Technical Programme
| Sunday June 21st, 2015 - 17:15 | |
| AW - Welcome Lecture | |
| Sunday June 21st, 2015 - 17:15 - 18:30 - Room: Richelieu (A) | |
| AW.i1 | Welcome Lecture : "Brazil's situation in terms of energy & Challenges and perspectives" |
| ; President CNB CIGRE, Director of regulation, Eletrobras, Brazil | |
| Monday June 22nd, 2015 - 09:00 | |
| A0 - Opening Session | |
| Monday June 22nd, 2015 - 09:00 - 10:30 - Room: Richelieu (A) | |
| A0.i1 | Opening Lecture : "European Electricity Transmission Infrastructure: a key to the Energy Transition" |
| ; Deputy CEO of RTE, Chairman of the board of ENTSO-E, France | |
| Monday June 22nd, 2015 - 11:00 | |
| A1 - HV and EHV cable systems | |
| Topic 8: HV and EHV AC Cable Systems | |
| Monday June 22nd, 2015 - 11:00 - 12:30 - Room: Richelieu (A) | |
| Chairman: | Argaut Pierre; CIGRE SC B1, France (CIGRE) [To be confirmed] |
| Rapporteur: | Mammeri Mohamed; General Cable / Silec Cable, France [to be confirmed] |
| A1.1 | Worldwide experiences and challenges with EHV XLPE cable projects 330 kV to 500 kV |
| ; Südkabel GmbH, Mannheim, Baden Württemberg, Germany | |
| A1.2 | The network connection of Niehl 3 CCPP - The first 380 kV long-distance cable project in Germany since the Bewag projects in 2000 |
| ; FICHTNER, Stuttgart, Germany | |
| ; Rheinische Netzgesellschaft, Cologne, Germany | |
| A1.3 | 138 kV cable system qualification to IEC 60840-2011 / ICEA S-108-720-2012 / AEIC CS-9-06 / IEEE 48-2009 / IEEE 404-2012 |
| ; CME Wire and Cable, Suwanee, USA | |
| ; NEETRAC, Atlanta, Georgia, USA | |
| ; G & W Electric, Chicago, USA | |
| ; Viakable, Monterrey, Mexico | |
| A1.4 | Qualification of a 150 kV transition joint for connecting external gas pressure three-core cable with extruded single core cables |
| ; Prysmian Netherlands B.V., Delft, The Netherlands | |
| ; TenneT, Arnhem, The Netherlands | |
| ; Energy Solutions, Delft, The Netherlands | |
| A1.5 | PQ test and first 230 kV cable system project in Mexico |
| ; Viakable Operaciones, San Nicolas de los Garza, Mexico | |
| A1.6 | Cable installation in mountainous areas, example of a successful installation and service |
| ; nkt cables, Cologne, Germany | |
| ; VERBUND Hydro Power GmbH, Vienna, Austria | |
| B1 - Submarine Cable Technology | |
| Topic 10: Submarine Cable Systems | |
| Monday June 22nd, 2015 - 11:00 - 12:30 - Room: Lulli B) | |
| Chairman: | Jeroense Marc; ABB AB, High Voltage Cables, Sweden |
| Rapporteur: | Boudinet Nathalie; RTE, France |
| B1.1 | Use of aluminium conductors in submarine power cables |
| ; ABB AB, Karlskrona, Sweden | |
| B1.2 | Latest technologies for submarine cable protection and repair |
| ; Sumotomo Electric Industries,ltd., Osaka, Japan | |
| B1.3 | Potential use of new water tree retardant insulation in submarine cables. |
| ; Dow Electrical & Telecommunications Europe, Horgen, Zurich, Switzerland | |
| ; Dow Electrical & Telecommunications USA, Collegeville, Pennsylvania, USA | |
| B1.4 | Development of 320 kV subsea/underground HVDC extruded cable system |
| ; VISCAS corporation, Ichihara, Chiba, Japan | |
| ; VISCAS corporation, Hiratsuka, Kanagawa, Japan | |
| B1.5 | Key technical research on submarine optic fiber and power composite cable with long length, three cores & high voltage |
| ; Zhongtian Technology Submarine Cable Co., Ltd, Nantong, China | |
| ; Zhongtian Technology Group Co., Ltd, Nantong, China | |
