Conferences related to Aeolian Vibration

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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


2019 IEEE Electrical Insulation Conference (EIC)

Electrical Materials, Equipment, Testing, Nanotechnologies, Power Systems, Motors, Generators, Transformers, Switchgear


2018 IEEE International Conference on High Voltage Engineering and Application (ICHVE)

International Conference on High Voltage Engineering: DEIS has technically co-sponsored this conference since its inception in 2008. As of the 2016 conference, ICHVE is a fully sponsored DEIS event held every 2 years – once in China and once elsewhere in the world. The current demands for a large amount of electrical energy are resulting in new strategies for developing high voltage power systems, transmission lines, substations, and appropriate equipment. In many countries, the new energy strategies require the planning and construction of UHV ac and dc transmission systems. ICHVE provides an excellent opportunity for high voltage engineering scientists, researchers, faculty, industrial representatives and students to share their state-of-the-art research on topics such as electromagnetic fields; grounding systems; high voltage insulation systems; aging, space charge and industrial applications; high voltage measurement techniques and instrumentation.


2018 IEEE PES/IAS PowerAfrica

Power and Energy Systems

  • 2017 IEEE PES/IAS PowerAfrica

    Power and Energy Systems

  • 2016 IEEE PES PowerAfrica

    PowerAfrica 2016 Livingstone will be a platform for participants from academia, electric utilities and industry to discuss experiences, best practices and associated technical developments that can be applied towards the electrification of Africa enabling socio-economic development. Power delivery regulations, investments and policies will also be addressed. PowerAfrica 2016 Livingstone will cover keynotes, plenary sessions, paper and poster presentations, and tutorials by worldwide experts on power delivery with focus in Africa.

  • 2015 IEEE PES PowerAfrica

    PowerAfrica 2015 Tunis will be a platform for participants from academia, electric utilities and industry to discuss experiences, best practices and associated technical developments that can be applied towards the electrification of Africa enabling socio-economic development. Power delivery regulations, investments and policies will also be addressed. PowerAfrica 2015 Tunis will cover keynotes, plenary sessions, paper and poster presentations, and tutorials by worldwide experts on power delivery with focus in Africa.

  • 2012 IEEE Power & Energy Society Conference and Exposition in Africa: Intelligent Grid Integration of Renewable Energy Resources (PowerAfrica 2012)

    The world wide interest in the application of natural renewable energy resources, in energy conservation and increasing efficiency of energy application gathers momentum. This is driving fundamental change in the traditional electrical energy business of bulk power generation, bulk power transmission and power distribution. New and innoviative solutions emerge. This conference will focus on the experience of renewable energy applications.

  • 2007 IEEE Power Engineering Society Conference and Exposition in Africa (PowerAfrica 2007)

    Covering all aspects of renewable energy development, large scale and peaking power generation, HVDC and HVAC transmission, distribution technologies, customer utilization and efficiencies, including automation, instrumentation, control, power electronics, machines, quality of supply, and protection.

  • 2005 IEEE Power Engineering Society Inaugural Conference and Exposition in Africa


2018 International Conference on Power System Technology (POWERCON)

The conference will focus on smart grid, energy interconnection, UHV transmission, distributed generation, renewable energy generation and its integration into large grid, energy storage, energy saving and emission reduction.


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Periodicals related to Aeolian Vibration

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Power Delivery, IEEE Transactions on

Research, development, design, application, construction, the installation and operation of apparatus, equipment, structures, materials, and systems for the safe, reliable, and economic delivery and control of electric energy for general industrial, commercial, public, and domestic consumption.


Proceedings of the IEEE

The most highly-cited general interest journal in electrical engineering and computer science, the Proceedings is the best way to stay informed on an exemplary range of topics. This journal also holds the distinction of having the longest useful archival life of any EE or computer related journal in the world! Since 1913, the Proceedings of the IEEE has been the ...



Most published Xplore authors for Aeolian Vibration

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Xplore Articles related to Aeolian Vibration

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Hardware design of one transmission line aeolian vibration monitoring system

2011 2nd International Conference on Artificial Intelligence, Management Science and Electronic Commerce (AIMSEC), 2011

In allusion to the current developing situation and shortcoming of transmission line aeolian vibration monitoring. a transmission line aeolian vibration monitoring system is designed based on CC2430 for wireless transmission, the design scheme and architecture are introduced. The emphasis of design is the system hardware circuit including sensor module, signal processing, filtering and amplifier module, A/D conversion,the CC2430 wireless transmission ...


