Monthly wholesale electricity prices and demand in New England, June 2024

Wholesale power prices averaged $30.91 per megawatt-hour (MWh) in the Real-Time Energy Market in June 2024, down 12% compared to the previous year.1 Day-Ahead Energy Market averages were $35.14/MWh, up 5% from June 2023.  

By the numbers

June 2024 and Percent Change from June 2023 and May 2024June 2024June 2023May 2024
Average Real-Time Electricity Price ($/megawatt-hour)$30.91-12.1%17.8%
Average Natural Gas Price ($/MMBtu)$1.92-26.2%20.0%
Peak Demand24,097 MW29.0%39.1%
Total Electricity Use10,110 GWh9.6%17.2%
Weather-Normalized Use29,657 GWh4.4%15.8%

Drivers of wholesale electricity prices

In general, the two main drivers of wholesale electricity prices in New England are the cost of fuel used to produce electricity and consumer demand.

Power plant fuel

Fuel is typically one of the major input costs in producing electricity. Natural gas is the predominant fuel in New England, used to generate 55% of the power produced in 2023 by New England’s power plants, and natural gas-fired power plants usually set the price of wholesale electricity in the region. As a result, average wholesale electricity prices are closely linked to natural gas prices.

The average natural gas price during June was $1.92 per million British thermal units (MMBtu).3 The price was down 26% from the June 2023 average Massachusetts natural gas index price of $2.60/MMBtu. The Mass. index price is a volume-weighted average of trades at four natural gas delivery points in Massachusetts, including two Algonquin points, the Tennessee Gas Pipeline, and the Dracut Interconnect.

Wholesale electricity and natural gas prices

Electricity demand

Demand is driven primarily by weather, as well as economic factors. Energy usage during June increased 9.6% to 10,110 GWh from the 9,222 GWh used in June 2023. The average temperature during June was 71˚ Fahrenheit (F) in New England, up 6˚ from the previous June. The average dewpoint, a measure of humidity, was 58˚F in June, up 2˚ from the previous June. There were 81 cooling degree days (CDD) during June, while the normal number of CDD in June is 47 in New England.4 In June 2023, there were 43 CDD. There were 5 heating degree days (HDD) during June, while the normal number of HDD in June is 50 in New England. In June 2023, there were 70 HDD.

Consumer demand for electricity for the month peaked on June 20 during the hour from 4 to 5 p.m., when the temperature in New England was 91°F and the dewpoint was 70°. Demand reached 24,097 MW. The June 2024 peak was 29.0% higher than the June 2023 peak of 18,684 MW, set during the hour from 5 to 6 p.m. on June 26, when the temperature was 76°F and the dewpoint was 67°.

Peak demand is driven by weather, which drives the use of heating and air conditioning equipment. The all-time high winter peak was 22,818 MW, recorded during a cold snap in January 2004 when the temperature was -1°F and the dewpoint was -20°. The all-time peak demand in New England was 28,130 MW, recorded during an August 2006 heat wave, when the temperature was 94°F and the dewpoint was 74°. Air conditioning use is far more widespread than electric heating in New England, so weather tends to have a relatively greater impact on the summer peak than the winter peak.

Monthly peak demand and total and weather-normalized energy use

Resource mix and emissions

The mix of resources used in any given time period depends on price and availability, as well as supplemental resource commitments needed to ensure system stability.

Natural gas-fired and nuclear generation produced about 80% of the 9,499 GWh of electric energy generated within New England during June, at about 55% and 25%, respectively. Renewable resources generated about 13% of the energy produced within New England, including 4.4% from wood, refuse, and landfill gas; 2.6% from wind; and 5.6% from solar resources. Oil and coal-fired resources together generated 0.3%. Hydroelectric resources generated 5.8%. The region also received net imports of about 772 GWh of electricity from neighboring regions.

New England power plants produced an estimated 2.69 million metric tons of CO2 in June 2024, a 0.1% increase from the previous June.    

Estimated CO2 emissions from natural gas-fired plants—typically the region’s largest source of power system emissions, due to the significant amount of electricity these resources produce—did not decrease significantly year over year, falling from 2.09 million metric tons to 2.08 million metric tons. These resources accounted for 77% of the power system’s estimated emissions.

Together, oil- and coal-fired resources produced an estimated 22,610 metric tons of CO2 in June 2024 (0.8% of the total), up from an estimated 5,210 metric tons in June 2023. Because the region’s wholesale electricity markets select the lowest-priced resources needed to meet demand, oil- and coal-fired resources tend to run more frequently when natural gas prices rise, and less frequently when natural gas prices are low.

CO2 emissions from other resources—mostly refuse and wood—were estimated at 590,516 metric tons, down 1% from June 2023. These resources accounted for about 22% of the power system’s estimated CO2 emissions for the month.


1One megawatt (MW) of electricity can serve about 750 to 1,000 average homes in New England. A megawatt-hour (MWh) of electricity can serve about 1,000 homes for one hour. One gigawatt-hour (GWh) can serve about 1 million homes for one hour.

2Weather-normalized demand indicates how much electricity would have been consumed if the weather had been the same as the average weather over the last 20 years.

3A British thermal unit (Btu) is used to describe the heat value of fuels, providing a uniform standard for comparing different fuels. One million British thermal units are shown as MMBtu.

4A degree day is a measure of heating or cooling. A zero degree day occurs when no heating or cooling is required; as temperatures drop, more heating days are recorded; when temperatures rise, more cooling days are recorded. The base point for measuring degree days is 65 degrees. Each degree of a day’s mean temperature that is above 65 degrees is counted as one cooling degree day, while each degree of a day’s mean temperature that is below 65 degrees is counted as one heating degree day. A day’s mean temperature of 90 degrees equals 25 cooling degree days, while a day’s mean temperature of 45 degrees equals 20 heating degree days.

5The factors used to calculate estimated CO2 emissions were updated in January 2024. ISO New England analysts regularly review and refine the methodology used to develop these emissions factors, in order to reflect the characteristics of New England’s generating fleet and improve the accuracy of the estimates.

Historical weather data provided by DTN, LLC.; Underlying natural gas data furnished by ICE.

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monthly prices, natural gas, wholesale markets