California is a leader in automating demand response (DR) to promote low-cost, consistent, and predictable electric grid management tools. Over 250 commercial and industrial facilities in California participate in fully-automated programs providing over 60 MW of peak DR savings. This paper presents a summary of Open Automated DR (OpenADR) implementation by each of the investor-owned utilities in California. It provides a summary of participation, DR strategies and incentives. Commercial buildings can reduce peak demand from 5 to 15percent with an average of 13percent. Industrial facilities shed much higher loads. For buildings with multi-year savings we evaluate their load variability and shed variability. We provide a summary of control st...
In response to electric supply problems stemming from the failure of the restructured California ele...
In response to electric supply problems stemming from the failure of the restructured California ele...
There are growing strains on the electric grid as cooling peaks grow and equipment ages. Increased ...
California is a leader in automating demand response (DR) to promote low-cost, consistent, and predi...
Small and medium commercial customers in California make up about 20-25percent of electric peak load...
California electric utilities have been exploring the use of dynamic critical peak prices (CPP) and ...
This report describes the results of a research project to develop and evaluate the performance of n...
This report characterizes small commercial buildings by market segments, systems and end-uses; devel...
Demand response (DR) – allowing customers to respond to reliability requests and market prices by ch...
California electric utilities have been exploring the use of dynamic critical peak pricing (CPP) and...
Commercial buildings account for a large portion of summer peak demand. Research results show that t...
While the traditional goal of an electric power system has been to control supply to fulfill demand,...
In 2006, the Public Interest Energy Research Program (PIER) Demand Response Research Center (DRRC) a...
During the past decade, the technology to automate demand response (DR) in buildings and industrial ...
California's electricity markets are moving toward dynamic pricing models, such as real-time pr...
In response to electric supply problems stemming from the failure of the restructured California ele...
In response to electric supply problems stemming from the failure of the restructured California ele...
There are growing strains on the electric grid as cooling peaks grow and equipment ages. Increased ...
California is a leader in automating demand response (DR) to promote low-cost, consistent, and predi...
Small and medium commercial customers in California make up about 20-25percent of electric peak load...
California electric utilities have been exploring the use of dynamic critical peak prices (CPP) and ...
This report describes the results of a research project to develop and evaluate the performance of n...
This report characterizes small commercial buildings by market segments, systems and end-uses; devel...
Demand response (DR) – allowing customers to respond to reliability requests and market prices by ch...
California electric utilities have been exploring the use of dynamic critical peak pricing (CPP) and...
Commercial buildings account for a large portion of summer peak demand. Research results show that t...
While the traditional goal of an electric power system has been to control supply to fulfill demand,...
In 2006, the Public Interest Energy Research Program (PIER) Demand Response Research Center (DRRC) a...
During the past decade, the technology to automate demand response (DR) in buildings and industrial ...
California's electricity markets are moving toward dynamic pricing models, such as real-time pr...
In response to electric supply problems stemming from the failure of the restructured California ele...
In response to electric supply problems stemming from the failure of the restructured California ele...
There are growing strains on the electric grid as cooling peaks grow and equipment ages. Increased ...