4-1.7
0.1-0.3
1.024-88.5
300CANTWELL
1.035-77.3
R1
2.8
-1.2
R2
3.1
0.9937-30.00
5.8
-5.8 0.6
30103HEALYSVS
1.038-14.9
S
0.0
0.0
1.0000
0.1
-0.1 6.2
30110HCCP#2-G
0.993-10.1
2
58.5
10.0
R
-0.0
51.430120
HLP#1-G1.007-9.4
1
28.0
0.9750
0.956530.00
0.0
25.3
2.4
1.000030.00
-25.
1
-51.
1
1.0000
0.971030.00
4.5R
-6.1
-0.3
0.6
-23.
7
-17.
5R
4.3
795STEVENS
0.993-26.7
-68.311.4
69.6-8.7
30000CANTWELL
1.040-70.6
R10.0
0.0
R30.6
-0.1
1.03
13-3
0.00 -0.6
0.1-0.1
790DOUGLAS
0.991-23.3
70.0
-69.6
7951STEVENS
1
1.
0000
1.00
00-3
0.00 -0.0
-0.0
0.993-56.7
0.7
1.04
38-3
0.00
0.9750
0.6
0.0
1.00
00
780TEELAND
1.002-18.5
77.7-3.8
-76.47.4
7901DOUGLAS
1.035-25.6
1
6.4
0.2
1.0000
1.0500
6.40.4
-6.4
-0.2
0.1 -4.7
1.00
00
1.3
-0.9
30501FKS #1
0.991-37.9
0.0-6.9 1.
0000
30.0
0-15.6
30502FKS #2
0.991-37.9
1.00
00
1.00
0030
.00 15.6
0.9-15.6-0.2
-0.2 0.91.00
00 15.6
GVEA 2007 WINTER PEAK FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 10:37
Diagram created usingR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\LFcase5b.savR:\Projects\2008Projects\115215\SR\06 LF-Stability\PSSEData1\gvea_2007Eva6.sld
GVEA1.010-47.3
1.010-47.2
-23.90.5
23.9
-0.6
1.014-12.7
1.000030.00
23.9
1.3
-23.
90.
6
Bus - VOLTAGE (PU)/ANGLEBranch - MW/MVAREquipment - MW/MVARKV: <=34.500 <=69.000 <=138.000 >138.000
1.015-12.4
-12.
0-0
.612
.00.
1
1.019-17.3
1.019-17.3
1.0000
1.019-17.3
1.019-17.3
358COLLECT5
355EVACRKWF
353COLLECT1
352EVACRKTX-SVC
1.007-48.2
-73.912.7
75.7
-7.6
-5.1
-75.
77.
6
30100HEALY
360EVATAP2
-7.90.00.0
8.7
0.00.00.0
1.008-40.0
301HEALY
0.0
0.0
0.0
0.0
0.0
0.0-15.2
1.008-63.4
-81.517.4
81.584.4-1.6
-81.517.2 -17.2
367FLTWILSON
1.015-44.9
-0.1
-60.
80.
2
-60.51.1
60.8
-0.2
0.0
-67.
211
.611
.776
.7
1.015-44.7
67.7-11.3
0.00.0
316FLTHEAL-DOUG
SS
3
-0.7
R
33601NPCC 1
0.985-90.1
4
-0.0
R7.3
-7.3
0.0
-0.0
7.3 33602
NPCC 2
37.0
0.9565
-44.
244
.3-0
.74.
1
0.975030.00
0.985-90.1
-19.
819
.8
67.2
-11.
6-6
7.2
60.8
366FLTHEAL-EVA
-19.1
19.4
19.5
67.2
-67.
1 1.000-63.4
306FLTGH-ES
-67.
1
0.0
350EVACRKTAP
0.0
1
24.0
0.3R
-12.
