Commercial Building Loads Providing Ancillary Services in PJM

TitleCommercial Building Loads Providing Ancillary Services in PJM
Publication TypeConference Paper
Year of Publication2014
AuthorsJason S MacDonald, Sila Kiliccote, Jim Boch, Jonathan Chen, Robert Nawy
Conference NameACEEE Summer Study on Energy Efficiency in Buildings 2014
Date Published08/2014
Conference LocationAsilomar Conference Center, Pacific Grove, CA
Keywordsancillary services, Load as a Resource, LR12-003
Abstract

The adoption of low carbon energy technologies such as variable renewable energy and electric vehicles, coupled with the efficacy of energy efficiency to reduce traditional base load has increased the uncertainty inherent in the net load shape. Handling this variability with slower, traditional resources leads to inefficient system dispatch, and in some cases may compromise reliability. Grid operators are looking to future energy technologies, such as automated demand response (DR), to provide capacity-based reliability services as the need for these services increase. While DR resources are expected to have the flexibility characteristics operators are looking for, demonstrations are necessary to build confidence in their capabilities. Additionally, building owners are uncertain of the monetary value and operational burden of providing these services. To address this, the present study demonstrates the ability of demand response resources providing two ancillary services in the PJM territory, synchronous reserve and regulation, using an OpenADR 2.0b signaling architecture. The loads under control include HVAC and lighting at a big box retail store and variable frequency fan loads. The study examines performance characteristics of the resource: the speed of response, communications latencies in the architecture, and accuracy of response. It also examines the frequency and duration of events and the value in the marketplace which can be used to examine if the opportunity is sufficient to entice building owners to participate.

URL http://www.aceee.org/publications
LBNL Report Number

LBNL-6778E