Conferences related to Stationary Batteries

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Oceans 2020 MTS/IEEE GULF COAST

To promote awareness, understanding, advancement and application of ocean engineering and marine technology. This includes all aspects of science, engineering, and technology that address research, development, and operations pertaining to all bodies of water. This includes the creation of new capabilities and technologies from concept design through prototypes, testing, and operational systems to sense, explore, understand, develop, use, and responsibly manage natural resources.

  • OCEANS '96

  • OCEANS '97

  • OCEANS '98

  • OCEANS '99

  • OCEANS 2000

  • OCEANS 2001

  • OCEANS 2002

  • OCEANS 2003

  • OCEANS 2004

  • OCEANS 2005

  • OCEANS 2006

  • OCEANS 2007

  • OCEANS 2008

    The Marine Technology Society (MTS) and the Oceanic Engineering Society (OES) of the Institute of Electrical and Electronic Engineers (IEEE) cosponsor a joint conference and exposition on ocean science, engineering, education, and policy. Held annually in the fall, it has become a focal point for the ocean and marine community to meet, learn, and exhibit products and services. The conference includes technical sessions, workshops, student poster sessions, job fairs, tutorials and a large exhibit.

  • OCEANS 2009

  • OCEANS 2010

    The Marine Technology Society and the Oceanic Engineering Scociety of the IEEE cosponsor a joint annual conference and exposition on ocean science engineering, and policy.

  • OCEANS 2011

    The Marine Technology Society and the Oceanic Engineering Scociety of the IEEE cosponsor a joint annual conference and exposition on ocean science engineering, and policy.

  • OCEANS 2012

    Ocean related technology. Tutorials and three days of technical sessions and exhibits. 8-12 parallel technical tracks.

  • OCEANS 2013

    Three days of 8-10 tracks of technical sessions (400-450 papers) and concurent exhibition (150-250 exhibitors)

  • OCEANS 2014

    The OCEANS conference covers four days. One day for tutorials and three for approx. 450 technical papers and 150-200 exhibits.

  • OCEANS 2015

    The Marine Technology Scociety and the Oceanic Engineering Society of the IEEE cosponor a joint annual conference and exposition on ocean science, engineering, and policy. The OCEANS conference covers four days. One day for tutorials and three for approx. 450 technical papers and 150-200 exhibits.

  • OCEANS 2016

    The Marine Technology Scociety and the Oceanic Engineering Society of the IEEE cosponor a joint annual conference and exposition on ocean science, engineering, and policy. The OCEANS conference covers four days. One day for tutorials and three for approx. 500 technical papers and 150 -200 exhibits.

  • OCEANS 2017 - Anchorage

    Papers on ocean technology, exhibits from ocean equipment and service suppliers, student posters and student poster competition, tutorials on ocean technology, workshops and town meetings on policy and governmental process.

  • OCEANS 2018 MTS/IEEE Charleston

    Ocean, coastal, and atmospheric science and technology advances and applications


2020 22nd European Conference on Power Electronics and Applications (EPE'20 ECCE Europe)

Energy conversion and conditioning technologies, power electronics, adjustable speed drives and their applications, power electronics for smarter grid, energy efficiency,technologies for sustainable energy systems, converters and power supplies


2020 IEEE Power & Energy Society General Meeting (PESGM)

The Annual IEEE PES General Meeting will bring together over 2900 attendees for technical sessions, administrative sessions, super sessions, poster sessions, student programs, awards ceremonies, committee meetings, tutorials and more


IEEE INFOCOM 2020 - IEEE Conference on Computer Communications

IEEE INFOCOM solicits research papers describing significant and innovative researchcontributions to the field of computer and data communication networks. We invite submissionson a wide range of research topics, spanning both theoretical and systems research.


2019 IEEE International Electric Machines & Drives Conference (IEMDC)

The IEEE International Electric Machines and Drives Conference (IEMDC) has been established to be one of the major events in the field of electrical machines and drives. IEMDC is a refernce forum to disseminate and exchange state of art in the filed of the Electrical Machines and Drives. The 2018 edition started in 1997 and the 2019 edition will be 11th one.



Periodicals related to Stationary Batteries

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Aerospace and Electronic Systems Magazine, IEEE

The IEEE Aerospace and Electronic Systems Magazine publishes articles concerned with the various aspects of systems for space, air, ocean, or ground environments.


Communications Magazine, IEEE

IEEE Communications Magazine was the number three most-cited journal in telecommunications and the number eighteen cited journal in electrical and electronics engineering in 2004, according to the annual Journal Citation Report (2004 edition) published by the Institute for Scientific Information. Read more at http://www.ieee.org/products/citations.html. This magazine covers all areas of communications such as lightwave telecommunications, high-speed data communications, personal communications ...


