Spring 2010 - Presentations

Check this page periodically to learn about the Presentations scheduled for the Spring meeting.

• Opening Session
• Mini-Expo Vendors
• Subcommittee A
• Subcommittee B
• Subcommittee C
• Subcommittee D
• Subcommittee F
• Transnational Luncheon
• Educational Program

Please Note: This is a only a listing of the presentations and
UNLESS NOTED, DOES NOT IMPLY THE ORDER IN WHICH THEY WILL BE PRESENTED.

• Opening Session - Monday, March 22, 2010, 8:15 - 9:40 AM
  • Keynote Speaker: We are excited to have Paul Allen, the Vice President of Engineering from Nashville Electric Service (NES) who will be speaking at the Opening Session on Monday morning, talking about NES, electric vehicles, and their 69-kV tunnel project.
  • Biography: Paul H. Allen, P.E.
    Paul Allen is responsible for engineering activities relating to the planning, design, operation, and maintenance of the Nashville Electric Service (NES) system.
    Mr. Allen began working at NES in 1971 as an Engineering Aide participating in the Co-operative Education program. After graduation from college in 1974, he joined NES as a Junior Engineer. He held the positions of Engineer, Engineering Supervisor, and Customer Engineering Manager prior to being named Vice President of Engineering in November of 1993.
    He holds a B.S. degree in Electrical Engineering from Tennessee Technological University and a M.S. in Engineering Administration from the University of Tennessee. He is a Licensed Professional Engineer in the State of Tennessee. He is a senior member of the Institute of Electric and Electronic Engineers, and is chairman of the American Public Power Association Reliable Public Power Provider (RP3) panel.
  • IEEE Herman Halperin Electric Transmission and Distribution Award
    The 2010 IEEE Herman Halperin Electric Transmission and Distribution Award will be presented to Carlos Katz by Enrique Tejera, who is the IEEE Division VII Director. This is one of the most prestigious awards that can be given IEEE. Please make sure that you make it to the opening session to congratulate Carlos! For some more details on this award, please follow this link.

   

• Mini-Expo Vendors
  • AP Sensing - AP Sensing will be showing their Linear Power Series which offers: • Real Time Distributed Temperature Monitoring of High Voltage Transmission & Distribution Lines • Asset Visualization • Hot Spot Detection • Dynamic Cable Rating / Real Time Thermal Rating • Emergency Rating • Reporting & Analysis
    Distributed temperature monitoring provides continuous monitoring of high power cable temperatures, detecting hot spots, delivering operational status, condition assessment and power circuit rating data. This helps operators optimize their transmission facilities and distribution networks, reducing operating costs and improving asset utilization. http://www.apsensing.com
  • HIGHVOLT - HIGHVOLT produces high voltage AC, DC and Impulse Test Systems and specializes in Test Equipment for Power Transformers, Cables and all Electrical Apparatus with the highest levels of customer support and engineering excellence. Table Top presentations will include Cable Test solutions for Field and Factory High Voltage testing including details on Mobile High Voltage Resonant Test systems for HV Cables.
  • HV Diagnostics - A world leading provider of state of the art advanced high voltage electrical testing equipment including High Voltage DC & VLF, Cable Testing/Diagnostic Systems and Automatic Oil Testers. http://www.hvdiagnostics.com
  • ILJIN Electric Co As one of the biggest EHV power cable manufacturers in South Korea, ILJIN Electric Co., Ltd.(ILJIN) has been successful especially in Asian, the Middle Eastern and European market. ILJIN produces EHV power cables up to 500kV and 3000mm2 and its cables are type and PQ test certified up to 400kV by independent 3rd party laboratories such as KEMA, CESI, SGS, KERI and so on. During the Expo, ILIN will display its product samples and make short presentation about the company to whomever wants to know about ILJIN.
  • IMCORP "IMCORP is the leading provider of underground power cable reliability enhancement solutions. The company’s patented partial discharge (PD) diagnostic technology, proven through testing of thousands of miles of underground cable, pinpoints the exact location of cable defects with unsurpassed accuracy. In addition to locating existing cable and accessory defects, IMCORP’s non-destructive test methodology provides predictive diagnostic information concerning future cable performance. IMCORP’s reliability improvement process is a proactive approach designed to be integrated into a client’s existing reliability program. The process is proven to dramatically improve cable reliability at a significantly lower cost.”
  • The Mears Group  Specializing in Horizontal Directional Drilling Services: One of the largest horizontal directional drilling contractors in the world with a fleet of 28 small, mid-size & large drilling rigs with up to 1,100,000 lbs. of pullback that can install pipe up to 60 inches in diameter and up to 8,000 feet in length. For more information on our services, please call: U.S. (800) 632-7727, Canada (780) 955-7155 or visit www.mears.net.
  • OMICRON is an international company serving the electrical power industry with innovative testing and diagnostic solutions. With customers in more than 130 countries, OMICRON products provide users with the highest level of confidence in the condition assessment of primary and secondary equipment on their systems. Products include: Test Instruments for Protective Relays, CT's, Power Transformers, & all Substation Apparatus. Specialized tests include Sweep Frequency Response Analysis (SFRA), Dielectric Frequency Response (DFR) & Partial Discharge (PD). Visit www.omicronusa.com
  • Techimp (TECHnological IMProvements) S.p.A is a company dealing with innovative diagnostic technologies applied to electrical engineering, with a strong commitment to innovation and research. Techimp offers a complete products and services portfolio able to provide the best knowledge-based diagnostic solutions for electrical assets, covering the full range of on-line and off-line applications from quality control testing, to condition based maintenance and permanent remote monitoring. Techimp Systems has now overcome new technological frontiers by developing the ultimate Instruments & Global Monitoring Systems for the diagnostic of electrical equipment focused on a multi-task approach. The core of the approach is based on an innovative technology for Partial Discharge detection and analysis, now extended to other quantities, such as dissolved gas in oil, vibrations, temperature (hot spots), power quality, tan-delta, environmental conditions, using a unique monitoring system. http://www.techimp.com
  • UtilX Corp "UtilX^® Corporation, the global leader in life-extension technologies, provides proprietary CableCURE^® cable rejuvenation, along with CableWISE^® system-wide condition assessment, including cable testing, and has restored more than 80 million feet of unreliable power cable. www.utilx.com."
  • W.A. Chester, L.L.C. is the industry-leading electrical contractor for the installation, maintenance and repair of underground high voltage pipe-type and solid dielectric cable transmission and distribution systems. Founded in the 1930’s, our clients include electric utility companies and independent power producers in the United States and Canada and we are one of three specialty contractors performing this type of work on a national basis. In addition to underground systems, W.A. Chester, L.L.C. has expanded its services to include installation, maintenance and repair of overhead electric distribution cable systems. For more information, please visit our website at www.wachester.com.