| B1.6 | The Oslofjord project - The world's first installed 420 kV submarine cable connection combining SCFF cables and XLPE cables with flexible factory joints |
| ; Statnett SF, Oslo, Norway | |
| ; Nexans Norway AS, Oslo, Norway | |
| C1 - Remaining life estimation of LV and MV cables | |
| Topic 5: Diagnosis, Maintenance, Remaining Life Estimation and Management | |
| Monday June 22nd, 2015 - 11:00 - 12:30 - Room: Condé / Pascal (C) | |
| Chairman: | Sinisuka Ngapuli Irmea; Institut Teknologi Bandung, Indonesia |
| Rapporteur: | Denizet Isabelle; General Cable, France |
| C1.1 | Assessment of overheating in XLPE MV cable joints by partial discharge measurements |
| ; SINTEF Energy Research, Trondheim, Norway | |
| ; The Norwegian University of Science and Technology (NTNU), Trondheim, Norway | |
| C1.2 | Risk on failure, based on PD measurements in actual MV PILC and XLPE power cables |
| ; Technical University Eindhoven, Eindhoven, The Netherlands | |
| ; DNV GL, Arnhem, The Netherlands | |
| ; Alliander, Arnhem, The Netherlands | |
| ; Enexis, Arnhem, The Netherlands | |
| ; Locamation, Enschede, The Netherlands | |
| C1.3 | Main objectives and results of the EU project ADVANCE with focus on aging assessment of cable insulation used in nuclear power plants through electrical measurements |
| ; EDF R&D, Moret-sur-Loing, France | |
| ; UNIBO, Bologna, Italy | |
| ; EDF SEPTEN, Villeurbanne, France | |
| C1.4 | Prediction of power cable failure rate based on failure history and operational conditions |
| ; Glasgow Caledonian University, Glasgow, UK | |
| C1.5 | Dielectric loss evolution for miniature cables with PE insulation through various stages of degradation |
| ; Hydro-Québec (IREQ), Varennes, Québec, Canada | |
| C1.6 | Aging management for XLPE and EPR medium voltage cables in nuclear plant environments |
| ; Kinectrics Inc., Toronto, Ontario, Canada | |
| D1 - Testing methods: PD measurements | |
| Topic 3: Testing Methods: Electrical and Non Electrical | |
| Monday June 22nd, 2015 - 11:00 - 12:30 - Room: Colbert (D) | |
| Chairman: | Fenger Mark; Prysmian Group, Canada [To be confirmed] |
| Rapporteur: | Siméon Éric; Nexans, France |
| D1.1 | Partial discharge measurements in the sub-VLF-range |
| ; Kiel University of Applied Sciences, Kiel, Germany | |
| ; b2 electronic GmbH, Klaus, Austria | |
| D1.2 | The application of PD monitored AC voltage test in Beijing 500 kV power cable lines acceptance |
| ; Beijing Electric Power Company, Beijing, China | |
| ; SINDIA Instruments, Beijing, China | |
| D1.3 | Long-term experiences and review with offline and online PD measurements on-site on EHV XLPE cable systems 330 kV to 500 kV |
| ; Südkabel GmbH, Mannheim, Baden Württemberg, Germany | |
| D1.4 | Results of 10 years after installation tests combined with PD detection on MV cable-systems |
| ; Alliander, Alkmaar, The Netherlands | |
| ; Liander, Arnhem, The Netherlands | |
| D1.5 | PD characteristics under the aspect of different voltage wave shapes and frequencies |
| ; Seba Dynatronic, Baunach, Germany | |
| ; Hagenuk KMT, Radeburg, Germany | |
| E1 - Economics of Cable Systems | |
| Topic 6: Economy of Cable Systems | |
| Monday June 22nd, 2015 - 11:00 - 12:30 - Room: Montesquieu (E) | |
| Chairman: | Penserini Paul; RTE, France [To be confirmed] |
| Rapporteur: | Giffard Philippe; SYCABEL, France |
| E1.1 | Electrothermal coordination in cable based transmission grids operated under market based conditions |