Consumer Electronics, IEEE Transactions on

The design and manufacture of consumer electronics products, components, and related activities, particularly those used for entertainment, leisure, and educational purposes


Energy Conversion, IEEE Transaction on

Research, development, design, application, construction, installation, and operation of electric power generating facilities (along with their conventional, nuclear, or renewable sources) for the safe, reliable, and economic generation of electrical energy for general industrial, commercial, public, and domestic consumption, and electromechanical energy conversion for the use of electrical energy


Industrial Electronics, IEEE Transactions on

Theory and applications of industrial electronics and control instrumentation science and engineering, including microprocessor control systems, high-power controls, process control, programmable controllers, numerical and program control systems, flow meters, and identification systems.



Most published Xplore authors for Stationary Batteries

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No authors for "Stationary Batteries"


Xplore Articles related to Stationary Batteries

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IEEE Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries - Amendment 1: Updated Safety Sections

IEEE Std 1657a-2015 (Amendment to IEEE Std 1657-2009), 2015

This amendment to IEEE Std 1657-2009 modifies Clause 5 as well as related annexes, and adds a new annex, primarily consisting of a flowchart that guides the user in the proper choices of personal protective equipment (PPE).


The IEEE Standards Association Stationary Batteries Committee

INTELEC 06 - Twenty-Eighth International Telecommunications Energy Conference, 2006

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


IEEE Draft Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries Amendment 1: Updated Safety Sections

IEEE P1657a/D4, January 2015, 2015

Amendment 1: Updated Safety Sections - to IEEE Standard 1657-2009


IEEE Approved Draft Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries Amendment 1: Updated Safety Sections

IEEE P1657a/D5, January 2015, 2015

Amendment 1: Updated Safety Sections - to IEEE Standard 1657-2009


Probabilistic analysis of stationary batteries performance to deal with renewable variability

2014 International Conference on Probabilistic Methods Applied to Power Systems (PMAPS), 2014

Stationary batteries are currently seen as an interesting solution to deal with the variability of the renewable energy sources. In the same way as other types of storage, e.g. pumped-hydro units, this new type of storage equipment can improve the use of Renewable Energy Sources (RES). Additionally, the stationary batteries location in the grid is not as physically constrained as ...



Educational Resources on Stationary Batteries

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IEEE-USA E-Books

  • IEEE Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries - Amendment 1: Updated Safety Sections

    This amendment to IEEE Std 1657-2009 modifies Clause 5 as well as related annexes, and adds a new annex, primarily consisting of a flowchart that guides the user in the proper choices of personal protective equipment (PPE).

  • The IEEE Standards Association Stationary Batteries Committee

    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

  • IEEE Draft Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries Amendment 1: Updated Safety Sections

    Amendment 1: Updated Safety Sections - to IEEE Standard 1657-2009

  • IEEE Approved Draft Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries Amendment 1: Updated Safety Sections

    Amendment 1: Updated Safety Sections - to IEEE Standard 1657-2009

  • Probabilistic analysis of stationary batteries performance to deal with renewable variability

    Stationary batteries are currently seen as an interesting solution to deal with the variability of the renewable energy sources. In the same way as other types of storage, e.g. pumped-hydro units, this new type of storage equipment can improve the use of Renewable Energy Sources (RES). Additionally, the stationary batteries location in the grid is not as physically constrained as other storage systems and can be optimally selected to maximize its overall benefits. This paper proposes a new methodology to represent the unique stochastic behavior of stationary batteries while integrated into an electrical power system. This methodology includes not only the technical restrictions of this type of storage system but also how its operation strategy affects its lifetime. The methodology was tested on a small test system, which is based on the IEEE-RTS 79, using sequential Monte Carlo simulation as its core to accurately reproduce the chronology of events of stationary batteries. The results of the simulation are focused on the potential impacts of these storage devices not only in terms of renewable energy used but also in the adequacy of supply.

  • IEEE Draft Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries

    The areas of recommended knowledge for installers and maintainers of stationary batteries and related systems, to the extent that they affect the battery, are defined in this recommended practice. Design of the dc system and sizing of the dc battery charger(s) are beyond the scope of this document. Only lead-acid and nickel-cadmium battery technologies are covered in this recommended practice. An outline (not necessarily in training order) of the items that should be covered by training programs for stationary battery installation and maintenance personnel is provided. Certifying trained personnel and providing its own battery technician training programs will not be performed by IEEE.

