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NET METERING

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NET METERING Policy Recommendations for Indiana Prepared by: Eric Cotton, ECI Wind and Solar and Laura Ann Arnold, The Arnold Group Prepared for: – PowerPoint PPT presentation

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Title: NET METERING


1
NET METERING
  • Policy Recommendations for Indiana
  • Prepared by
  • Eric Cotton, ECI Wind and Solar and
  • Laura Ann Arnold, The Arnold Group
  • Prepared for
  • Indiana Distributed Energy Advocates, Inc. (IDEA)

Revised December 29, 2009
2
Authors of this Report
  • Eric Cotton, Partner, ECI Wind and Solar (765)
    702-0231, eric_at_eciwindandsolar.com
  • Laura Ann Arnold, Owner, The Arnold Group (317)
    635-1701, laura.arnold_at_thearnoldgroup.biz

3
What is Net Metering?
  • A billing arrangement between a utility company
    and a customer - with a grid-tied, renewable
    energy system - where 1 kilowatt hour generated
    by the customer has the same value as 1 kilowatt
    hour consumed by the customer.
  • Basically, the meter rolls backward and forward
    recording the energy flowing between a customers
    renewable energy system and the utilitys power
    grid. The utility company then allows the
    customer to receive credit for excess energy
    produced.
  • Without net metering, a customers net excess
    generation is essentially donated to the utility
    company, or sold for pennies on the dollar.
  • In the following few slides, 9 key points of any
    net metering policy will be described.

4
Interconnection vs. Net Metering
  • Interconnection the technical rules and
    procedures for customers to plug in to the
    grid.
  • Net Metering the billing arrangement by which
    customers realize savings from their systems
    where 1 kWh generated by the customer has the
    same value as 1 kWh consumed by the customer.

5
1. Individual System Size
  • Customer load and demand should determine system
    size specifications.
  • There is no need for arbitrary system limits.
  • In an ideal net metering policy, the individual
    system size limit would be 2 MW or greater.

6
System Size Limits for State Interconnection
Policies
Connecting to the Grid, October 2009, Vol. 12,
No. 10, Interstate Renewable Energy Council
(IREC), p. 2.
7
System Size Limitations
Connecting to the Grid, September 2009, Vol.
12, No. 9, Interstate Renewable Energy Council
(IREC), p. 2.
8
2. Total Program Size Limits
  • Having a total capacity limit (e.g. a percentage
    of a utilitys peak demand) jeopardizes the
    expansion of on-site renewable generation,
  • The unknown factor of when that arbitrary limit
    will be met prohibits customers from effectively
    planning for future renewable installations.
  • An ideal net metering policy would have no limit
    on total program size.

9
3. Treatment of Net Excess Generation
  • A successful program should facilitate
    indefinite rollover, at retail rates, so
    customers receive full credit for excess
    generation during seasons when renewable output
    is highest, and apply it toward their consumption
    when output is the lowest.
  • Why indefinite rollover? Why not an annual
    payout for net excess generation?
  • Annual payouts could encourage over sizing
    systems in an effort to make money from the
    utility company. This would be in the best
    interest of no one.
  • An ideal net metering policy would allow for
    indefinite rollover at retail rates of net
    excess generation.

10
4. Eligible Renewables
  • There is no reason to exclude any type of
    renewable energy source.
  • In an ideal policy, all types of renewable energy
    would be eligible for participation in net
    metering.

11
Technology Eligibility
Connecting to the Grid, September 2009, Vol.
12, No. 9, Interstate Renewable Energy Council
(IREC), p. 2.
12
5. Eligible Customers
  • No customer class should be excluded from net
    metering.
  • Utilities may argue for the exclusion of
    commercial customers because of the significant
    revenue loss from that customer. Conversely, net
    metering plays an important role for commercial
    customers who invest a substantial amount for
    renewable energy generation. It is
    counterproductive to protect the economic
    interests of one sector while harming the
    economic interests of another.
  • In an ideal net metering policy all customer
    classes would be eligible to participate.

13
6. Utilities Required to Participate
  • Some states only require certain utilities to
    offer net metering.
  • The most common example is states only requiring
    investor-owned utilities (IOUs) to participate.
  • In an ideal policy, all utilities would be
    required to offer net metering.