| ; Energinet.dk, Fredericia, Denmark | |
| ; Technical University of Denmark, Kgs. Lyngby, Denmark | |
| ; Dong Energy, Fredericia, Denmark | |
| E1.2 | Copper or aluminium cable conductors, broadly compared in a life-cycle perspective |
| ; DNV GL, Arnhem, Gelderland, The Netherlands | |
| E1.3 | Operating a 10 kV cable on a system voltage of 20 kV: the long term test |
| ; Alliander, Arnhem, The Netherlands | |
| ; DNV GL, Arnhem, The Netherlands | |
| E1.4 | Cable selection challenges |
| ; DUCAB, Dubai, United Arab Emirates | |
| E1.5 | Efficient project management of high voltage underground cable systems against self-evident facts |
| ; RTE, Paris, France | |
| E1.6 | The use of life cycle cost analysis to determine the most effective cost of installation 500 kV of java-Sumatra power interconnection system |
| ; PLN Indonesia, Jakarta, Indonesia | |
| ; ITB, School of Electrical Engineering and Informatics, Bandung, Indonesia | |
| Monday June 22nd, 2015 - 14:00 | |
| A2 - HV: Installation Methods | |
| Topic 8: HV and EHV AC Cable Systems | |
| Monday June 22nd, 2015 - 14:00 - 15:30 - Room: Richelieu (A) | |
| Chairman: | Gille Alain; Verbraeken Construction NV, Belgium |
| Rapporteur: | Raud Jean-Louis; SERCE, France |
| A2.1 | Production, installation and commissioning of two 380 kV underground lines for the pump-storage plant project of Linth Limmern (Swiss Alps) |
| ; Nexans Suisse SA, Cortaillod, Switzerland | |
| A2.2 | Installation and commissioning of Patuxent river crossing (HDD, 1.4km) project in US |
| ; LS Cable & System, Gumi, Republic of Korea | |
| A2.3 | 138 kV insulated cable system for temporary connection of transmission lines and substations. |
| ; AES Eletropaulo, São Paulo - SP, Brazil | |
| ; TAG Inovação Tecnológica, São Paulo - SP, Brazil | |
| A2.5 | Non-offset design of cables in manhole considering the mechanical behavior of XLPE cables in duct |
| ; KEPCO, Daejeon, Republic of Korea | |
| A2.6 | Study on thermal backfill materials for directly buried HV cables |
| ; Laborelec, Linkebeek, Belgium | |
| ; Elia, Brussels, Belgium | |
| B2 - Design of submarine lines | |
| Topic 10: Submarine Cable Systems | |
| Monday June 22nd, 2015 - 14:00 - 15:30 - Room: Lulli (B) | |
| Chairman: | Vercellotti Uberto; CESI S.p.A., Italy |
| Rapporteur: | Franchet Maud; EDF R&D, France |
| B2.1 | AC transmission systems for large scale and remote offshore wind farms |
| ; Nexans Norway AS, Halden, Norway | |
| ; JK Cablegrid Consulting AB, Karlskrona, Sweden | |
| B2.2 | Comparison of losses in an armoured and anarmoured three phase cable |
| ; Aalborg University, Aalborg, Denmark | |
| ; Energinet.dk, Erritsø, Denmark | |
| B2.3 | Design and manufacturing of ±200 kV HVDC submarine power cable in Zhoushan flexible DC transmission project |
| ; Zhongtian Technology Submarine Cable Co., Ltd, Nantong, China | |
| ; Zhongtian Technology Group Co., Ltd, Nantong, China | |
| B2.4 | Development of dynamic submarine MV power cable design solutions for floating offshore renewable energy applications |
| ; Norddeutsche Seekabelwerke GmbH / General Cable, Nordenham, Lower Saxony, Germany | |
| ; General Cable Sistemas, Manlleu, Catalunya, Spain | |
| ; University of Exeter, Penryn, UK | |
| B2.5 | Design studies for French submarine links |
| ; RTE, Paris, France | |
| B2.6 | Wet designs for HV submarine power cables |
