Gahungu, François (NEXANS, France) |
400 kV 2500mm² XLPE cable system prequalification and type test for Middle East environment - A.1.6 |
87/150 (170) kV Koksijde-Slijkens link - A.2.4 |
Gaudin, Christophe (EDF R&D, France) |
Diagnostic for paper cable condition assesment - A.5.4 |
Geene, H. T. F. (PRYSMIAN, Netherlands) |
Measurements of thrust load in cable systems rigidly installed in duct / manhole structures - B.8.6 |
Gehret, Sébastien (NEXANS, Switzerland) |
Oil replacement by water in unused oil-filled power cables - A.8.2 |
Geschiere, Alex (Nuon, Netherlands) |
Installing a long-distance HTS cable - A.3.3 |
Giffard, Philippe (Draka Paricable, France) |
Corrosion kinetics of LV cable galvanised steel screen - B.2.3 |
Gockenbach, Ernst (Schering Inst., Leibnitz Universität, Germany) |
A numerical method for 3D-description of scattered characteristic aging data from multistress aged XLPE-cable insulation - C.7.1.17 |
Goudeau, Jacques (NEXANS, France) |
Ecoconception, recycling and life cycle analysis in cable industry - A.8.6 |
Gourit, Laurent (RTE, National Centre for Grid Expertise, France) |
Environmental impacts in rural area of a HV underground link - A.8.3 |
Grabolosa, Jordi (General Cable, Spain) |
Use of nanofillers in high performance of MV cables under fire conditions. - B.3.6 |
Gracias, Doug (PRYSMIAN, UK) |
Fire hazard of MV / HV cables installed in tunnels - A.6.4 |
Granadino, Ramon (Red Electrica de España, Spain) |
Challenges of the second submarine interconnection between Spain and Morocco - A.9.1 |
Gross, Detlev W. (Power Diagnostix Systems, Germany) |
On-site partial discharge testing of distribution class cables using VLF and power frequency excitation - C.7.2.9 |
Gross, Hervé (PFISTERER, Germany) |
Innovative bolted connector for LV and MV with stepless shear bolts - C.5.1.7 |
Grünbaum, Rolf (ABB Power Technologies, Sweden) |
FACTS for optimum utilisation of cable networks in power transmission - A.6.1 |
Grund, Ruben (PFISTERER, Germany) |
Partial discharge diagnostic for cable terminations - C.7.2.8 |
Gulski, Edward (Ksandr, Delft, Netherlands) |
Evaluation of different replacement strategies of a medium voltage cable joint based on statistical failure analysis - B.1.2 |
Failure prediction in 50 kV mass-insulated power cable systems - A.6.3 |
Insulation diagnosis of high voltage power cables - C.7.2.1 |
Advanced solution for on-site diagnosis of distribution power cables - C.7.2.4 |
Experiences with PD offline diagnosis on MV cables - Knowledge rules for asset decisions - C.7.2.5 |
Novel method for on-site testing and diagnosis of transmission cables up to 250 kV - C.7.2.10 |
Gustafsson, Anders (ABB Power Systems, Sweden) |
Increased voltage for the HVDC light product range – a complete solution - B.4.7 |
Hairour, Mounir (AREVA T&D, France) |
Potential of multilayer coating for improvement of the dielectric withstand in gas insulated cable - A.3.5 |
Hampton, Nigel (Georgia Inst., ECE-NEETRAC, GA, USA) |
Long-life XLPE insulated power cables - C.5.1.5 |
Validating “diagnostic tests” for cables in service - B.6.6 |
Practical issues regarding the use of dielectric measurements to diagnose the service health of MV cables - A.7.5 |
Improved understanding of MV cable performance through extensions of existing ageing protocols - C.7.1.14 |
Hansson, Ola (ABB Power Systems, Sweden) |
Development of extruded single core cables for deep waters - B.7.1 |
Haraguchi, Junichi (Electric Power Development, Japan) |
