A great deal of research has examined the weather sensitivity of energy consumption in commercial buildings; however, the recent power crisis in California has given greater importance to peak demand. Several new load-shedding programs have been implemented or are under consideration. Historically, the target customers have been large industrial users who can reduce the equivalent load of several large office buildings. While the individual load reduction from an individual office building may be less significant, there is ample opportunity for load reduction in this area. The load reduction programs and incentives for industrial customers may not be suitable for commercial building owners. In particular, industrial customers are likely to ...
Building demand flexibility (DF) has attracted significant attention in recent years among researche...
Commercial buildings account for a large portion of summer peak demand. Research results show that t...
With the transition from our traditional electric grid to a cleaner grid with renewable power genera...
A great deal of research has examined the weather sensitivity of energy consumption in commercial b...
A great deal of research has examined the weather sensitivity of energy consumption in commercial bu...
Both Federal and California state policymakers are increasingly interested in developing more stand...
This paper reports on the potential impact of demand response (DR) strategies in commercial building...
The potential for using building thermal mass for load shifting and peak energy demand reduction has...
We analyze data from 36 commercial and government buildings that participated in a Demand Response (...
Previous field studies demonstrated the effectiveness of demand response (DR) control strategies to ...
The principle of pre-cooling and demand limiting is to pre-cool buildings at night or in the morning...
With the rapidly increasing demands placed on utilities, reducing peak loads and minimizing energy u...
California is a leader in automating demand response (DR) to promote low-cost, consistent, and predi...
Building thermal mass can be used to reduce the peak cooling load. For example, in summer, the build...
Policymakers are encouraging the development of standardized and consistent methods to quantify the ...
Building demand flexibility (DF) has attracted significant attention in recent years among researche...
Commercial buildings account for a large portion of summer peak demand. Research results show that t...
With the transition from our traditional electric grid to a cleaner grid with renewable power genera...
A great deal of research has examined the weather sensitivity of energy consumption in commercial b...
A great deal of research has examined the weather sensitivity of energy consumption in commercial bu...
Both Federal and California state policymakers are increasingly interested in developing more stand...
This paper reports on the potential impact of demand response (DR) strategies in commercial building...
The potential for using building thermal mass for load shifting and peak energy demand reduction has...
We analyze data from 36 commercial and government buildings that participated in a Demand Response (...
Previous field studies demonstrated the effectiveness of demand response (DR) control strategies to ...
The principle of pre-cooling and demand limiting is to pre-cool buildings at night or in the morning...
With the rapidly increasing demands placed on utilities, reducing peak loads and minimizing energy u...
California is a leader in automating demand response (DR) to promote low-cost, consistent, and predi...
Building thermal mass can be used to reduce the peak cooling load. For example, in summer, the build...
Policymakers are encouraging the development of standardized and consistent methods to quantify the ...
Building demand flexibility (DF) has attracted significant attention in recent years among researche...
Commercial buildings account for a large portion of summer peak demand. Research results show that t...
With the transition from our traditional electric grid to a cleaner grid with renewable power genera...