   

• Subcommittee A - Cable Construction and Design - Monday, March 22, 2010, 10:00 AM - 12:30 PM
  • 10:00AM - 10:15AM - Subcommittee Business/Announcements
  • 10:15 - 10:40 “Modern Pipe Type Cable System - New High Voltage XLPE Cable in Pipes and Associated Accessories including Transition Joints“ Matthias Kirchner, Nexans High Voltage Extruded Cable Systems, NEXANS
    Abstract: A modern XLPE -insulated cables up to 150 kV is now available to replace old paper insulated pipe type cables. The design of the cable (reduced insulation thickness) and the accessories (compact design) was new delevoped and qualified so that the system fits into the existing steel pipes. We will report about our four year expierence with commercial retrofitting of complete 110 kV external gas pressure cable systems. The next step was to develop a new transtion joint to enable the replacement of only sections of the old paper insulated cable. The new design of this transition joint and the qualification tests will be presented.
  • 10:40 - 11:05 “Breakdown of MV Cable Jackets under Impulse Conditions”, Caryn Riley, Ray Hill, Nigel Hampton NEETRAC
    Abstract: It has been suggested that URD cable circuits can experience abnormally high voltages between the neutral and the ground resulting from power system switching, faults, and lightning. The concern is that if these voltages are sufficiently high then they may cause puncture of the jacket. If the puncture is large enough then this may admit water and the water might accelerate the growth of water trees and / or cause corrosion of the neutral.
    This presentation details an experimental program that aims to determine impulse characteristics of cable jackets. The cables selected were 1/0 175mil WTRXLPE with 50mil LLDPE compounded ins jacket. The study determined breakdown levels and examined the evidence of time dependence for the impulse failures.
  • 11:05 – 11:15AM - Break
  • 11:15 - 11:40 “Development and Type Test of a 500kv XLPE Cable System”, Kwang-Soo Kim, Jong-Soo Kim, Chang-Sung Go, Si-Ho Son, Han-Soo Jo LS Cable Ltd., Republic of Korea
    Abstract: This paper deals with the development of 500kV XLPE cable system for EHV lines and refer to the results of the type tests. As the growing of popularity in worldwide market of EHV XLPE cable system in a wide range of voltage class recently, we have developed XLPE cable of insulation thickness 30mm, pre-molded joint, outdoor termination and GIS termination up to 500kV voltage class with research on electrical and mechanical properties of material. The availability of pre-molded accessories, that reduce the workmanship and that are subjected to routine test in the factory, have strongly reduced the risk of failures of the accessories. In order to verify the design and reliability of the system, the type test was performed according to IEC 62067. This paper describes the design and development test of 500kV XLPE cable and accessories and reviews the result of the type test.
  • 11:40- 12:05 “XLPE Material Selection Characteristics to Consider for HV and EHV Cables”, Paul Caronia, Jeffrey Cogen, Tim Person, The Dow Chemical Company
    Abstract: The usage of crosslinked polyethylene insulation for high voltage and extra high voltage cables is growing globally. In North America, ICEA and AEIC cable specifications now provide for using crosslinked polyethylene insulated cables up to 345 kV. Polyethylene's advantages of high dielectric strength along with its inherent characteristics of toughness, resistance to chemicals and moisture, and flexibility at low temperatures make it an excellent material for this application. We will review some common and less common criteria to be considered when selecting crosslinked polyethylene insulation materials for HV and EHV cables.
  • 12:05 -12:30 “Improving Surface Smoothness of Semiconductive Shields”, Laurent Gervat, Sébastien QUINEBECHE, Arkema, France Oliver Hissmann, OCS, Germany
    Abstract: Using the new OCS Nip Detection System dedicated to semiconductive shields, we have analysed the surface smoothness of several semiconductive compositions for medium / high voltage conductor shields. It was observed that the addition of a particular ethylene acrylate copolymer decreases the size and the number of protrusions by two folds. This technique appeared more efficient than using a lubricant or other types of copolymers.

