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Listed below are all documents and RMI.org site pages related to this topic.
Electricity - Reinventing Fire system operations 8 Items

U.S. installed wind and solar power capacities and projections, 1990–2050

http://www.rmi.org/RFGraph-US_installed_wind_solar_power_capacities
Together, wind and solar will account for 71% of total U.S. installed capacity in 2050 in Rocky Mountain Institute’s Transform case, up from 4.4% in 2010. Along with hydro, geothermal, and biomass, renewables will meet more than 80% of 2050 U.S. electricity demand.

 

Variable renewable output (hourly)

http://www.rmi.org/RFGraph-variable_renewable_output
The dynamic nature of variable renewable resources presents challenges to conventional electricity system operations. Production from wind and solar resources, in particular, is both variable (fluctuating throughout the day according to availability of the “fuel”) and uncertain (weather forecasting is required and by definition is not always accurate).

 

Hourly operability in a high-penetration renewables scenario

http://www.rmi.org/RFGraph-hourly_high_penetration_renewables
Production from wind and solar resources, in particular, is both variable and uncertain. However, with good resource and demand forecasting and high availability of flexible demand and supply side resources, it is possible to operate an electricity system reliably with a high percentage of variable renewable energy.

 

Load-duration curve for net load with six renewable portfolios

http://www.rmi.org/RFGraph-load_duration_curve
A load-duration curve is a useful tool for comparing the impacts of different renewable portfolios on the grid. In this Rocky Mountain Institute analysis of renewable adoption on the Electric Reliability Council of Texas (ERCOT) grid, a generation mix of 25% solar and 15% wind yields the flattest load-duration curve over the year.

 

Frequency and duration of positive and negative net load events for six renewable portfolios

http://www.rmi.org/RFGraph-frequency_duration_net_loads
Different renewable portfolio compositions place differing demands on the generation and storage resources of the grid. In hours when variable renewable supply is not enough to meet the full load, the remaining demand must be met with dispatchable generators. When variable renewable supply exceeds the full load, the excess renewable supply must be stored or curtailed. The frequency of over or under-supply is highly dependent on the amount and mix of variable renewables on a given system.

 

Power and duration of electricity bulk storage technologies

http://www.rmi.org/RFGraph-power_duration_electricity_bulk_storage_technologies
Bulk energy storage can be incredibly useful in integrating variable renewable generation and providing ancillary services to the grid. The ultimate application of a particular energy storage technology is largely determined by its discharge time.

 

Total wind integration costs for different capacity penetrations

http://www.rmi.org/RFGraph-Total_wind_integration_costs_capacity_penetrations
Recent studies evaluating the cost of integrating variable renewables that account for up to 30% of a system’s peak-load range from 0.1 to 1.0¢/kWh.

 

Maximum percentage of peak load that can be shaved through demand response in Reinventing Fire electricity scenarios, 2010–2050

http://www.rmi.org/RFGraph-Maximum_peak_load_can_be_shaved_demand_response_RF
Rocky Mountain Institute’s four scenarios for the future U.S. electricity system ( detailed here ) all have different penetrations of demand response programs.

 

 
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