Rational design equations for the aeolian vibration of overhead power lines

2015 IEEE Power & Energy Society General Meeting, 2015

A somewhat novel approach is presented in this paper to predict, analytically, the vortex-induced vibration (i.e. Aeolian vibration) of an overhead power line's single conductor due to wind. An analytical solution is derived to the basic problem of the Aeolian vibration of a conductor span with equivalent supports on both ends by using the energy balance principle as well as ...


Fatigue Analysis of Composite Insulator under Aeolian Vibration

2011 Third International Conference on Measuring Technology and Mechatronics Automation, 2011

Conductor, which is in the condition of aeolian vibration for long period, will transfer vibration to the composite insulator, so composite insulator is frequently subjected to vibrational fatigue failure. This paper takes a 500kV transmission line for example, calculates the max dynamic bending stress of wire clamp exit, and gets the vibrational load values, which are caused from conductor aeolian ...


IEEE Standard for Testing and Performance for Optical Ground Wire (OPGW) Use on Electric Utility Power Lines -- Corrigendum 1: Stress-Strain Temperature Correction, Aeolian Vibration Velocity

IEEE Std 1138-2009/Cor 1-2014 (Corrigendum to IEEE Std 1138-2009), 2014

This corrigendum corrects the temperature associated with the Stress-Strain clause; and corrects the use of the term velocity in the Aeolian Vibration clause of IEEE Std 1138(TM)-2009.


IEEE Guide on the Measurement for the Performance of Aeolian Vibration Dampers for Single Conductors

IEEE Std 664-1980, 1980

Superseded by 664-1993. The current methodologies, including apparatus, procedures, and measurement accuracies, for determining the dynamic characteristics of vibration dampers and damping systems are described. Some basic guidance is provided regarding a given method’s strengths and weaknesses. The methodologies and procedures described are applicable to indoor testing only.


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Educational Resources on Aeolian Vibration

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IEEE-USA E-Books

  • Hardware design of one transmission line aeolian vibration monitoring system

    In allusion to the current developing situation and shortcoming of transmission line aeolian vibration monitoring. a transmission line aeolian vibration monitoring system is designed based on CC2430 for wireless transmission, the design scheme and architecture are introduced. The emphasis of design is the system hardware circuit including sensor module, signal processing, filtering and amplifier module, A/D conversion,the CC2430 wireless transmission circuit and its external circuit. The experiment result shows that this design of online monitoring system of aeolian vibration is convenient, practical, reliable and low-cost.

  • Rational design equations for the aeolian vibration of overhead power lines

    A somewhat novel approach is presented in this paper to predict, analytically, the vortex-induced vibration (i.e. Aeolian vibration) of an overhead power line's single conductor due to wind. An analytical solution is derived to the basic problem of the Aeolian vibration of a conductor span with equivalent supports on both ends by using the energy balance principle as well as the semi-empirical equations for the wind power input and the self damping of a conductor. A wind's turbulence effect may also be taken into account by using a previously found analytical solution. Simple, pragmatic design equations are established for undamped conductor spans by curve-fitting the numerical data from analytical solutions. The result of this paper may serve as a link between complicated numerical models and often overly simplified pragmatic design practices.

  • Fatigue Analysis of Composite Insulator under Aeolian Vibration

    Conductor, which is in the condition of aeolian vibration for long period, will transfer vibration to the composite insulator, so composite insulator is frequently subjected to vibrational fatigue failure. This paper takes a 500kV transmission line for example, calculates the max dynamic bending stress of wire clamp exit, and gets the vibrational load values, which are caused from conductor aeolian vibration, according to the conductor hanging angle. At the same time, this article builds composite insulator solid model basing on the ANSYS software, represents probability distribution of vibration frequency using Weibull distribution, and analyses fatigue coefficient of use up of composite insulator within every frequency segment, according to Miner linear fatigue damage accumulation rule. Finally we get the fatigue life of composite insulator.

  • IEEE Standard for Testing and Performance for Optical Ground Wire (OPGW) Use on Electric Utility Power Lines -- Corrigendum 1: Stress-Strain Temperature Correction, Aeolian Vibration Velocity

    This corrigendum corrects the temperature associated with the Stress-Strain clause; and corrects the use of the term velocity in the Aeolian Vibration clause of IEEE Std 1138(TM)-2009.