0
-0.6
12.0
0.1
356COLLECT3
357COLLECT4
354COLLECTOR
S
SVC
Eva Creek Wind Farm
kstump
Text Box
LFcase5b - Douglas = 70 MW, HCCP = 58.5 MW, Eva Creek Wind = 24 MW, NPP2 = 0 MW, NPCC = 44.3 MW
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
TUE, SEP 23 2008 18:01
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
TUE, SEP 23 2008 18:01
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn1LF1-1 - No Eva Creek wind Farm, No HCCP
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
TUE, SEP 23 2008 18:01
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
TUE, SEP 23 2008 18:01
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn1LF1-2 - No Eva Creek wind Farm, No HCCP
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 13:13
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 13:13
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn2LF4-1 No Eva Creek Wind Farm, HCCP=58.5 MW
kstump
Text Box
200 ohm Fault Near Wilson
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 13:13
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 13:13
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn2LF4-2 No Eva Creek Wind Farm, HCCP=58.5 MW
kstump
Text Box
200 ohm Fault Near Wilson
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 13:26
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 13:26
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn3LF4-1 No Eva Creek Wind Farm, HCCP=58.5 MW 400 ohm Fault Near Wilson
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 13:26
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
THU, SEP 18 2008 13:26
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn3LF4-2 No Eva Creek Wind Farm, HCCP=58.5 MW 400 ohm Fault Near Wilson
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 8:19
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 8:19
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn4LF1-1 No Eva Creek wind farm, No HCCP, BESS=20 MW
kstump
Text Box
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 8:19
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 8:19
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn4LF1-2 No Eva Creek wind farm, No HCCP, BESS=20 MW
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 8:35
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 8:35
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn5LF1-1 No Eva Creek wind farm, No HCCP, BESS=40 MW
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 8:35
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 8:35
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn5LF1-2 No Eva Creek wind farm, No HCCP, BESS=40 MW
Dyn6LF4 – PSS/E error message from severe unstable pull-out condition.
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 9:57
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 9:57
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn7LF4-1: No Eva Creek wind farm, BESS = 10 MW
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 9:57
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 9:57
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn7LF4-2: No Eva Creek wind farm, BESS = 10 MW
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:07
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:07
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn8LF4-1: No Eva Creek wind farm, BESS = 12 MW
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:07
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:07
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn8LF4-2: No Eva Creek wind farm, BESS = 12 MW
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:37
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:37
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn9LF4-1: No Eva Creek wind farm, BESS = 20 MW
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:37
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:37
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn9LF4-2: No Eva Creek wind farm, BESS = 20 MW