14
7. Metering
  • Customers may be required to pay for additional
    meters, adding no value to the customer-generator
    or the utility.
  • There may be a requirement to switch to a
    time-of-use rate, where the customer pays
    differing rates depending on the time of day.
    This can be a disadvantage to customers and
    discourage renewable energy generation.
  • In an ideal net metering policy there would be
    no requirement for additional meters or
    time-of-use rate.

15
8. Ownership of Renewable Energy Credits (RECs)
  • Frequently, customer-generators qualify for
    renewable energy credits (RECs) that can be used
    for marketing purposes or to meet legal renewable
    energy targets.
  • An ideal net metering policy would not allow
    utilities to take these credits without paying
    for them.

16
States on REC Ownership
Connecting to the Grid, September 2009, Vol.
12, No. 9, Interstate Renewable Energy Council
(IREC), p. 3.
17
9. Standby Charges or Other Fees
  • A pay-to-play model has been adopted by some
    utilities.
  • Fees can be so costly that they diminish the
    economic incentive net metering is intended to
    offer.
  • Example An REMC in Indiana charges net metering
    customers a monthly Delivery Charge of 38.50,
    but their regular residential electric rate
    customers are only charged a monthly Facilities
    Charge of 30.00. Over-all there is a 8.50
    fee per month to net meter.
  • An ideal net metering policy would not permit
    utility companies to impose standby charges, or
    other fees, on participating customers.

18
Ideal Policy vs. Minimum Needed Changes Now
  • Goal Show SOME progress towards invigorating
    Indianas net metering policy in 2010, by doing
    the following
  • System Size 100 kW
  • Utility Types IOUs only
  • Customer Classes All
  • Eligible technologies Expand
  • Maximum Enrollment 1 of Sum. Peak
  • approx. 200 MW

19
Alternative Minimum System Sizes by
Installation Type
  • 50 kW for residential customers
  • 100 kW for commercial customers
  • 2 MW for industrial agricultural customers
  • 5 MW for governmental entities including state
    local government, K-12, school corporations
    higher education

20
Understanding System Sizes
  • 10 kW 1,000 kW hours/month The power consumed
    by a 1000 1500 square foot home. (higher if
    all electric)
  • Approximately an 800 square-foot solar array made
    up of about 45 solar modules.
  • Approximately an 800 pound wind turbine (12 foot
    blades) on a 60 120 foot tower.

21
Understanding System Sizes
  • 50 kW 5,000 kW hours/month The power consumed
    by a 5000 6000 square foot home. (higher if
    all electric)
  • Approximately a 3,900 square-foot solar array
    made up of about 215 solar modules.
  • Approximately a 6,000 pound wind turbine (30 foot
    blade) on a 100 120 foot tower.

22
Understanding System Sizes
  • 100 kW 12,000 kW hours/month The power
    consumed by a 6,000 square foot office building.
    (higher if all electric)
  • Approximately a 7,800 square-foot solar array
    made up of about 430 solar modules.
  • Approximately a 15,000 pound wind turbine (69
    foot blade) on a 120 140 foot tower.

23
Understanding System Sizes
  • 1,000 kW 120,000 kW hours/month About 1/3 the
    power used by a small school. (higher if all
    electric)
  • Approximately a 78,000 square-foot solar array
    made up of about 4,300 solar modules.
  • Approximately a 150,000 pound wind turbine (125
    foot blade) on a 150 200 foot tower.

24
Net Billing vs. Net Metering
  • Intentional Deceptive Marketing Campaign Wolf
    in sheeps clothing.
  • Customers often confuse it with true net
    metering.
  • Some REMCs have adopted this phrase.
  • Nothing NET about it.
  • Uses Avoided Cost!

25
Net Metering or Feed-in Tariff
  • Net-metering is designed to create incentives to
    install systems that generate power equal to or
    less than the predicted on-site load.
  • Feed-in tariff (FiT) is designed so that systems
    can be installed at sites with no load, and
    generate electricity that is purchased, under
    contract, by the local utility.

26
Net metering vs. Feed-in Tariff
  • Net metering and Feed-in Tariffs (FiT) can
    co-exist and are not mutually exclusive.
  • Net metering and FiT programs in place
    simultaneously can deliver great options to a
    wide group of potential renewable energy system
    owners.
  • They can exist together, and consumers will send
    clear messages to policy makers about their
    preferences.

