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The IEEE, PES (Power Engineering Society) Stationary Battery Committee is dedicated to the advancement of user knowledge in the application and operation of all stationary battery systems. The tools in this work, are scope and responsibilities of the committee, battery standards, technical sessions, and conferences
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The IEEE Standards Association
Stationary Batteries Committee
Bart Cotton,
Senior Member, IEEE
IEEE Standards Association, PES, Stationary Batteries
Chairman, Working Group – IEEE 1491 - 2005
(Guide for Selection and Use of Battery Monitoring Equipment
in Stationary Applications)
Founder, DATA POWER MONITORING CORPORATION
cbartcotton@ieee.org bcotton@dpmc.com
INFOBATT 2006
Power Engineering Society
Stationary Battery Committee
•This Committee is dedicated to the
advancement of user knowledge in the
application and operation of all stationary
battery systems.
•Our tools in this work are battery
standards, technical sessions, and
conference sponsorship.
Maintained Documents:
•IEEE 450-2002 - Vented Lead-Acid Maintenance & Testing
•IEEE 484-2002 - Vented Lead-Acid Battery Installation
•IEEE 485-R2003 - Vented Lead-Acid Battery Sizing
•IEEE 535-R1994 - Nuclear Battery Qualification
•IEEE 1106-1995 - Ni-Cd Installation, Maint. & Testing
•IEEE 1115-2000 - Ni-Cd Battery Sizing
•IEEE 1184-1994 - UPS Batteries
•IEEE 1187-2002 - VRLA Installation
•IEEE 1188-1996 - VRLA Maintenance & Testing
•IEEE 1189-1996 - VRLA Battery Selection
•IEEE 1375-R2004 - Battery Protection
•IEEE 1491-2005 - Battery Monitoring
•IEEE 1625-2004 - Battery; Portable Computing
•IEEE 1725-2005 - Cell Phone Batteries
In addition, the following are
new open projects:
•PAR 1578 - Battery Spill Containment
•PAR 1635 - Battery Ventilation & Thermal
Management
•PAR 1657 - Battery Technician
Qualification
•PAR 1660 - Application & Management of
Stationary Batteries used in
Cycling Service
•PAR 1679 - Recommended Practice for the
Characterization and Evaluation
of Emerging Battery
Technologies in Stationary
Applications
STATIONARY BATTERY
COMMITTEE SCOPE
Stationary Battery Committee scope:
•Storage batteries and associated dc
systems used in stationary applications.
•Sponsorship and development with other
technical committees and/or organizations.
•Liaison and cooperation with other
technical committees, societies, groups
and associations.
STATIONARY BATTERY
COMMITTEE RESPONSIBILTIES
The responsibilities and duties of the Committee shall include the
following:
•Promote and coordinate activities in its field.
•Sponsor technical sessions.
•initiate and prepare standards.
•Arrange Special Technical Conferences.
•Review and grade technical papers.
•Initiate, propose and/or process awards .
•Offer cooperation with local sections/chapters.
•Select session Chairs and be responsible for presentation of
papers at meetings.
•Inform the general membership of Committee activities.
•Encourage all who are qualified to seek membership in the
Power Engineering Society and the Stationary Battery
Committee.
STANDARDS
Maintenance and Development
IEEE 450-2002 - Recommended Practice for
Maintenance, Testing, and Replacement of
Vented Lead-Acid Batteries for Stationary
Applications
•This Standard is currently under
revision.
•This recommended practice is
applicable to full-float stationary
applications where a battery charger
normally maintains the battery fully
charged and provides the dc loads.
•It also applies to UPS applications.
IEEE 484-2002 – Recommended
Practice for Installation Design and
Installation of Vented Lead-Acid
Batteries for Stationary Applications
•These recommended practices are
applicable to all stationary applications.
•Provides recommended design practices
and procedures for storage, location,
mounting, ventilation, instrumentation,
preassembly, assembly, and charging of
vented lead-acid batteries.
IEEE 485-2003 - Recommended Practice for
Sizing Lead-Acid Batteries for Stationary
Applications
•This recommended practice describes
methods for defining the dc load and for
sizing a lead-acid battery to supply that
load for stationary battery applications in
full float operations.
IEEE 535 - 1994 - Standard for Qualification
of Class 1E Lead Storage Batteries for
Nuclear Power Generating Stations
•This document describes qualification
methods for Class lE lead storage batteries
and racks to be used in nuclear power
generating stations outside of primary
containment.
IEEE 1106-1995 - Recommended Practice for
Installation, Maintenance, Testing, and
Replacement of Vented Nickel-Cadmium
Batteries for Stationary Applications
•This recommended practice involves
maintenance, test schedules, procedures
and replacement criteria that can be used
to optimize the life and performance of
vented Nickel-Cadmium batteries for
stationary applications.
•2005 update included use of rate-adjusted
capacity calculation method.
IEEE 1115-2000 - Recommended
Practice for Sizing Nickel-Cadmium
Batteries for Stationary Applications
•This recommended practice describes
methods for defining the dc load and for
sizing a NiCd battery to supply that load.
•Recommended practice reaffirmed in 2005.
•An amendment is underway to take cycling
applications into account.
IEEE 1184-2006 - Guide for Batteries
for Uninterruptible Power Supply
Systems
•This Guide Standard was recently revised,
released, and is currently in force.
•The guide discusses various battery
systems so that the user can make
informed decisions on selection,
installation design, installation,
maintenance, and testing of batteries used
in Uninterruptible Power Supply (UPS)
Systems.
