High-Penetration Renewables for Village Power – a …islandedgrid.org/wp-content/uploads/2016/05/MCDOWALL_JIM_Islanded...High-Penetration Renewables for Village Power – a Case

High-Penetration Renewables for Village Power – a Case Study

Islanded Grid Wind Power Workshop Fairbanks – April 29, 2016

NTPC Colville Lake microgrid

–  An electrical island! 50 km north of Arctic Circle

–  150 inhabitants

–  150 kW peak; 30 kW base load

–  Diesel fuel delivery only by ice road

•  Cost of generation ~$2.60 / kWh!

–  New power station

•  2 x 100 kW diesels + 150 kW diesel

•  50 kW of solar in summer 2014 – expanded in 2015

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The need for storage

–  Energy storage needed to maximize fuel savings

–  Without storage a diesel must be running 24 / 7

•  Covering sudden PV ramps

•  PV curtailment likely in order to run diesel efficiently

•  No possibility to cover entire load with PV

–  RFP for 200 kW / 200 kWh ESS

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Project timeline

–  Contract signed July 2014

–  Saft Intensium Max 20M container 232 kWh with 240kW ABB PCS100

–  Development of cold-weather package

•  Insulation for –50°C

•  Hydronic heating coil for glycol heating

–  Delivery to Edmonton for integration December 2014

–  Ice-road transportation February 2015

–  Installation / commissioning September 2015

–  Started diesel-off operation January 2016

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Importance of modeling

–  Modeling allows fuel savings to be quantified

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0 5 10 15 20 250

50

100

150

Time (hr)

Pow

er (k

W)

PVPVnetLoadDiesel

0 5 10 15 20 25-100

-50

0

50

Time (hr)

Batt

Pow

er (k

W)

0 5 10 15 20 250

50

100

Time (hr)

SOC

(%)

65% fuel saved

0 5 10 15 20 250

50

100

150

Time (hr)

Pow

er (k

W)

0 5 10 15 20 25-100

0

100

Time (hr)

Batt

Pow

er (k

W)

0 5 10 15 20 250

50

100

Time (hr)

SOC

(%)

PVPVnetLoadDiesel

37% fuel saved

0 5 10 15 20 250

50

100

150

Time (hr)

Pow

er (k

W)

0 5 10 15 20 25-50

0

50

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Time (hr)

Batt

Pow

er (k

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0 5 10 15 20 2520

40

60

80

Time (hr)

SOC

(%)

PVPVnetLoadDiesel

5% fuel saved

PV output

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Optimizing PV size

–  ESS allows network operation without diesels

•  Voltage-source 4-quadrant PCS sets frequency and voltage

•  Allows PV array to be sized larger than connected loads

•  How much PV is optimum?

–  Used NTPC-supplied load and Enphase-supplied PV data

–  Recommended PV expansion to ~130 kW

•  Based on just avoiding PV curtailment on average production day

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The finished product

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Next steps

–  Test PV curtailment functionality

–  Quantify fuel savings

–  Optimize design for future village-power installations

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Questions?

10 Remote Microgrid Case Study - Colville Lake, NT