The field of interest of DEIS comprises the study and application of dielectrics from the molecular level, through nano-structured materials, to insulation systems in industrial, commercial, and power system equipment. It also covers new applications such as those at ultra-high voltages (UHV) and in other small-scale systems like biology. The scope of the technical activities of DEIS covers the advancement of basic science, as well as the education of practicing engineers in using emerging dielectric materials, and the development of standards for the prudent application of existing and new insulation systems.
The technical activities of DEIS are currently carried out within framework of the following technical committees involving experts from academia and industry.
1 Aging Factors
Gathering knowledge on insulation aging and failure mechanisms; helping to develop IEEE standards for evaluating material and insulation life under different stress factors. Providing leadership, information and coordination through organization of technical meetings, workshops, sessions and publications. Develop or revise guides for the use of statistics in the evaluation of electrical insulation properties.
Chair: Dr. Hugh Zhu, Doble Engineering Company, Watertown, MA, USA
Highlighting developments of new diagnostic techniques and stimulating research and education on diagnostic methods for stronger and smarter grid solutions. This will be achieved by arranging special sessions on diagnostics and measurements at DEIS meetings, organizing dedicated workshops, generating review articles, publishing special issues in the journals of DEIS and promoting diagnostics related topics on DEIS web portal.
Chair: Dr. Marek Florkowski, ABB Corporate Research, Krakow, Poland
3 Discharges in Air at UHV
Promoting the development of knowledge concerning the phenomena and mechanisms involved in the initiation and propagation of discharges in air with respect to AC and DC UHV as well as to propose appropriate solutions to suppress the discharges. This includes gathering test methods and available solutions currently proposed by various researchers and institutes, and surveying newly developed materials used on UHV systems to prevent discharges. This will be achieved by arranging special sessions on this topic during DEIS activities, organizing workshops on this subject, generating review articles, and publishing special issues in DEIS publications.
Chair: Dr. Liming Wang, Tsinghua University, China
4 Liquid Dielectrics
Coordinating technical activities and communicating knowledge concerned with use and evaluation of new liquid dielectrics. The evaluation of liquids includes assessment of long-term performance capabilities as well as of health and safety hazards associated with the use of liquids in electrical equipment. This will be achieved by arranging special sessions at DEIS meetings, organizing workshops on this topic, generating review articles, and publishing special issues in the journals of DEIS.
Chair: Dr. Issouf Fofana, University of Quebec at Chicoutimi
Following the emergence of knowledge in the field of nanodielectrics and assessing of the potential of these materials and material systems for enhanced performance of existing electrotechnical applications. The knowledge will be disseminated by arranging special sessions at DEIS meetings, organizing workshops on this topic, generating review articles, and publishing special issues in the journals of DEIS.
Chair: Dr. Michel Fréchette, Hydro Quebec Research Institute, Varennes, QC, Canada
6 Numerical Methods Applied to Dielectrics
Reviewing the state of knowledge on the numerical modeling of physical phenomena occurring in dielectrics including gas, liquids and solids, and to assess the progress accomplished with numerical simulation in the field of dielectrics over the past two decades. This will enable the anticipation and suggestion of future trends and the facilitation of collaborative actions. This will be achieved through arranging special sessions at DEIS meetings, organizing workshops on this topic and launching joint research initiatives.
Chair: Dr. Fulbert Baudoin, Université de Toulouse, Toulouse, France
7 Outdoor Insulation
Providing a scheduled forum for the discussions of phenomena and evaluation methods specific to the use of materials as high voltage electrical insulation in the outdoors. To study test methods currently used by various laboratories and to survey a variety of available materials. This will be achieved by arranging special sessions at DEIS meetings, organizing workshops on this topic, generating review articles, and publishing special issues in the journals of DEIS.
Chair: Dr. Refat Ghunem, National Research Council Canada
8 Smart Grids
Defining the role of electrical insulation and dielectrics in the Smart Grid concept and bringing the material/component related issues on the agenda of Smart Grid communities outside of DEIS. Stimulating the construction of funding schemes for projects that contribute to Smart Grids on the component/material level. This will be achieved by arranging special sessions and panel discussions at DEIS meetings, organizing workshops on this topic, generating review articles, and publishing inputs and activating discussions at DEIS web page.
Chair: Dr. James Pilgrim, University of Southampton, Southampton, UK
The scope of the Standards Committee encompasses all technical functions and is concerned with the origination, development and publishing of consensus standards which fall within the general scope and responsibility of DEIS. It requires the coordination of these standards with other organizations, both nationally and internationally, in the preparation of such standards of interest and concern of DEIS.
Chair and Standards Liaison: Dr. Sudhakar Cherukupalli, PE, BC Hydro, Barnaby, BC, Canada
10 HVDC Cable Systems
The Scope of the HVDC Cable Systems Committee is developing IEEE technical specifications, recommendations and standards for testing HVDC extruded cable systems (cables, joints and terminations). Focus is on the following topics: lightning and switching impulse tests based on a proper selection of the level and the polarity of impulse voltage; load cycle tests based on a proper selection of the level and duration of test voltages; cable characterization in prequalification and type tests (including protocols for space charge measurements, crosslinking by-products evaluation, other effective parameters for diagnosis); polarity reversal tests; weathering tests on composite terminations.
Chairman: Giovanni Mazzanti, University of Bologna, Italy, e-mail: email@example.com
Page Last Updated May 2018