C OMBINING DISTRIBUTED G ENERATIONAND E NERGY M ANAGEMENT TECHNOLOGIES TO ACHIEVE E NERGY C OST SAVINGS

Authors

  • David A. Eberly Armstrong World Industries

DOI:

https://doi.org/10.13052/dgaej2156-3306.1913

Abstract

Applying energy management systems to building control systems
provides the capability to merge several conventional and non-conven-
tional cost reduction strategies.
Energy consumption reductions are derived from conventional
strategies such as temperature resets in air and water handling systems,
chiller plant optimization, HVAC scheduling optimization, and automa-
tion of lighting system operation. These activities alone represent a sig-
nificant potential for energy savings at a facility.
In the current era of deregulation, both the natural gas and electric
utility suppliers find themselves in a changing and more competitive
business environment. As a result, creative rate options have been devel-
oped to retain current customers and to attract new ones.
Electric utility rates, including RTP (real time pricing), and inter-
ruptible service (IS) have been available to PJM (Pennsylvania, New Jer-
sey, and Maryland) customers since 1994. On-site power generation sys-
tems have been utilized by many facilities to take advantage of these
rates to reduce electric costs. Energy management systems are also used
to manage the operation of on-site power generation systems, conven-
tionally for power outages or to improve power quality.
This article describes the installation of a 2,000 kW on-site power
generation system, and the integration of its capabilities with a facility
energy management system to exploit an interruptible electric service
rate. These systems are installed at a 600-acre corporate campus site,
located in central Pennsylvania. There are 28 buildings occupying the
site, enclosing approximately 1,000,000 square feet of conditioned space By combining capabilities of the EMS (energy management system) and
on-site power generation systems, the subject facility can interrupt more
than 70 % of its on-peak summer electric load, within 2 hours after a curtail-
ment request, utilizing minimal staff, and causing minimal noticeable
change to employees working at the site. The application of these sys-
tems has reduced the Campus annual electricity costs by more than 25%
since implementation in July 2001.

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Author Biography

David A. Eberly, Armstrong World Industries

David A. Eberly, P.E., C.E.M. is a senior staff engineer in corporate
facilities management for Armstrong World Industries, Inc., a global
manufacturer of floor coverings, ceilings and cabinetry. At Armstrong for
over 30 years, Dave has held several energy management positions in-
cluding corporate energy engineer. He personally conducted energy
audits at 12 domestic manufacturing plants, implementing conservation
and efficiency improvement projects corporate-wide, and developed the
corporate lighting improvement program, BRIGHT LIGHT$. He worked
with energy purchasing to develop utility bypass projects including
natural gas pipelines, cogeneration, and distributed generation installa-
tions. Dave is a graduate of the Pennsylvania State University with a B.S.
in electrical engineering and an M.A. in business administration. Dave is
also a registered professional engineer in Pennsylvania, a Certified En-
ergy Manager (CEM), a member of ASHRAE (American Society of Heat-
ing, Refrigeration, and Air-Conditioning Engineers) and a life member of
the AEE (Association of Energy Engineers). Dave can be reached at
daeberly@armstrong.com.

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Published

2004-01-12

How to Cite

Eberly, D. A. . (2004). C OMBINING DISTRIBUTED G ENERATIONAND E NERGY M ANAGEMENT TECHNOLOGIES TO ACHIEVE E NERGY C OST SAVINGS. Distributed Generation &Amp; Alternative Energy Journal, 19(1), 33–43. https://doi.org/10.13052/dgaej2156-3306.1913

Issue

2004: Vol 19 Iss 1

Section

Articles