  • IEEE Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries

    This recommended practice defines the areas of recommended knowledge for installers and maintainers of stationary batteries and related systems to the extent that they affect the battery. Design of the dc system and sizing of the dc battery charger(s) are beyond the scope of this document. This recommended practice covers only lead-acid and nickel-cadmium battery technologies. Its purpose is to provide an outline (not necessarily in training order) of the items that should be covered by training programs for stationary battery installation and maintenance personnel. The IEEE will not be certifying trained personnel nor providing its own battery technician training programs.

  • Do You Want to Know More? RFID Tags on Stationary Batteries

    Stationary lead acid batteries are essential building blocks for reliable emergency power back-up solutions and the traceability of key manufacturing steps and properties over their life cycle enhances their reliability. The actual traceability is achieved with a lot of paper work consisting of spreadsheet lists, semiautomatic data banks, barcode labels, shipping papers and so on. IEC TC21 proposes to raise a standard for the information content of RFID tags applied to stationary lead acid batteries. The areas of benefit of such an identification method in battery production, logistics, battery use and recycling are outlined. This standardization would not intervene in the "electronics" of the RFID but assure with high priority that battery environment and battery user relevant data are taken in account, stored and retrieved with ease. An example of such an information string is shown

  • Creating an effective, electronic field test program for stationary batteries

    Providing seamless communication service is required to guarantee company viability, revenue growth and business success. Battery performance has long been an important consideration for modern communications companies, where significant emphasis is placed on seamless customer service. Just as the switch hardware is needed to complete the communications path, batteries are required to protect and support the switching equipment. Battery maintenance is typically labour intensive, and therefore it is looked at as being relatively expensive. Qualified technicians with the proper tools and training are essential to perform battery maintenance work safely. It makes sense for companies to try to find the most efficient method available to achieve their battery maintenance objectives. This paper will compare two battery maintenance techniques used to evaluate several working battery systems. This paper reports on two specific battery testing programs. The first section describes a noninvasive site audit process that involved documenting all site conditions. The authors focus on taking a "snapshot" look at the installed batteries using the conductance test meter. Conductance battery tests are done to screen a large number of batteries in a relatively short period of time. Conductance data are reviewed to identify which batteries could indicate a potentially low performing cell or string. The second section of the battery testing program includes a modified performance (discharge) test to compare to the initial conductance test results. These test results are the foundation for designing a comprehensive battery maintenance program. Their data show how a conductance battery-testing program improves overall system reliability and provides operating cost savings.

  • Getting results with stationary batteries a basic guide to battery selection and maintenance

    This guide presents an introduction to the various battery types used in stationary applications, and the process of selecting the right battery for a specific application. Battery selection, however, is not an end in itself. It is the necessary foundation for optimizing battery life and reliability, but those results cannot be achieved without proper installation and maintenance. While installation costs are rarely questioned, maintenance programs are subjected to the full scrutiny of corporate budget-cutters. This guide shows the latest IEEE recommendations for the maintenance of the major battery types and provides an insight into the most critical aspects of battery maintenance and testing.



Standards related to Stationary Batteries

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IEEE Guide for Application and Management of Stationary Batteries Used in Cycling Service

This guide provides information on the differences between stationary standby and stationary cycling applications and appropriate battery management strategies in cycling operations. While the primary emphasis is on lead-acid batteries, information is also provided on alternative and emerging storage technologies. The management of battery systems in stationary standby service is covered in other IEEE documents and is beyond the scope ...


IEEE Guide for Selection and Use of Battery Monitoring Equipment in Stationary Applications

This guide discusses operational parameters that may be observed by battery monitoring equipment used in stationary applications, and the relative value of such observations. Also discussed are the active supervisory and diagnostic tasks that this equipment may perform. While this guide does not give a listing of commercially available systems, it does provide a means for establishing specifications for the ...


IEEE Recommended Practice for Installation, Maintenance, Testing, and Replacement of Vented Nickel-Cadmium Batteries for Stationary Applications

This recommended practice provides installation design, installation, maintenance and testing procedures, and test schedules that can be used to optimize the life and performance of vented nickel-cadmium batteries. It also provides guidance for determining when these batteries should be replaced. (Scope unchanged from previous version.)


IEEE Recommended Practice for Personnel Qualifications for Installation and Maintenance of Stationary Batteries

This recommended practice defines the areas of recommended knowledge for installers and maintainers of stationary batteries and related systems to the extent that they affect the battery. Design of the dc system and sizing of the dc battery charger(s) are beyond the scope of this recommended practice. This document covers lead-acid and Nickel-Cadmium battery technologies.


IEEE Recommended Practice for Sizing Nickel-Cadmium Batteries for Stationary Applications

Scope of original document remains unchanged. Supporting text will be revised to reflect changes in battery technology.