Development of DC +/- 250 kV coaxially-integrated return conductor extruded cable - B.7.3 |
Harley, Ronald (Georgia Inst., ECE-NEETRAC, GA,USA) |
Practical issues regarding the use of dielectric measurements to diagnose the service health of MV cables - A.7.5 |
Hartlein, Richard (Georgia Inst., ECE-NEETRAC, GA, USA) |
Long-life XLPE insulated power cables - C.5.1.5 |
Validating “diagnostic tests” for cables in service - B.6.6 |
Practical issues regarding the use of dielectric measurements to diagnose the service health of MV cables - A.7.5 |
Improved understanding of MV cable performance through extensions of existing ageing protocols - C.7.1.14 |
Hashimoto, Satoru (J-Power Systems Corp., Japan) |
Development on recycling technology of XLPE - C.5.1.6 |
Hauschild, Wofgang (TU Dresden, Germany) |
HV AC testing of super-long cables and gas-insulated lines in factory and on-site - A.10.5 |
Hayashi, Katsuyuki (EXSYM Corp., Japan) |
Development of 400 kV class XLPE insulated power cable and accessories - A.1.1 |
Hegerberg, Rolf (Norwegian University of Sc.and Tech., Norway) |
Initiation of electrical trees from defects in XLPE insulation under DC stress - A.10.2 |
Henning, Gunnar (ABB Power Systems, Sweden) |
Modern fem-calculation tools – an ampacity calculation method for XLPE cables installed in ductbanks - C.5.2.1 |
Herbst, Heinz (CIBA Specialty Chemicals, Switzerland) |
Stabilizer concepts for Silane crosslinked polyethylene cable applications - C.5.1.3 |
Hermans, Theo J.W.H. (PRYSMIAN, Netherlands) |
On-site VHF partial discharge detection on power cable accessories - A.4.2 |
Sensitivity verification procedure of VHF PD detection systems - C.7.2.6 |
Hernandez, Jean C. (Georgia Inst., ECE-NEETRAC, GA,USA) |
Practical issues regarding the use of dielectric measurements to diagnose the service health of MV cables - A.7.5 |
Herrmann, Ulrich (IPH Berlin, Germany) |
After-installation testing of HV / EHV extruded cable systems – procedures and experiences - A.10.4 |
Hirano, Seishi (Electric Power Development, Japan) |
Development of DC +/- 250 kV coaxially-integrated return conductor extruded cable - B.7.3 |
Hirsch, Holger (University of Duisburg-Essen, Germany) |
An adaptive monitor program for dynamic thermal rating of power cables - C.5.2.3 |
Hondaa, Pierre (EDF R&D, France) |
Transition joints - C.5.1.13 |
Hvidsten, Sverre (SINTEF Energy Research, Norway) |
Initiation site analysis of vented water trees growing from the conductor screen of service and laboratory aged XLPE cable insulation - C.7.1.9 |
Water treeing at high hydrostatic pressure and temperatures - C.7.1.13 |
Hwang, Doo-Hyun (Taihan Electric Wire, South Korea) |
Partial discharge diagnosis on live EHV power cable using planar UWB antenna - C.7.2.11 |
Ide, Kenichi (Tokyo Electric Power CO, Japan) |
Remarkable tan delta suppression of oil filled cable insulation with extremely degraded tan delta oil - A.5.2 |
Idir, Nadir (Université de Lille, France) |
Power cable modeling under power electronic converter constraints - B.9.4 |
Ildstad, Erling (Norwegian University of Sc.and Tech., Norway) |
Initiation of electrical trees from defects in XLPE insulation under DC stress - A.10.2 |
Imai, Noriaki (EXSYM Corp., Japan) |
Development of 400 kV class XLPE insulated power cable and accessories - A.1.1 |
Iordanescu, Mircea (IREQ, Canada) |
A new customized pulling-cable software - B.2.4 |
Ishizone, T. (Chubu Electric Power Co, Japan) |
Development on the mortar material for cable systems in a directional drilling - C.5.2.5 |
