Post on 23-Apr-2018
Energy Storage Controls Modeling for
Distribution Planning Roger C. Dugan, FIEEE
EPRI, Knoxville, TN
14TD0671
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Distribution Planning and Storage
• What do distribution planners need to include storage?
• EPRI has been doing research since 2009
• Many findings are encapsulate in OpenDSS storage models
• As US states and Canadian provinces push for more storage, there will be more advances in the near future
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“Storage” Element Model in OpenDSS
% Eff. Charge/Discharge Idle | Discharge | Charge
Idling Losses
kW, kvar
kWh
STORED
Other Key
Properties
% Reserve
kWhRated
kWhStored
%Stored
kWRated
etc.
A Generic Storage Model with Key Planning Characteristics
“StorageController” Element in OpenDSS
Discharge Mode
Charge Mode
kW Target
Discharge Time
Total Fleet kW Capacity
Total Fleet kWh
et. al.
Storage “Fleet” Substation
V, I Comm Link
Time + Discharge rate
Peak Shaving
Load Following
Loadshape
Controls One or More Storage Elements from a Remote or Local Location
Control Modes in OpenDSS
• Static:
• Time:
• Peak Shave:
• Load Following:
• Loadshape:
• Dynamics:
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We have found the following modes to be useful in
modeling Storage in Distribution System Analysis
Sequential Power Flow
Electromechanical Transients
Control Modes
• Static: A solution of one power flow state with storage discharging or charging at specified rates or idling. This provides a partial picture of the situation by simulating limiting conditions but does not reveal issues that might be exposed through time-series simulation.
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Control Modes
• Time: Trigger ON at a specified time at a specified constant discharge or charge level.
• Peak Shave: Discharges when load exceeds a specified value and attempts to limit the load current or power to the value. Charges at a scheduled time.
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Control Modes
• Load Following: Triggers ON at a specified time and attempts to limit the load to the value at that time by following the load.
• Loadshape: Storage charge and discharge cycle is determined by a predefined shape.
• Dynamics: For modeling fast-changing phenomena such as frequency control on microgrids.
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SOME EXAMPLES …
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Load Shapes With and Without Storage
Mode=Peak Shave, Target=8000 kW, Storage=75 kWh
Charge=2:00 @ 30%
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
0 50 100 150 200 250 300
Hours
kW
0
10
20
30
40
50
60
70
80
Base kW
Net kW
kWh Stored
Simple Peak Shave Example with 3-Hour Storage
From EPRI
Smart Grid Demo - AEP
Community Energy Storage
Load Shapes With and Without Storage
Mode=Peak Shave, Target=8000 kW, Storage=25 kWh
Charge=2:00 @ 30%
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
0 50 100 150 200 250 300
Hours
kW
0
5
10
15
20
25
30
Base kW
Net kW
kWh Stored
“Ran Out of Gas”
Simple Peak Shave Example With 1-Hour Storage
Detail on Peak Shaving Application
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0
5
10
15
20
25
30
0
2000
4000
6000
8000
10000
170 180 190 200 210 220 230
kW
h
kW
Hours into Simulation
Load Following with Storage, 25 kWh Storage UnitsDischarge Trigger @ 1300, 30% charge rate @ 0200
No Storage
Storage
kWh Stored
Using Storage to Extend Solar PV
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-500
0
500
1000
1500
2000
0
1000
2000
3000
4000
5000
6000
7000
8000
1 1441
Demand_wPV+Storage
Demand_wPV
Storage Ouput
PV Output
De
man
d (k
W)
PV
an
d S
otr
age
Ou
tpu
t (k
W)
Minutes
Charging
Discharging
Source: EPRI, 2012, Analysis of Distribution System Effects of Energy Storage Through Simulation and
Modeling, Palo Alto, CA, US. 1024285
Using Storage for Smoothing PV
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Power Output for the Smoothing Operation
15
-1500
-1000
-500
0
500
1000
1500
0 1440 2880 4320 5760 7200 8640
ES O
utp
ut
(kW
)
Minutes
Dynamics Modeling of VSC-Based DESS Device for Frequency Control
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Signal provided by
external controller
Inverter: Intelligent Volt-Var Control
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Sunderman, Dugan, Smith, “Open Source Modeling of Advanced Inverter Functions for Solar Photovoltaic
Installations “, Paper No. 14TD0479
Conclusions
• Static power flows provide a partial picture by simulating limiting conditions
• Does not reveal issues that might be exposed through time-series simulation.
– Storage is a “disruptive” technology that alters the loadshape
• Dynamics simulation capability needed for frequency control of microgrids, etc.
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Questions?
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