27
Advantages of a Strong Net Metering Policy
  • Provides a market-based incentive that encourages
    renewable energy production.
  • Facilitates growth of consumer participation and
    cumulative capacity of renewable energy systems.
  • Gives consumers incentive to size their system to
    provide for their entire load.
  • Encourages clean energy production and energy
    independence.

28
What is Indianas Net Metering Policy?
Eligible Renewables Customers Size Limit Overall Enrollment Limit Utilities Required to Net Meter Handling of Excess
Indianas Policy - Photovoltaic Wind Small Hydroelectric - Residential K-12 Schools 10 kW 0.1 of utilitys most recent peak summer load Investor-owned utilities Credited to customers next bill
An Ideal Policy All All 2 MW and above None All utilities Indefinite rollover to customers next bill at retail rates
  • In Indiana, utilities may not charge customers
    any fees for additional metering for single-phase
    configurations, for customers request to net
    meter, or for an initial net metering facility
    inspection.
  • While net excess generation is credited to
    customers next bill, Indianas rules do not
    address the rollover of net excess generation for
    continuous customers.
  • There are some positive points to Indianas
    existing net metering policy, but there is
    enormous opportunity for improvement.

29
Indiana IOU 2007 Net Metering Summary
Investor Owned Utility (IOU) Total Number of Net Metering Customers and Facilities Number, Size and Type of Net Metering Facilities
Duke Energy Indiana 30 29 solar ranging from 1.0 to 28.8 kW 1 9.0 kW wind
Indiana Michigan Power 1 1 1.1 kW solar
IPL 5 Total capacity of 6.86 kW solar
NIPSCO 4 1 2.5 kW solar 1 1.36 kW solar 1 640 W solar 1 10.0 kW wind
SIGECO/Vectren 1 1 5.0 kW solar
30
IURC IOU 2008 Net Metering Summary Data1
Investor Owned Utility (IOU) Total Number of Net Metering Customers and Facilities Number, Size and Type of Net Metering Facilities
Duke Energy Indiana 44 42 solar ranging from 1.0 to 19.8 kW2 2 wind ranging from 9.0 - 10 kW
Indiana Michigan Power 4 2 - Solar ranging from 1.1 2.8 kW 2 Wind ranging from 1.9 5.5 KW
IPL 5 5 Solar with total capacity of 5.75 kW
NIPSCO 7 5 Solar ranging from 0.2 KW to 3 KW3 3 Wind ranging from 0.4 KW to 10KW
SIGECO/Vectren 4 3 Solar ranging from 5.0 16 kW2 1 Wind at 1.8 KW
1 Represents bets available data from IURC as
of 12/28/09 2 Corrected Data 3 NIPSCO
recorded 8 systems from 7 customers. One
customer has 2 systems.
31
How Do We Measure Up?
  • 42 states and D.C. have adopted net metering
    policies.
  • Below are statistics comparing Indiana to the
    other net metering states
  • Have More Eligible Renewables 37 States
  • Have More Eligible Customers 40 States
  • Have Greater Size Limit 40 States
  • Have Greater Overall Limit 36 States
  • The following map is from the Database of State
    Incentives for Renewables Efficiency (DSIRE).
    This map highlights individual system limits
    across the United States.
  • DSIRE indicates 44 states (including D.C.) have
    net metering available. Three states offer net
    metering voluntarily, and those 3 states are not
    included in the above statistics.

32
Net Metering
www.dsireusa.org / December 2009
ME 660co-ops munis 100
WA 100
MT 50
ND 100
VT 250
NH 100
MN 40
MI 150
OR 25/2,000
MA 60/1,000/2,000
WY 25
WI 20
RI 1,650/2,250/3,500
IA 500
IN 10
CT 2,000
NV 1,000
CO no limitco-ops munis 10/25
NE 25
NY 25/500/2,000
OH no limit
IL 40
PA 50/3,000/5,000
WV 25
UT 25/2,000
KS 25/200
NJ 2,000
MO 100
KY 30
CA 1,000
NC 1,000
DE 25/500/2,000
NM 80,000
OK 100
MD 2,000
AZ no limit
AR 25/300
DC 1,000
GA 10/100
VA 20/500
AK 25
LA 25/300
FL 2,000
42 states DC have adopted a net metering
policy
HI 100KIUC 50
State policy
Voluntary utility program(s) only

