gridSIM

gridSIM produces energy and ancillary service price forecasts consistent with the projected investment/retirement mix that it optimizes for given assumptions on both investment and operating costs. gridSIM helps identify opportunities for investment due to shifts in market fundamentals over time, and can address the following questions:

• Evaluating how renewable additions will transform the diurnal and seasonal patterns of energy market prices
• Quantifying revenues to existing generators, and identifying those resources most at risk of retirement in coming years
• Projecting the types and quantities of energy storage that will be most valuable, and how energy storage may affect prices for energy and ancillary services
• Identifying how high-level congestion patterns may shift over time due to renewable additions
• Assessing how demand response resources affect the market today (e.g., price responsive industrial loads), and how new types of demand response may affect the market in the future (e.g., managed electric vehicle charging)
• Evaluating flexible resources’ ability to earn ancillary services revenues and capture energy price spikes that less flexible resources cannot
• Evaluating the hourly operations of storage, observing energy and capacity balances to match intermittent renewables with load shapes
• Considering how much storage would be added, based on economics, over the longer term

Product Features

• Designed to simulate highly-decarbonized systems
• Detailed representation of power systems and wholesale markets
• Supported by Brattle’s experienced modelers, consultants, and testifying experts
• Easy to use and flexible, enabling highly customized representation of each client’s underlying system

For the state of Rhode Island, Brattle provided a high-level economic analysis of the key factors that will guide the state to meeting 100% of the state’s electricity demand with renewable electricity by 2030. The study used gridSIM to forecast hourly market energy prices across New England through 2040. We used the forecasted prices to estimate the future energy market value of the candidate renewable energy resources.

This graphic illustrates the hourly operations of the power system in 2040 across the 30 days simulated. In most hours, renewables and nuclear are sufficient to meet load. In the winter and summer months, some supply from renewable gas is needed to meet peak loads.

The first graphic below illustrates transmission flows within New York in 2040. By 2040, the study found power flows may occasionally reverse direction, flowing from Downstate to Upstate, due to large growth in offshore wind.

The second graphic below illustrates the production of and consumption of renewable gas by the power sector. In spring and fall, excess electricity is used to power electrolyzers and generate renewable gas. In summer and winter months, this renewable gas is used to power natural gas generators.