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:47
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:47
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn10LF4-1: No Eva Creek wind farm, BESS = 24 MW
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:47
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 10:47
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn10LF4-2: No Eva Creek wind farm, BESS = 24 MW
CHNL# 395: [VOLT 350 [EVACRKTAP 138.00]]1.2500 0.75000
CHNL# 323: [VOLT 301 [HEALY 138.00]]1.2500 0.75000
CHNL# 55: [POWR 30110 [HCCP #2G13.800] [2 ]]1.0000 0.0
CHNL# 326: [VOLT 304 [GOLD HIL138.00]]1.2500 0.75000
CHNL# 328: [VOLT 335 [N. POLE 138.00]]1.2500 0.75000
CHNL# 97: [VARS 30110 [HCCP #2G13.800] [2 ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 11:01
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA VOLTAGES
CHNL# 396: [POWR BUS 33601 MACH ’3 ’]0.90000 -0.1000
CHNL#’S 398,32: [ANGL BUS 33601 MACH ’3 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL# 397: [POWR BUS 33602 MACH ’4 ’]0.90000 -0.1000
CHNL#’S 399,32: [ANGL BUS 33602 MACH ’4 ’]-[ANGL 5007 [BELUGA7G13.800] [7 ]]0.0 -200.0
CHNL#’S 13,32: [ANGL 30120 [HLP #1 G13.800] [1 ]]-[ANGL 5007 [BELUGA7G13.800] [100.00 -100.0
CHNL#’S 14,32: [ANGL 30110 [HCCP #2G13.800] [2 ]]-[ANGL 5007 [BELUGA7G13.800] [50.000 -150.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 11:01
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
POWER & ANGLE
kstump
Text Box
Dyn11LF4-1: No Eva Creek wind farm, BESS = 40 MW
CHNL# 400: [P-WILSON-EVA CRK]100.00 -100.0
CHNL# 302: [FREQ 325 [WILSON 138.00]]0.01000 -0.0400
CHNL# 401: [Q-WILSON-EVA CRK]100.00 -100.0
CHNL# 95: [VARS 325 [WILSON 138.00] [B ]]0.50000 -0.5000
CHNL# 329: [VOLT 325 [WILSON 138.00]]1.2500 0.75000
CHNL# 53: [POWR 325 [WILSON 138.00] [B ]]0.50000 -0.5000
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 11:01
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA WILSON FLOWS
CHNL# 406: [P_HEALY-NORTH TAP]160.00 -40.00
CHNL# 407: [Q_HEALY-NORTH TAP]100.00 -100.0
CHNL# 412: [P_HEALY-EVA CEEK]100.00 -100.0
CHNL# 413: [Q_HEALY-EVA CREEK]100.00 -100.0
CHNL# 404: [P-HEALY-SOUTH]100.00 -100.0
CHNL# 405: [Q-HEALY-SOUTH]100.00 -100.0
GVEA 2007 WINTER PEAK W/RAILBELT 2005 DYNAMICS FOR WIND INTEGRATION STUDY
WED, SEP 24 2008 11:01
TIME (SECONDS)
SIEMENS POWERTECHNOLOGIESINTERNATIONALR
0.0
1.5000
3.0000
4.5000
6.0000
7.5000
9.0000
10.500
12.000
13.50015.000
FILE: ..\PSSEData1\PresentResults.OUT
GVEA HEALY FLOWS
kstump
Text Box
Dyn11LF4-2: No Eva Creek wind farm, BESS = 40 MW
amullins
Typewritten Text
Dyn1wLF2-1 - 24 MW Eva Creek, No HCCP, 0 MW BESS
amullins
Typewritten Text
Dyn1wLF2-2 - 24 MW Eva Creek, No HCCP, 0 MW BESS
amullins
Typewritten Text
Dyn1wLF2-3 - 24 MW Eva Creek, No HCCP, 0 MW BESS
amullins
Typewritten Text
Dyn4wLF2-1 - 24 MW Eva Creek, No HCCP, 20 MW BESS
amullins
Typewritten Text
Dyn4wLF2-2 - 24 MW Eva Creek, No HCCP, 20 MW BESS
amullins
Typewritten Text
Dyn4wLF2-3 - 24 MW Eva Creek, No HCCP, 20 MW BESS
amullins
Typewritten Text
Dyn5wLF2-1 - 24 MW Eva Creek, No HCCP, 40 MW BESS
amullins
Typewritten Text
Dyn5wLF2-2 - 24 MW Eva Creek, No HCCP, 40 MW BESS
amullins
Typewritten Text
Dyn5wLF2-3 - 24 MW Eva Creek, No HCCP, 40 MW BESS
amullins
Typewritten Text
Dyn9wLF5-1 - 24 MW Eva Creek, 58.5 MW HCCP, 20 MW BESS
amullins
Typewritten Text
Dyn9wLF5-2 - 24 MW Eva Creek, 58.5 MW HCCP, 20 MW BESS
amullins
Typewritten Text
Dyn9wLF5-3 - 24 MW Eva Creek, 58.5 MW HCCP, 20 MW BESS
amullins
Typewritten Text
Dyn10wLF5-1 - 24 MW Eva Creek, 58.5 MW HCCP, 24 MW BESS
amullins
Typewritten Text
Dyn10wLF5-2 - 24 MW Eva Creek, 58.5 MW HCCP, 24 MW BESS
amullins
Typewritten Text
Dyn10LF5-3 - 24 MW Eva Creek, 58.5 MW HCCP, 24 MW BESS
amullins
Typewritten Text
Dyn11wLF5-1 - 24 MW Eva Creek, 58.5 MW HCCP, 40 MW BESS
amullins
Typewritten Text
Dyn11wLF5-2 - 24 MW Eva Creek, 58.5 MW HCCP, 40 MW BESS
amullins
Typewritten Text
Dyn11wLF5-3 - 24 MW Eva Creek, 58.5 MW HCCP, 40 MW BESS