Iwasaki, Kimihiro (Tokyo Electric Power CO, Japan) |
Development of outdoor-sealing-end of prefabricated-composite-insulator for 66/77 kV XLPE cable - C.5.1.16 |
Jäger, Karl-Michael (BOREALIS AB, Sweden) |
Initiation site analysis of vented water trees growing from the conductor screen of service and laboratory aged XLPE cable insulation - C.7.1.9 |
Janah, H. (NEXANS, France) |
Evolution of space charge and internal electric field distributions in HVDC cable under long term testing - A.7.6 |
Janssen, Anton (Nuon, Netherlands) |
Evaluation of different replacement strategies of a medium voltage cable joint based on statistical failure analysis - B.1.2 |
Failure prediction in 50 kV mass-insulated power cable systems - A.6.3 |
Jaquenod, Laurent (NEXANS, Switzerland) |
Oil replacement by water in unused oil-filled power cables - A.8.2 |
Jean, Daniel (IREQ, Canada) |
Time Domain Spectroscopy (TDS) as a diagnostic tool for MV XLPE underground lines - B.6.3 |
Diagnostic testing of MV accessories by Time Domain Spectroscopy (TDS) - C.7.2.17 |
Jeroense, Marc (ABB Power Systems, Sweden) |
Increased voltage for the HVDC light product range – a complete solution - B.4.7 |
Development of extruded single core cables for deep waters - B.7.1 |
Initiation of electrical trees from defects in XLPE insulation under DC stress - A.10.2 |
Jeyapalan, Jey K. (DR. Jeyapalan & Associates) |
Sharing pipelines, tunnels, conduits, multipurpose structures, and rights of way among power cables, optical cables, gaslines, sewers, heating ducts, hot water pipes, and potable waterlines - C.5.2.6 |
Making remaining life predictions for power cables using reliability analyses - A.8.1 |
Jongen, Rogier A. (Delft University of Technology, Netherlands) |
Evaluation of different replacement strategies of a medium voltage cable joint based on statistical failure analysis - B.1.2 |
Failure prediction in 50 kV mass-insulated power cable systems - A.6.3 |
Journeaux, Terry (PRYSMIAN, UK) |
Fire hazard of MV / HV cables installed in tunnels - A.6.4 |
Jung, Yeon-ha (KEPCO, South Korea) |
Surge propagation and protection of underground distribution cables - C.5.1.8 |
Surge propagation and protection of underground distribution cables - C.5.1.8 |
Kaba, Mehmet (Brugg Kabel, Switzerland) |
PD-monitoring and on-site-commissioning-test of 400 kV XLPE-insulated cable circuits at Jebel Ali / Dubai - A.7.3 |
Kalkner, Wilfried (Technische Universitaet Berlin, Germany) |
New approach for high voltage cable on-site testing - A.4.6 |
Kaneko, Satoshi (VISCAS Corporation, Japan) |
Compact various transition joints for up to 154 kV power cable - C.5.1.14 |
Development of dry type out-door terminations for 66 to 110 kV XLPE cable - C.5.1.17 |
Kang, JI-Won (KEPCO, South Korea) |
Development and its efficacy of sheath current reduction device on underground power cable systems - C.5.2.8 |
Kaptein, Bartjan (KEMA-TDT, Netherlands) |
Permanent on-line monitoring of MV power cables based on partial discharge detection and localisation - An update - A.4.1 |
Karlstrand, Johan (ABB Power Systems, Sweden) |
Modern fem-calculation tools – an ampacity calculation method for XLPE cables installed in ductbanks - C.5.2.1 |
FACTS for optimum utilisation of cable networks in power transmission - A.6.1 |
Kato, Kenji (EXSYM Corp., Japan) |
Development of 400 kV class XLPE insulated power cable and accessories - A.1.1 |
Kaumanns, Johannes (Südkabel, Germany) |
400 kV XLPE insulated cable systems with dry plug-in outdoor terminations - A.1.2 |