   

• Subcommittee B - Accessories - Monday, March 22, 2010, 2:00 - 5:30 PM
  • 2:00-2:15 – Introduction/Announcements, Harry Yaworski, Tyco Electronics - chair
  • 2:15-3:00 - “Highlights of Termination Selection Guide, P-1637”, Bill Taylor, 3M Austin Center.
    Abstract: Presentation will provide an overview of the recently completed Termination Selection Guide and highlight some of the specifics in the guide. We will also look at some of the negative comments and discuss what should be added to the guide during the next revision.
    Bill Taylor graduated from the University of Texas at Austin in 1975 with a BSEE degree. He spent 14 years as a plant electrical engineer for several petrochemical plants on the Houston ship channel. He went to work for 3M in 1989 as a product development engineer in the cable accessories area, and continues in that capacity at the present time. He is a member of IEEE/IAS and PCIC, IEEE/PES and active in the ICC. He was vice chairman of the ICC in 2002 & 2003 and chairman in 2004 and 2005. He has written and presented numerous papers for IEEE and other conferences.
  • 3:00-3:45 - “IEEE 404: Past, Present and Future”, Glenn Luzzi, Richards Manufacturing Company
    Abstract: This presentation will cover the important changes in IEEE 404 as it keeps pace with new cable advances, new joint technologies and joint enhancements.
    Glenn Luzzi graduated from Stevens Institute of Technology, Hoboken, New Jersey in 1972 with a Bachelor of Electrical Engineering degree. He began his 38-year career in power engineering with The Okonite Company as a Research Engineer in the High Voltage Laboratory. He joined Elastimold in 1978 as a joint and separable connector Product Design Engineer. In 1993, as Director of Engineering, he headed up the design and development teams responsible for joints, separable connectors, submersible current-limiting fuses and vacuum switchgear. He joined the Richards Manufacturing Company in 1999 as Manager of H.V. Products. In his career he has authored or co-authored 22 U.S. patents. He is a member of IEEE and the Insulated Conductors Committee and serves as Chairman of the working group B2W.
  • 3:45-4:30 - “Exploration of IEC 60502-4 & IEC 60840 as Compared to IEEE 404-2006”, Wolfgang B. Haverkamp, WBH Engineering
    Abstract: The intention of this presentation is to explore the IEC standards for testing and qualification of cable accessories supplied and installed on extruded and laminated power cable. Test methods and procedures will be brought into context with the current IEEE 404 and 48 standards. Since the differences are in general significantly small a possible platform could be created harmonizing and/or adapting the standard requirements within IEEE and IEC on insulated conductors for power applications.
    Wolfgang Haverkamp graduated in 1966 from the University of Essen Duisburg, Germany with a degree as Diplom Ingenieur (M. Sc. EE-PE). His employment experience includes Siemens A.G. (R&D), Kaiser Aluminum and Chemical Corporation (project management). In 1980 he joined Raychem Gmbh, Energy Products Division in Ottobrunn, Germany. His areas of responsibility have included managing development projects on cable accessories, their application and product management for HV Cable Accessories. In 1998 he became the R&D Manager at Tyco Energy Division, responsible for product innovation and introduction of HV application up to 170kV. Special fields of interest include power-electronic and control units development, cable technology, dielectrics and material research, processing, and HV testing. He is a working group member of IEEE/PES/ICC and member of the German electrical authority VDE and member of CIGRE. Since 2006 he is retired and in charge of an engineering office, running seminars and giving lectures. He has published various technical papers about cable accessories and their technologies within the global ICC/IEEE and IEC community.
  • 4:30 - 5:00 PM - “The Subcommittee B Winter Olympic Games” Tom Champion, NEETRAC and Harry Yaworski, Tyco Electronics.
    Abstract: Questions and answers about standards and trivia under the jurisdiction of Subcommittee B.