| ; JK Cablegrid Consulting AB, Karlskrona, Sweden | |
| ; Nexans Norway AS, Halden, Norway | |
| ; SINTEF Energy, Trondheim, Norway | |
| C2 - System reliability management | |
| Topic 5: Diagnosis, Maintenance, Remaining Life Estimation and Management | |
| Monday June 22nd, 2015 - 14:00 - 15:30 - Room: Condé / Pascal (C) | |
| Chairman: | Máximo Léon Juan Manuel; Conductores Monterrey, SA DE CV, Mexico |
| Rapporteur: | Cabau Matthieu; RTE, France |
| C2.1 | Repeated field tests - Utility case studies of the value of trending |
| ; NEETRAC, Atlanta, Georgia, USA | |
| ; Universidad de Los Andes, Merida, Venezuela | |
| C2.2 | Performance optimization of underground power cables using real-time-thermal-rating |
| ; LIOS Technology GmbH, Cologne, Germany | |
| C2.3 | Improving cable system reliability by monitored withstand diagnostics - featuring high efficiency at reduced test time |
| ; BAUR Prüf und Messtechnik, Sulz, Austria | |
| ; Endesa Distribucion Electrica, Palma de Mallorca, Spain | |
| ; MARTIN BAUR S.A., Barcelona, Spain | |
| C2.5 | Underground power cable health indexing and risk management |
| ; DNV GL, Arnhem, The Netherlands | |
| C2.6 | Belgian experience with real time temperature system in combination with distributed temperature sensing techniques |
| ; Elia, Brussels, Belgium | |
| D2 - Reliability diagnosis | |
| Topic 3: Testing Methods: Electrical and Non Electrical | |
| Monday June 22nd, 2015 - 14:00 - 15:30 - Room: Colbert (D) | |
| Chairman: | Orton Harry E.; Orton Consulting Engineers International, Canada |
| Rapporteur: | Musquin Max; General Cable ( Silec Cable), France |
| D2.1 | Diagnostics of control and instrumentation cables in nuclear power plant via time-frequency domain reflectometry with optimal reference signal |
| ; Yonsei University, Seoul, Republic of Korea | |
| D2.2 | Long lengths transmission power cables on-site testing up to 500 kV by damped AC voltages |
| ; Seitz Instrumetns AG, Niederrohrdorf, Switzerland | |
| ; onsite hv solutions ag, Luzern, Switzerland | |
| ; Stuttgart University of Technology, Stuttgart, Germany | |
| ; Liandon B.V., Alkmaar, The Netherlands | |
| D2.3 | New integrated solution for DAC and VLF testing and diagnosis of distribution power cable circuits |
| ; Seit Instrumetns AG, Niederrohrdorf, Switzerland | |
| ; onsite hv solutions ag, Luzern, Switzerland | |
| ; Liandon B.V., Alkmaar, The Netherlands | |
| D2.4 | End of life of underground medium voltage cables on Pacific islands |
| ; Laborelec, Linkebeek, Belgium | |
| ; EDT, Papeete, French Polynesia | |
| D2.5 | Expanding the performance of on site testing with frequency tuned resonant test systems |
| ; EMELEC Electrical Engineering &Trading PLC, Istanbul, Turkey | |
| ; Mohaupt High Voltage, Mieders, Austria | |
| D2.6 | Effectiveness and comparability of condition tests on MV cables |
| ; Stedin BV, Rotterdam, The Netherlands | |
| E2 - Cable ratings calculations 1 | |
| Topic 2: Cables and Accessories Design - Modelling | |
| Monday June 22nd, 2015 - 14:00 - 15:30 - Room: Montesquieu (E) | |
| Chairman: | Rittinghaus Dirk; Energycableconsult, Germany |
| Rapporteur: | Rémy Christian; Prysmian, France |
| E2.1 | A guide for rating calculations of insulated cables |
| ; DNV GL, Arnhem, The Netherlands | |
| ; Prysmian, Delft, The Netherlands | |
| ; Anders Consulting, Toronto, Ontario, Canada | |
| ; Elia Engineering, Brussels, Belgium | |
