Net Metering in New Hampshire

Net Metering

Only 30 ft tall kicks in at 6mph and at 12mph produces 36kw enough to power 30 average homes

Last Updated May 6, 2016

Program Overview

    • Implementing Sector:


    • Category:

      Regulatory Policy

    • State:

      New Hampshire

    • Incentive Type:

      Net Metering

    • Eligible Renewable/Other Technologies:

      Geothermal Electric, Solar Thermal Electric, Solar Photovoltaics, Wind (All), Biomass, Hydroelectric, Hydrogen, Combined Heat & Power, Fuel Cells using Non-Renewable Fuels, Landfill Gas, Tidal, Wave, Wind (Small), Hydroelectric (Small), Anaerobic Digestion, Fuel Cells using Renewable Fuels, Other Distributed Generation Technologies

    • Applicable Sectors:

      Commercial, Industrial, Local Government, Nonprofit, Residential, Schools, State Government, Federal Government, Agricultural, Institutional

    • Applicable Utilities:

      All utilities

    • System Capacity Limit:

      1 MW

    • Aggregate Capacity Limit:

      100 MW

    • Net Excess Generation:

      Credited to customer’s next bill as a kWh credit and carried forward indefinitely. Customer may elect to receive payment (at the utility’s avoided cost rate) for any excess credit remaining at the end of an annual period.

    • Ownership of Renewable Energy Credits:

      Customer-generator owns RECs. However, RECs associated with the net excess generation purchased by the utility at the end of an annual billing period may be claimed by the utility.

    • Meter Aggregation:

      Virtual net metering allowed


Note: H.B. 1116, enacted in May 2016, raises New Hampshire’s net metering aggregate capacity limit from 50 MW to 100 MW. The bill also directs the Public Utilities Commission to initiate a proceeding to develop new alternative net metering tariffs.


New Hampshire requires all utilities selling electricity in the state to offer net metering to customers who own or operate systems up to one megawatt (MW) in capacity that generate electricity using solar, wind, geothermal, hydro, tidal, wave, biomass, landfill gas, bio-oil, or biodiesel. Combined heat and power (CHP) systems that use natural gas, wood pellets, hydrogen, propane, or heating oil are also eligible.*

System Capacity Limit

The New Hampshire Public Utilities Commission’s (PUC) rules for net metering distinguish between small customer-generators (up to 100 kilowatts) and large customer-generators (greater than 100 kW and up to 1 MW). The rules vary slightly for each customer type.

Aggregate Capacity Limit

The aggregate statewide capacity limit of all net-metered systems is 100 MW. Fifty MW of this limit is allocated to the four electric distribution utilities that were subject to PUC jurisdiction in 2010, multiplied by each utility’s percentage share of the “total 2010 annual coincident peak energy demand.” The other 50 MW is allocated to the state’s three investor-owned utilities, multiplied by each utility’s share of the “total 2010 annual coincident peak energy demand.” Of this second 50 MW, 80% must be reserved for facilities up to 100 kW, and 20% is reserved for facilities over 100 kW and up to 1 MW. CHP systems may account for a maximum of 4 MW of the state’s aggregate net-metering limit.

If any utility reaches any aggregate cap before alternative tariffs are approved or adopted (see “Net Metering Alternative” below), eligible customer-generators may continue to interconnect under temporary net metering tariffs under the same terms and conditions as net metering under the 100 MW cap. These customers must transition to alternative tariffs once they are approved or adopted.

S.B. 378, enacted in May 2016, limits the amount of capacity space an entity may reserve in the net metering interconnection queue to 20% of the total net metering utility-specific allocation.

Net Excess Generation

Net excess generation (NEG) is carried forward indefinitely to the customer’s next bill as a kilowatt-hour (kWh) credit. Customers with NEG at the end of an annual period may elect to receive payment for NEG at the utility’s avoided cost rate. Customers retain ownership of renewable energy credits (RECs) associated with generation. However, RECs associated with the net excess generation purchased by the utility at the end of an annual billing period may be claimed by the utility.