   

• Subcommittee C - Cable Systems - Tuesday, March 23, 2010, 2:00 - 5:30 PM
  • 2:00 - 2:10 PM Subcommittee C Opening Remarks and Announcements
  • 2:10 - 2:45 PM : HV and EHV Cable Systems for Abu Dhabi, by Pierre Argaut, Silec Cable (France)
    Abstract: The presentation will give an overview of the Technical issues regarding the integration of new High Voltage (HV) and Extra High Voltage (EHV) cable systems in the Network of Abu Dhabi in the voltage ranges from 145 kV to 420 kV.     The presentation will cover Design, Testing, Installation, After Laying tests, Operation and Monitoring, and focus on operator's needs regarding thermal rating of the systems.
  • 2:45 - 3:15 PM :  Importance of Soil Thermal Characteristic for Cable Rating, by Deepak Parmar, Geotherm, Inc.
    Abstract : All the heat generated by an underground power cable must be dissipated through the soil in which it is buried. This is quantified by the soil thermal resistivity (or thermal rho, (C-cm/W), which can vary from 30 to 500 C-cm/W. Electrical Engineers understands the performance of the cable quite well, but to most, the soil behavior is a mystery, usually handled by using a thermal backfill with a supposedly "safe" thermal rho. The ability of the surrounding soil to transfer the heat determines whether an operating cable remains cool or overheats. Improving the external thermal environment and accurately defining the soil and backfill thermal rho commonly results in a 10% to 15% increase in cable ampacity, with 30% improvements noted in some cases. The presentation will cover the parameters that control the thermal resistivity and thermal stability of soil and corrective thermal backfills. Case studies with slides of route thermal surveys of underground and submarine power cables as well as wind-farm projects will be presented.
  • 3:15 - 3:30 PM Break
  • 3:30 - 4:00 PM : Sinatra 230kV Transmission Projects - NV Energy, by Dennis McAninch, NV Energy
    Abstract: In the Spring of 2009, NV Energy completed the Sinatra 230kV Transmission Project consisting of approximately 2.4 miles of double circuit 230kV line with overhead and underground sections providing a loop connection to the new Sinatra Substation. Of the 2.4 miles of new line, approximately one mile of the line is underground in two (2) parallel duct bank systems. The underground section of the line crosses under Interstate -15 in two 42-inch  casings pipes then using a combination of public and private easements along Dean Martin Drive, Tropicana Avenue and Valley View Blvd to a pair of riser structures at Valley View and Naples Drive. Along the route the duct banks cross under an 84-inch water line which feeds a major portion of the Las Vegas Valley.
  • 4:00 - 4:30 PM : Field Performance of Medium Voltage Polyethylene Cable in a Conduit System, by Jon Erickson, San Diego Gas & Electric.
    Abstract: This presentation will discuss the field performance of medium voltage unjacketed high molecular weight and crosslinked polyethylene cable installed in a conduit system at San Diego Gas & Electric (SDG&E). It will also discuss the performance of medium voltage jacketed crosslinked and tree retardant crosslinked polyethylene cable installed in a conduit system at SDG&E. Unjacketed polyethylene cable began to be installed at SDG&E in the mid 1960's and failure data has been collected for this cable from the point that it started to fail until today. Jacketed cable began to be installed around 1980 and failure data has also been collected for this cable and will be presented. Data on poor performing vintages and seasonal failures will be discussed. Cable failures rates will be presented as well as cable failure projections.
  • 4:30 - 5:00 PM : Energizing the Gjoa Oil and Gas Platform with a Dynamic Power Cable, by Marc Jeroense, ABB Sweden
    Abstract: The oil and gas industry is constantly reviewing and judging the possibilities of new investments to explore new or upgrade existing oil and gas fields. An example of the exploration of a new oil and gas field is Gjoa, which is located approximately 100 km northwest of Bergen, Norway. The water depth in the area is 380 m, and a dynamic HV cable rising from the seabed to the floating production facility was needed. A floating platform needs a considerably different cable concept than a static platform. The dynamic cable has to withstand the substantial mechanical stresses due to weather conditions and depth. Required fatigue properties are essential. Due to the high voltage of the power transmission, a radial water barrier was needed. No such cable has been developed or been commercially available earlier. A dynamic High Voltage XLPE cable was developed and qualified by ABB and Statoil. The cable has double armouring and a welded copper sheath as a radial water barrier and screen for the cable. Lead is normally used for this purpose but due to the extensive dynamic mechanical loading of the cable lead can not be used in this application. Without the required fatigue properties of the screen it will lose its function both as a water barrier protecting the XLPE insulation and as an electrical conducting sheath. It is the first time welded copper is used as a screen in a high voltage submarine cable. The dynamic part of the cable is about 1.5 km long whereas the remaining static part measures 99.5 km. This section is designed for a water depth of about 550 m. The two parts were spliced in a transition joint. The cable is designed for Um = 123 kV. A fibre optic cable with 48 fibre elements was integrated in the cable. The fibre optic cable is used for main communication from the platform to shore, temperature monitoring close to the platform as well as regulation of the electrical system onshore. Required safety systems and functions located onshore are connected to the platform via dedicated fibres in the cable. This highly innovative project has resulted in a major step in diminishing environmental loading. This was done by means of the Power from Shore concept and the use of a world record long HVAC submarine cable where extreme mechanical loadings are met by abandoning lead and introducing welded copper as a sheath.
  • 5:00 - 5:30 PM : Hop Scotching Biscayne Bay with Horizontal Directional Drilling for Florida Power and Light's 138 kV High Pressure Gas Filled Pipe-Type Cable Circuit, by Earle C. (Rusty) Bascom, III, PDC, and Joseph Rezutko, Florida Power and Light
    Abstract: Florida power and Light contracted the construction of a 138kV high-pressure gas-filled pipe-type cable circuit between Miami and Miami Beach to reinforce the reliability of power in the area. Design and construction of the project presented many technical challenges. This presentation summarizes considerations for cable system selection and design, route selection, civil construction methods, weather, installation contingency management, and commissioning.  
  • 5:30 - 5:35 PM : Closing Remarks

