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iTEC IEEE Dearborn Michigan, June 29, 2016
Katherine McKenzie Hawaii Natural Energy Institute University of Hawaii at Manoa
Interaction of EVs In a High Renewables Island Grid
hawaiiindependent.net
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Hawaii Natural Energy Institute
• At the University of Hawaii Manoa
• Established by the Legislature in 2007
• HNEI leads many significant public-private partnerships
focused on the development, testing & evaluation of
emerging energy technologies to reduce Hawaii’s
dependence on fossil fuels
Programs:
o Alternate fuels
o Renewable generation
o Fuel cells & batteries
o Energy efficiency &
Transportation
o Grid Integration
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1) Renewable
Portfolio
standards
•30% by 2020
•40% by 2030
•70% by 2040
•100% by 2045
3
Objectives
2) Straighten the Duck Curve
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HNEI is partnering with the Florida Solar Energy
Center on a US DOT program to transform the
country’s transportation network into a fully
integrated ‘smart’ EV deployment coupled with a
‘smart’ electric grid.
HNEI’s focus is the technical and economic
benefits and challenges of EVs on an electric grid
characterized by high penetration of intermittent
renewable energy.
Electric Vehicle Transportation Center
(EVTC)
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EV Integration on the Grid
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Hawaii Today
• All fossil fuels imported
• 77% of electricity is fossil
• Electricity costs over time
follow oil cost
• Highest electricity rates in
the US at $0.28 per kWh
• Renewable produced 23%
electricity
Jet Fuel 34%
Electricity 32%
Petrol/Marine Fuel 27%
Other 7%
Petroleum use in Hawaii
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Hawaii’s Electric Rates Track Oil Prices
Source: US DOE online “eGallon”
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Source: US DOE eGallon (May 2016)
Even with the low price of oil…
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Why Hawaii for EV/Grid Integration?
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Wind and Solar Resources High day-to-day variation
Po
we
r o
utp
ut
Wind Solar
10
Day in the year Day in the year
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Pathway to a Renewable Energy Future
• Develop models to evaluate future changes to Hawaii
energy systems
• Identify strategies to maximize use of renewable
generation
• Estimate costs and impacts to state economy.
Use quantitative analysis to inform policy.
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• GE Multi Area Production Simulation (GE MAPS) was
used for power grid simulation; fuel use, reduction in
wind and solar curtailment
• Potential, cost effective pathways to 40% wind plus
solar identified
• “Advanced” mitigations needed for higher penetrations
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Data &
Scenarios
Dispatch &
Cost
HNEI-GE Modeling
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Hawaii’s Renewable Portfolio Standards
• 30% by 2020
• 40% by 2030
• 70% by 2040??
• 100% by 2045??
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24 Hour Load Profile with High Renewable Penetration
Leads to
curtailment
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• Reduce renewable energy output
Option – curtailment
• Increase utility load midday
Option – charge electric EVs midday
• Decrease utility load at peak
Option – reduce EV charging at peak
Teach the Duck to Fly*
*Lazar, J. (2016). Teaching the “Duck” to Fly, Second Edition. Montpelier, VT: The Regulatory
Assistance Project.
Available at: http://www.raponline.org/document/download/id/7956
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Analysis Assumptions
• Average plug-in EV uses 30 kWh/100mi
• 11,000 miles traveled per year
• Over 130,000 EVs on Oahu by 2045, and 260,000 with
EIA high oil price (~ 22% of passenger vehicles on
Oahu)
*Update to Factors Affecting EV Adoption: A Literature Review and
EV Forecast for Hawaii, Coffman, M., Bernstein , P. & Wee, S., (2015)
Reduce Curtailment Using EV Charging
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Profile 1: 30% daytime, 70% at night
Perfect Tracking
Possible EV Charging Profiles
Uniform Charging
Profile 2: Same as Profile 1, but 0% Peak
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Reduction in Curtailed Energy Resulting from EV
Charging
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
Base Case 1500W/100S
Base Case 4500W/300S
Base Case 3500W/500S
Base Case 2700W/300S
Red
ucti
on in
Cur
taile
d En
ergy
Reduction in Curtailed Energy by Base Case: Percent Used
by EV Fleet
Uniform Charging
Perfect Tracking
Profile 1
Profile 2
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Progress in EV Mileage On Oahu
32
36
44
0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
20
25
30
35
40
45
50
2012 2016 Scenario 2020 Scenario
W&
S
(MP
Ge)
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Conclusions
• Hawaii presents a “Post Card from the Future”
• EVs do not reduce curtailment as much as expected,
especially wind
• Need midday/workplace charging on Oahu
Acknowledgement: work performed under the Electric Vehicle
Transportation Center and funded under a subaward from the
Florida Solar Energy Center, through a grant from the U.S.
Department of Transportation
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