Kaya, Takeshi (Power System Engineering, Japan) |
Renewal works of underground transmission system in KEPCO - B.4.4 |
Keizer, Hans-Erik (KEMA, Netherlands) |
Experience with PD measurements and commissioning tests - A.7.4 |
Kelley, Nathan (PRYSMIAN, USA) |
Measurements of thrust load in cable systems rigidly installed in duct / manhole structures - B.8.6 |
Kim, Byung-sook (KEPCO, South Korea) |
Surge propagation and protection of underground distribution cables - C.5.1.8 |
Surge propagation and protection of underground distribution cables - C.5.1.8 |
A development of underground distribution cable for water-blocking and reducing protrusions - C.5.1.11 |
Kim, C.S. (LS Cable, Ltd., South Korea) |
Application results of real-time ampacity estimation system and intelligent power cable system. - C.5.2.2 |
Kim, H.L. (KEPCO, South Korea) |
Application results of real-time ampacity estimation system and intelligent power cable system. - C.5.2.2 |
Kim, Hwa Jong (Taihan Electric Wire, South Korea) |
Development of Pre-Molded Joint for 230 kV XLPE Power Cables - C.5.1.12 |
Kim, Hyun Joo (Taihan Electric Wire, South Korea) |
Development of Pre-Molded Joint for 230 kV XLPE Power Cables - C.5.1.12 |
Kim, Jung-Han (Hyundai Heavy Industries, South Korea) |
Monitoring based maintenance for underground cables utilizing sensor networks - C.7.2.15 |
Kim, Ju-yong (KEPCO, South Korea) |
Surge propagation and protection of underground distribution cables - C.5.1.8 |
Surge propagation and protection of underground distribution cables - C.5.1.8 |
A development of underground distribution cable for water-blocking and reducing protrusions - C.5.1.11 |
Kim, K.Y. (LS Cable, Ltd., South Korea) |
Application results of real-time ampacity estimation system and intelligent power cable system. - C.5.2.2 |
Kim, S.Y. (Taihan Electric Wire, South Korea) |
Development of Pre-Molded Joint for 230 kV XLPE Power Cables - C.5.1.12 |
Kim, Y.S. (KEPCO, South Korea) |
Application results of real-time ampacity estimation system and intelligent power cable system. - C.5.2.2 |
Kim, Yong-Joo (NeoTelecom, Seoul, South Korea) |
Feasibility study on application of WiMAX technology to underground cables data acquisition - C.7.2.3 |
Kishi, Koji (J-Power Systems Corp., Japan) |
Development of one piece type joint (self pressurized joint) for 400 kV XLPE cables - A.1.3 |
Klapper, Ulrich (Omicron electronics, Austria) |
Longitudinal induction voltage measurement on communication cables running parallel to overhead lines or power cables - B.9.5 |
K-factor measurement of cables for optimum reliability of distance protection and fault locators - B.9.6 |
Klein, Thomas (PFISTERER, Germany) |
Partial discharge diagnostic for cable terminations - C.7.2.8 |
Kluth, Richard (Sensornet, Elstree, UK) |
Application of temperature sensing and dynamic strain monitoring to subsea cable technology (DTS & DTSS) - A.9.6 |
Knutsen, Bjørn (NEXANS, Norway) |
Qualification, supply and installation of the world's first 420 kV XLPE submarine cable system in Norway - A.9.3 |
Kobayashi, S. (Chubu Electric Power Co, Japan) |
Development on the mortar material for cable systems in a directional drilling - C.5.2.5 |
Koch, Hermann (SIEMENS, Germany) |
Gas insulated transmission lines - Under-ground bulk power transmission achieving a maximum of operational safety and reliability - A.3.6 |
Kon, Hiroyuki (VISCAS Corporation, Japan) |