   

• Subcommittee D - Generating Station Cables - Tuesday, March 23, 2010, 8:00 AM - 12:00 PM
  • 8:00 - 8:15: Subcommittee D Business/Announcements
  • 8:15 – 8:55: Update on P1682, Fiber Optic Seismic Qualification and New Fiber Optic Designs, by Jan Pirrong/CableLAN Products, Inc.
    Abstract: The current status of P1682 (Qualification of Fiber Optic Cable) will be presented, followed by a review of recent seismic qualification of fiber optic assemblies for Class 1E applications and finally an update on new fiber optic cable designs for nuclear power plants, particularly a completely gel-free loose tube cable.
  • 8:55 - 9:40: Medium Voltage Cable Condition Monitoring and Qualification Considerations, by Bob Minadeo/Kinectrics
    Abstract: US Installed nuclear cable (Class 1E) has received considerable regulatory and operational attention. This attention has been largely attributable to failures of installed cable and commitments by nuclear utilities in their license renewal applications to implement cable aging management programs. Considerable attention has been given to wet, underground cable and the issue of submergence. In response to these issues, a revision to IEEE 383 is planned to address condition monitoring and the issue of submergence. Testing techniques will be presented that assess underground MV cable and identify degraded areas. Testing results from actual field cable will be used to illustrate the techniques. Additionally, qualification considerations to address long term submergence for 1E cable will be presented and discussed.
  • 9:40 - 10:05: Modeling the Thermal Response of Power Cables in a Fire Exposure, by Marshall Sharp/Southwest Research Institute
    Abstract: A different approach to the design process for fire resistant power cables, often referred to as performance based design, will be presented. This process utilizes modeling of cable systems for code compliance, rather than using standardized test results. A 2-D thermal model is developed based on the cross-sectional geometry of the cable. Material properties can be measured by means of thermo-gravimetric analysis and differential scanning calorimetry or may be determined using a parameter estimation technique. The standard time-temperature relationship from ASTM E119 or UL 2196 can be used as a boundary condition. The method can be used to determine if the melting point of the conductor is exceeded, or if ignition of insulation materials will occur.
  • 10:05 – 10:25: Break
  • 10:25 - 11:05: Assuring Critical Cable System Reliability with Effective Diagnostics, by Ben Lanz/IMCORP
    Abstract: Through the use of off-line 50/60Hz partial discharge (PD) diagnostics (a Defect Specific Diagnostic -DSD- technology), critical facility owners have been able to repeat the manufacturers’ PD test in the field and use cable system profile information to dramatically improve the reliability and availability of their power cable system assets. Data and test comparison case studies collected over the last decade demonstrate this dramatic improvement in cable system performance.
  • 11:05 – 11:35: Low Smoke Zero Halogen Cable Technology, by Bob Gehm/Rockbestos Surprenant
    Abstract: With today’s heightened awareness of security and life safety issues; there is a rapidly growing trend toward LSZH technology in the domestic wire and cable industry. This paper will explain and contrast the base fire suppression mechanisms involved in both traditional halogenated and the new wave of zero halogen systems. It will explore the deficiencies of early versions of non-halogenated flame retardants which effectively block their acceptance in North America and delineate the advances of state of the art materials that will lead to their acceptance into our markets.