  • IEEE Guide on the Measurement for the Performance of Aeolian Vibration Dampers for Single Conductors

    Superseded by 664-1993. The current methodologies, including apparatus, procedures, and measurement accuracies, for determining the dynamic characteristics of vibration dampers and damping systems are described. Some basic guidance is provided regarding a given method’s strengths and weaknesses. The methodologies and procedures described are applicable to indoor testing only.

  • Notice of Retraction<br>Application of on-line monitoring system of Aeolian vibration on UHV transmission lines of 1000 kV

    This article has been retracted by the publisher.

  • IEEE Standard for Testing and Performance for Optical Ground Wire (OPGW) Use on Electric Utility Power Lines -- Corrigendum 1: Stress-Strain Temperature Correction, Aeolian Vibration Velocity

    This corrigendum corrects the temperature associated with the Stress-Strain clause; and corrects the use of the term velocity in the Aeolian Vibration clause of IEEE Std 1138(TM)-2009.

  • Optimization of the Efficiency of Aeolian Vibration Dampers

    Stockbridge-type aeolian vibration dampers, if properly chosen and applied, have proven to be effective to protect overhead lines from harmful wind- induced vibrations. However, conventional dampers with bolted clamps may have shortcomings in damping high frequency vibrations of small diameter optical ground wires (OPGW) due to their high clamp mass. Theoretical considerations based on wave impedance analysis predict that reduction of damper clamp mass should be beneficial for damping efficiency at high frequencies. A damper clamp designed for attachment by means of helical factory-formed rods is introduced, leading to a considerable reduction of damper clamp mass. Measurements of power dissipation characteristics using testing techniques described in IEEE Std 664 confirm the predicted improvement of damper performance at higher frequencies.

  • Damping of aeolian vibration on overhead lines by vibration dampers

    A new method is presented for determining the effectiveness of dampers used to suppress aeolian vibration on overhead lines. The method is applied to a Stockbridge damper and a simple picture is presented of the way in which this damper works. A second type of vibration damper is also considered, to demonstrate the way in which the performance of different dampers can be evaluated and compared using the new method.

  • Laboratory measurement of the power dissipation characteristics of aeolian vibration dampers

    The two basic methodologies for the laboratory testing of aeolian vibration dampers described in IEEE Std 664-1993 are reviewed under the aspect of mechanical impedance relationships. The results of both methodologies-test of a vibration damper using a conductor span in resonant vibration and forced response test on a shaker-otherwise not comparable can then be set in relation to each other. Experimental results are presented to give evidence to that approach. Moreover, an experimental method is described for determining power flow on a laboratory conductor span. The vibration amplitude is measured at two arbitrary locations along the span. By digital signal processing it is possible to determine separately the amplitudes of the waves travelling forward and backward along the span. With both amplitudes known the net power flow can be computed.



Standards related to Aeolian Vibration

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IEEE Guide for Aeolian Vibration Field Measurements of Overhead Conductors

This guide provides current practices related to field measurements of aeolian vibration of overhead conductors.


IEEE Guide for Aeolian Vibration Field Measurements of Overhead Conductors

This guide provides current practices related to field measurements of aeolian vibration of overhead conductors.


IEEE Guide for Bus Design in Air Insulated Substations

The information in this design guide is applicable to both rigid bus and strain bus designs for outdoor and indoor,air-insulated, alternating current substations. Ampacity, radio influence, vibration, and electromechanical forces resulting from gravity, wind, fault current, and thermal expansion are considered. Design criteria for conductor and insulator strength calculations are included. This guide does not consider the following: a) The ...


IEEE Guide for Laboratory Measurement of the Power Dissipation Characteristics of Aeolian Vibration Dampers for Single Conductors


IEEE Guide for Laboratory Measurement of the Power Dissipation Characteristics of Aeolian Vibration Dampers for Single Conductors

Abstract: The current methodologies, including apparatus, procedures, and measurement accuracies, for determining the dynamic characteristics of vibration dampers and damping systems are described. Some basic guidance is provided regarding a given method's strengths and weaknesses. The methodologies and procedures described are applicable to indoor testing only.



Jobs related to Aeolian Vibration

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