Development of an innovative residual-charge measurement technique for water-tree deteriorated XLPE cable - B.6.5 |
Kondo, Reishi (Tokyo Electric Power CO, Japan) |
Application of optical fiber current sensors to underground cables - A.5.5 |
Kondo, Taikichi (Chubu Electric Power Co, Japan) |
Investigation of the aging characteristics of CST termination made of silicone rubber at contamination area - B.1.1 |
Koreman, Kees (Tenne T, Arnhem, Netherlands) |
The Norned HVDC link – cable design and performance - B.7.2 |
Kozasa, Yoshihide (Chubu Electric Power Co, Japan) |
Investigation of the aging characteristics of CST termination made of silicone rubber at contamination area - B.1.1 |
Krähenbühl, Francis (NEXANS, Switzerland) |
Oil replacement by water in unused oil-filled power cables - A.8.2 |
Kulbotten, Harald (SINTEF Energy Research, Norway) |
Thermal and electromagnetic modelling of power umbilicals - B.8.2 |
Kunze, Dirk (SIEMENS, Germany) |
Gas insulated transmission lines - Under-ground bulk power transmission achieving a maximum of operational safety and reliability - A.3.6 |
Kuwaki, Akihisa (EXSYM Corp., Japan) |
Development of 400 kV class XLPE insulated power cable and accessories - A.1.1 |
Kvande, Stine (NTNU, Norway) |
Initiation site analysis of vented water trees growing from the conductor screen of service and laboratory aged XLPE cable insulation - C.7.1.9 |
Kwak, Bang-Myung (KEPCO, South Korea) |
Development and its efficacy of sheath current reduction device on underground power cable systems - C.5.2.8 |
Labbé, D. (Products and Marketing Ltd, Switzerland) |
Exploring the water treeing inhibition effect of antioxidants for XLPE insulation - C.7.1.10 |
Lalancette, Daniel (IREQ, Canada) |
Time Domain Spectroscopy (TDS) as a diagnostic tool for MV XLPE underground lines - B.6.3 |
Diagnostic testing of MV accessories by Time Domain Spectroscopy (TDS) - C.7.2.17 |
Lallouet, Nicolas (NEXANS, France) |
Development and demonstration of a long length transmission voltage cold dielectric superconducting cable to operate in the Long Island Power Authority grid - A.3.4 |
Lamballais, Lawrence (PRYSMIAN, Netherlands) |
On-site VHF partial discharge detection on power cable accessories - A.4.2 |
Sensitivity verification procedure of VHF PD detection systems - C.7.2.6 |
Landucci, Laurent (RTE EDF Transport, France) |
Leak location in oil paper cables - C.7.2.12 |
Lanning, John (New River Electrical Corp. , USA) |
New 345 kV underground extruded cable system project in Connecticut - A.2.3 |
Lanzarone, Lucien (RTE EDF Transport, France) |
Leak location in oil paper cables - C.7.2.12 |
Larsen, Jan Erik (Statnett, Norway) |
Qualification, supply and installation of the world's first 420 kV XLPE submarine cable system in Norway - A.9.3 |
Initiation of electrical trees from defects in XLPE insulation under DC stress - A.10.2 |
Laurent, Christian (Université Paul Sabatier, Toulouse, France) |
Effect of semicon-insulation interface on space charge formation in HVDC polymeric cables - B.7.4 |
A user-friendly tool for simulating the time-dependent field distribution in PE insulation on the basis of a physical approach - C.7.1.1 |
Tools for understanding the thermo-electrical behaviour of XLPE insulation in power cables and accessories - B.9.2 |
Laurent, Hervé (PFISTERER, France) |
Innovative bolted connector for LV and MV with stepless shear bolts - C.5.1.7 |
Le Roy, Séverine (Université Paul Sabatier, Toulouse, France) |
A user-friendly tool for simulating the time-dependent field distribution in PE insulation on the basis of a physical approach - C.7.1.1 |