   

• Subcommittee F - Field Testing and Diagnostics - Wednesday, March 24, 2010, 8:00 AM - 12:00 PM
  • 0800 - 0810 :  Subcommittee & Working Group Business
  • 0810 - 0840 : The use of Pulse Shape in PD testing of Transmission and Distribution Cable Systems, by Luigi Testa, Techimp
  • 0840 - 0910 : Practical Smart Withstand Programs by Craig Goodwin, HV Diagnostics
  • 0910 - 0940 : Dielectric Loss Measurements from the Norwegian Power Grid by JF Drapeau, IREQ, Sverre Hvidsten, SINTEF
  • 0940 - 1010 : Investigation of VLF Test Parameters Josh Perkel NEETRAC
  • 1010 - 1030 : Break
  • 1030 - 1100 : Applicability of Factory Test Criteria to Diagnostics in the Field by Bill Temple, General Cable, Bill Taylor, 3M
  • 1100 - 1130 : Can PD Measurements bring Clarity to HV Commissioning Tests? by Mark Fenger, KINECTRICS
  • 1130 – 1200 : The development of an Asset Management discussion model for 50 kV SCFF cable circuits, by Aloys Bun (Liander Asset Management), Kelvin Hooft van Huisduijnen (Delft University), Frank de Vries (Liandon)

   

• Transnational Luncheon - Tuesday, March 23, 2010, 12:15 - 2:00 PM
  • 1. Opening by Wim Boone
  • 2. International calendar of events, Wim Boone
  • 3. Connecting a 400 MW offshore wind farm cluster to the net by HVDC light, Marc Jeroense ABB
  • 4. Type testing of a new 220 kV cable system from South East Asia, Thailand by Churdpong Maneesin, Phelps Dodge International Corporation Thailand
  • 5. An overview of 500 kV XLPE cable projects and completion of 500kV PQ test in China, Shoji Mashio, Sumitomo Electric USA, Inc
  • 6. AC, DC and superconductive technologies for power transmission under high voltage and high current, Pierre Mirebeau, Nexans
  • 7. Next CIGRE session (2010 ) in Paris, Pierre Argaut

   

• Educational Program - High Voltage DC Land and Submarine Cable Systems - Wednesday, March 24, 2010, 1:00 - 5:00 PM
• 1. Fundamentals of High Voltage DC Land and Submarine Cable Systems: by Mark Jeroense, ABB Cables, Sweden
  2. Practical Considerations for High Voltage DC Land and Submarine Cable Systems: by Ernesto Zaccone, Prysmian Cables, retired
  3. Utility Experience with HVDC Submarine Cables Operation: by Sudhakar Cherukupalli, BC Hydro and Allen MacPhail, Cabletricity, Canada

   

  NEW!  0.4 CEUs will be offered for this session.  You must register in order to receive CEUs.  (Please note, in order to receive these credits towards a Florida PE License, you MUST provide Thomas Arnold with your FL PE License number prior to the session.

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