For systems up to 100 kW, a single meter that measures both the inflow and outflow of electricity internally is used. A bi-directional meter is used for larger systems. Utilities may install additional meters at their own expense.

Each utility’s net metering tariff must be identical, with respect to rates, rate structure, and charges, to the tariff under which the customer would otherwise take default service from the utility. The PUC is authorized to develop a methodology for net metering under a time-of-use tariff.

Virtual Net Metering

S.B. 98 (2013) allows a customer-generator to become a group host for a group of customers who are not customer-generators. The kWh credits generated by a host system will be shared between the members of the group. The group of customers must be default service customers of the same electric distribution utility as the host. The host must also provide a list of the group members to the PUC and the electric distribution utility, and must certify that all members of the group have executed an agreement with the host. Any costs necessary to upgrade a utility’s information systems in order to accommodate the billing arrangement associated with virtual net metering must be paid by the group host.

Net Metering Alternative

H.B. 1116, enacted in May 2016, directs the PUC to initiate a proceeding to develop new alternative net metering tariffs and issue an order initially approving or adopting such tariffs within 10 months of the bill’s effective date (05/02/2016). In developing these tariffs, the PUC is directed to consider the costs and benefits of customer-generator facilities, an avoidance of unjust and unreasonable cost shifting, rate effects on all customers, alternative rate structures, the size of facilities eligible to receive net metering tariffs, timely recovery of lost utility revenue through the use of an automatic rate adjustment mechanism, and utilities’ administrative processes required to implement such tariffs. Current net metering tariffs will be available to eligible customer-generators until December 31, 2040.

* CHP systems up to 30 kW must have a system efficiency of at least 80% to be eligible. CHP systems greater than 30 kW and up to 1 MW must have a fuel system efficiency of at least 65%.


    • Date Enacted:
      8/25/1998 (subsequently amended)

    • Effective Date:

    • Date Enacted:
      1983 (subsequently amended)

    • Date Enacted:
      01/12/2001 (subsequently amended)

    • Date Enacted:

    • Effective Date:

    • Date Enacted:

    • Effective Date:


  • Organization:

    New Hampshire Public Utilities Commission

  • Address:

    21 South Fruit Street
    Concord, NH 03301

  • Phone:

    (603) 271-2431

  • E-Mail:



    • 05/06/2016 by Autumn Proudlove

      On May 2, 2016, H.B. 1116 and S.B. 378 were enacted. H.B. 1116 increases the state’s net metering aggregate cap from 50 MW to 100 MW and reserves 80% for facilities up to 100 kW and 20% for facilities over 100 kW and up to 1 MW. H.B. 1116 also directs the PUC to develop alternative net metering tariffs. S.B. 378 sets a limit on the amount of capacity an entity may reserve in the net metering interconnection queue.

  • 09/09/2015 by Autumn Proudlove

    Annual review; no policy changes. Several utilities have already reached or are near to reaching their aggregate net metering caps. NH Electric Co-op has reached their cap, but is still offering net metering to new participants at a reduced rate.

36KW Wind Turbine, Power Produced Each Month

The charts below gives a rough estimate of the power produced each month by Change Wind Corporations 36KW Helical Wind Turbine, and by a rough estimate I mean, the wind changes daily and your not going to get a wind to blow steadily at 10mph for a whole month.

 The main reason for the chart is to show how much electricity can be produced each month which is a lot, and that’s in the present time, what will it be 5 years from now or 10-20 years from now.

The cost per kilo watt hour has risen 30% or more in much of the USA over the past 10 years, some places a lot more then 30% and costs will continue to rise as coal mines are shut down and demand continues to rise.

Take the numbers from the chart and add about 50% more to that total and that’s the amount of power Change Winds 36KW wind turbine will produce 10-15 years from now.