Tools for understanding the thermo-electrical behaviour of XLPE insulation in power cables and accessories - B.9.2 |
Lebourdon, François (PRYSMIAN, France) |
Use of ecoconception software to design a HV cable connection - A.8.5 |
L'Écuyer, Richard (IREQ, Canada) |
Time Domain Spectroscopy (TDS) as a diagnostic tool for MV XLPE underground lines - B.6.3 |
Diagnostic testing of MV accessories by Time Domain Spectroscopy (TDS) - C.7.2.17 |
Lee, Byoung-Ho (Hyundai Heavy Industries, South Korea) |
Wavelet analysis based scheme for fault detection and classification in underground power cable systems - C.7.2.2 |
Lee, J.M. (LS Cable, Ltd., South Korea) |
Application results of real-time ampacity estimation system and intelligent power cable system. - C.5.2.2 |
Lee, Jae-bong (KEPCO, South Korea) |
Surge propagation and protection of underground distribution cables - C.5.1.8 |
Surge propagation and protection of underground distribution cables - C.5.1.8 |
A development of underground distribution cable for water-blocking and reducing protrusions - C.5.1.11 |
Lee, S.K. (LS Cable, Ltd., South Korea) |
Application results of real-time ampacity estimation system and intelligent power cable system. - C.5.2.2 |
Lehnhäuser, Jürgen (Südkabel, Germany) |
400 kV XLPE insulated cable systems with dry plug-in outdoor terminations - A.1.2 |
Léonard, François (IREQ, Canada) |
On-line location of partial discharges in an electrical accessory of an underground power distribution network - A.7.2 |
Leroy, Yves (NEXANS, Belgium) |
87/150 (170) kV Koksijde-Slijkens link - A.2.4 |
Lervik, Jens Kristian (SINTEF Energy Research, Norway) |
Thermal and electromagnetic modelling of power umbilicals - B.8.2 |
Lesur, Frédéric (EDF R&D, France) |
French experience in aluminium laminated screens - A.1.4 |
New specification to check cable sheath resistance to termites - B.1.5 |
Harmonising MV cables - B.2.6 |
Health index, a tool for asset management - B.4.1 |
Upgrading and uprating of underground existing systems - B.4.3 |
Liemans, D. (NEXANS, Belgium) |
87/150 (170) kV Koksijde-Slijkens link - A.2.4 |
Lim, H.E. (KEPCO, South Korea) |
Application results of real-time ampacity estimation system and intelligent power cable system. - C.5.2.2 |
Lim, Jong-Cheon (Taihan Electric Wire, South Korea) |
Partial discharge diagnosis on live EHV power cable using planar UWB antenna - C.7.2.11 |
Lindsay, David T. (Southwire Company, GA, USA) |
Installation and commissioning of TRIAX HTS cable - A.3.2 |
Linois, Pierre (RTE - TENP - GIMR,, France) |
Hydrogen elimination from a 225 kV HPOF pipe-type line - C.7.2.13 |
Liu, Zhao (University of New South Wales, Australia) |
Continuous on-line monitoring of PDS in HV cables - A.4.3 |
Lodeiro, Manuel (Draka Paricable, France) |
Corrosion kinetics of LV cable galvanised steel screen - B.2.3 |
Loyens, Wendy (BOREALIS AB, Sweden) |
Fire hazard of MV / HV cables installed in tunnels - A.6.4 |
Luton, Marie-Hélène (SILEC CABLE, France) |
New 345 kV underground extruded cable system project in Connecticut - A.2.3 |
Lwin, Kyaw-Soe (Wonkwang University, South Korea) |
Partial discharge diagnosis on live EHV power cable using planar UWB antenna - C.7.2.11 |
Lyall, Jim (Queensland University, Australia) |
Computer simulation of measurements on XLPE cables - C.7.1.2 |
Lynch, Nancy (Praxair, Danbury, USA) |
Installing a long-distance HTS cable - A.3.3
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