IEEE 1187-2002 - Recommended Practice for
Installation Design and Installation of Valve
Regulated Lead-Acid Storage Batteries for
Stationary Applications
•IEEE 1187 is a recommended practice that provides
guidance for the installation and installation design of
valve-regulated lead acid (VRLA) batteries.
•Document update due to begin in 2007 to align
document with IEEE 1188-2005, IEEE 1184-2006 and
changes in industry best practices.
IEEE 1188-2005 - Recommended Practice for
Maintenance, Testing, and Replacement of
Valve-Regulated Lead- Acid (VRLA) Batteries
for Stationary Applications
•This Standard was recently revised, and is
currently in force.
•This recommended practice is limited to
maintenance, test schedules, and testing
procedures that can be used to optimize
the life and performance of valve-regulated
lead-acid (VRLA) batteries for stationary
applications.
•It also provides guidance to determine
when batteries should be replaced.
IEEE 1189-1996 - Guide for Selection
of Valve-Regulated Lead-Acid (VRLA)
Batteries for Stationary Applications
•This guide describes methods for selecting
the appropriate type of valve-regulated,
immobilized-electrolyte, recombinant lead-
acid battery for any of a variety of
potential stationary float applications.
IEEE 1375-2004 - Guide for the
Protection of Stationary Battery
Systems
•This provides guidance in the protection of
stationary battery systems. It includes the
battery and dc components to and
including the first protective device
downstream of the battery terminals.
•This guide provides discussions and
recommendations regarding the forms of
stationary battery protection as well as
characteristics, of protective devices used
in dc circuits.
•Both grounded and ungrounded dc battery
systems are used widely in different
industry applications.
IEEE 1491-2005 - Guide for Selection and Use
of Battery Monitoring Equipment in
Stationary Applications
•This is a new standard, and is currently in force.
•This Guide is currently under revision to align with
current technology and crosses all other battery
standards.
•It discusses operational parameters that may be
observed by battery monitoring equipment used in
stationary applications, and the relative value of
such observations.
•it provides a means for establishing specifications
for the desired parameters to be monitored.
IEEE 1625-2004 - Standard for Rechargeable
Batteries for Portable Computing
•This is a corporate developed standard,
and is currently in force.
•The standard is based on the collective
experience of leading manufacturers of
mobile computer cells, packs and mobile
computer systems.
•It was developed within the IEEE
Corporate Standards Program.
IEEE 1725-2005 - Standard for Rechargeable
Batteries for Cellular Telephones
•This is a corporate developed standard,
and is currently in force.
•The standard includes cell and battery
pack construction, chemistries, charge
and discharge controls, packaging
technologies, and other areas.
•It was developed within the IEEE
Corporate Standards Program by
companies that manufacture battery cells,
battery packs and cell phones.
Open Projects
•The Stationary Battery Committee is
currently generating new Standards
and Guides which will enhance our
understanding of batteries, their
applications, and appropriate
relationships.
•These open projects are described
below and are defined by "PAR"
(Project Authorization Request).
PAR 1578 - Battery Spill
Containment
•This guide discusses factors relating to
electrolyte spill containment for VLA,
VRLA, and Ni-Cd stationary batteries.
•It is intended to assist code-writing
organizations. It describes spill
containment and management issues
related to stationary battery systems.
PAR 1657 - Guide for Personnel
Qualifications for Installation, Maintenance,
and Operation of Stationary Batteries
•We recognize that specific training on battery
system installation and maintenance is necessary.
•We also recognize that existing training of battery
maintenance and installation technicians is
generally non-existent, or at the least, non-
standard.
•This subcommittee is writing this guide for training,
which will specify the types of knowledge a battery
installation or maintenance technician must
possess.
PAR 1635 - Guide for the Ventilation and
Thermal Management of Batteries for
Stationary Applications
•This guide is a joint project between the
IEEE and the American Society of Heating,
Refrigeration and Air Conditioning
Engineers Inc. (ASHRAE). It covers
flooded lead-acid, VRLA and flooded Ni-Cd
battery systems.
•Ventilation of stationary battery
installations is critical to maximize battery
life while minimizing hazards. This guide
is being written to serve as a bridge
between the electrical designer and the
HVAC designer.
PAR 1660 - Application & Management of
Stationary Batteries used in Cycling Service
•This project deals with all aspects of
design, application, and maintenance of
lead-acid batteries in cycling service.
•It provides additional guidance on use of
alternative battery technologies.
PAR 1679 - Recommended Practice for the
Characterization and Evaluation of Emerging
Energy Storage Technologies in Stationary
Applications
•Scope was recently expanded from just batteries to
all energy storage technologies
•This document covers an objective evaluation of
emerging energy storage technologies by a
potential user for any stationary application.
•Technologies are those that provide a means for
the reversible storage of electrical energy,
•The medium may be electrochemical, kinetic,
electrostatic, thermal, or etc.
•Stationary applications include both standby and
cycling operation.
•This recommended practice will describe a format
for the characterization of emerging energy storage
technologies.
CONCLUSIONS
•The Stationary Battery Committee meets
every six months, and its membership
consists of IEEE members and IEEE
Standards association members.
•Meetings are open to all, and we
encourage all persons of interest to
become involved in this organization.
•There is a need to increase membership
within this Committee, due to the quantity
and depth of IEEE standards involved with
the Stationary Battery industry.
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Source: https://www.researchgate.net/publication/224673381_The_IEEE_Standards_Association_Stationary_Batteries_Committee
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