PR 25/1,000
State policy applies to certain utility types
only (e.g., investor-owned utilities)
Note Numbers indicate individual system capacity
limit in kW. Some limits vary by customer type,
technology and/or application. Other limits might
also apply.
33
Net Metering Grades 2007
www.freeingthegrid.org / November 2009
DC F
No Statewide policy
Grade A
Grade F
Grade B
Grade C
Grade D
34
Net Metering Grades 2008
www.freeingthegrid.org / November 2009
DC C
No Statewide policy
Grade A
Grade F
Grade B
Grade C
Grade D
35
Net Metering Grades 2009
www.freeingthegrid.org / November 2009
DC B
No Statewide policy
Grade A
Grade F
Grade B
Grade C
Grade D
36
Vectren and Duke Energy
  • Interestingly, two utility companies in Indiana
    have voluntarily expanded their net metering
    tariff.
  • Vectren allows Municipal Corporations to net
    meter. This is in addition to the residential
    customers and K-12 schools, which are required by
    the state of Indiana.
  • Duke Energy permits small commercial customers to
    net meter. Again, this is along with residential
    customers and K-12 schools, which are required in
    Indiana.
  • Compared to Indiana, all states with net metering
    policies have a larger number of eligible
    customer classes, and some utilities in Indiana
    are opening eligibility to additional customers.
  • Now is the time for Indiana to catch up with (or
    surpass) other states, and to align with what
    utility companies in this state are offering.

37
Tipmont REMC
  • Since it is not an investor-owed utility, Tipmont
    REMC is not required to offer net metering.
    However, they have done so voluntarily. Their
    policy is superior to that of the current Indiana
    rule in the following ways
  • Tipmont REMC allows renewable energy produced by
    wind, solar, water and various types of biomass
    to net meter. Biomass is not an eligible
    renewable energy source in Indianas policy.
  • Tipmont allows residences, small businesses and
    governmental accounts to net meter. Small
    businesses and government offices are left out of
    the eligible customer classes in the current
    Indiana rule.

38
Hopes for the Future of Net Metering
  • Indiana will improve its net metering policy,
    encouraging utilization of the states abundant
    resources to generate renewable energy.
  • More states will adopt a net metering policy.
  • Ideally, a national renewable energy policy will
    be implemented at the federal level.

39
Want to Learn More?
  • Interstate Renewable Energy Council
    www.irecusa.org
  • Database of State Incentives for Renewables
    Efficiency www.dsireusa.org
  • Network for New Energy Choices www.newenergychoice
    s.org
  • Freeing the Grid 2009 Edition Best and Worst
    Practices in State Net Metering Policies and
    Interconnection
  • Indiana Renewable Energy Association
    www.indianarenew.org

40
What Can You Do?
  • Contact your State Legislators and urge they
    support legislation to change net metering in
    2010.
  • Send a Letter to the Editor of your local
    newspaper urging changes in net metering this
    year.

41
Additional Slides
42
Interconnection of Renewable Energy Systems -
SAFETY
  • Renewable Energy and Distributed generation
    systems have well defined safety standards.
  • IEEE 1547 defines the standards for
    interconnection devices.
  • Tighter standards than the utility company.
  • Dictates when a device may interconnect, and when
    it must disconnect.
  • UL 1741 is standard for inverters
    (interconnection devices).
  • Certifies that device meets the standards of IEEE
    1547
  • Virtually all devices on the market have UL 1741
    certification
  • Virtually all utilities already SPECIFY UL 1741
    devices.

43
Interconnection of Renewable Energy Systems -
SAFETY
  • BOTTOM LINE
  • Grid inter-tied renewable energy systems have
  • been installed in the United States since the
    enactment of the
  • federal PURPA law in 1978. These systems
    cumulatively
  • have over half a billion operating hours,
    apparently without
  • any reported personal injury or property damage
    claims
  • attributed to their interconnection and
    operation.1"

1Allocating Risks An Analysis of Insurance
Requirements for Small-Scale PV Systems, American
Solar Energy Society Annual Conference, June
2000, Madison WI, pg. 6.
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