| ; Electrical Consulting Engineers, P.C., Schenectady, New York, USA | |
| ; University of Southampton, Southampton, UK | |
| ; Procable, São Paulo - SP, Brazil | |
| ; nkt cables, Cologne, Germany | |
| ; Prysmian Group, Milan, Italy | |
| ; ABB, Karlskrona, Sweden | |
| ; LS Cable ltd., Gyeongbuk, Republic of Korea | |
| ; Poznan University of Technology, Poznan, Poland | |
| ; Prysmian Group, Gron, France | |
| ; CRIEPI, Nagasaka, Japan | |
| ; Brugg Kabel AG, Brugg, Aargau, Switzerland | |
| ; Aberdare Cable, Port Elisabeth, South Africa | |
| ; GasNatural Fenoza, Madrid, Spain | |
| ; National Grid Plc, Warwick, UK | |
| E2.2 | Gravitational cooling of cable installations |
| ; BCC Cable Consulting, Rheinberg, Germany | |
| ; nkt cables, Cologne, Germany | |
| E2.3 | HVDC cable rating methodology: Thermal, electrical and mechanical constraints |
| ; University of Southampton, Southampton, UK | |
| ; National Grid Plc, Warwick, UK | |
| E2.4 | Calculation of the current rating for complex cable arrangement in a deep tunnel |
| ; Lodz University of Technology, Lodz, Poland | |
| ; Kinectrics Inc., Toronto, Ontario, Canada | |
| ; ABB AB, High Voltage Cables, Karlskrona, Sweden | |
| E2.5 | Accurate analytical formula for calculation of sheath and armour losses of three core submarine cables |
| ; Nexans AS, Halden, Norway | |
| ; JK Cablegrid Consulting AB, Karlskrona, Sweden | |
| E2.6 | Electrical contacts impact on the DC resistance measurement of metallic conductors: application on an industrial measurement device |
| ; Laboratory of Electro-technical Systems and Environment (LSEE), University of Artois, Béthune, France | |
| ; Nexans, Lens, France | |
| ; Institute of Mechatronics and Information Systems Technical University of Lodz, Lodz, Poland | |
| F2 - Young researchers contest | |
| Monday June 22nd, 2015 - 14:00 - 15:30 - Room: Galerie Le Nôtre (F) | |
| Chairman: | Gubanski Stanislaw; Chalmers University of Technology, Sweden |
| Rapporteurs: | Notingher Petru; Institut d'Electronique du Sud - Université Montpellier 2, CNRS, France and Teyssedre Gilbert; CNRS / Laplace, University P. Sabatier, France |
| F2.01 | The investigation of conduction current and dissipation power distributions in XLPE under HVDC at high temperature environment |
| ; Tokyo City University, Tokyo, Japan | |
| F2.02 | Study of XLPE dielectric properties for HVDC cables during combined thermal and electrical ageing |
| ; Institut d'électronique du Sud, Université Montpellier 2, Montpellier, France | |
| ; EDF R&D, Les Renardières, France | |
| ; Paris La Défense, Paris-La Défense, France | |
| ; BOREALIS, Stenungsund, Sweden | |
| F2.03 | Influence factors of field inversion in HVDC cables |
| ; Ilmenau University of Technology, Ilmenau, Germany | |
| ; Institute of Polymer Technologie Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen-Nürnberg, Germany | |
| F2.04 | Analysis of technical planning principles for partial underground cabling in meshed extra-high voltage Grids |
| ; Friedrich Alexander University Erlangen-Nuremberg, Erlangen, Germany | |
| ; TenneT TSO GmbH, Bayreuth, Germany | |
| ; Siemens AG, Erlangen, Germany | |
| ; RWTH Aachen University, Aachen, Germany | |
| F2.05 | Eco-friendly nanodielectrics with enhanced thermal and electrical properties for HVDC cable insulation |
| ; State Key Lab of Power Systems, Department of Electrical Engineering, Tsinghua University, Beijing, China | |
| F2.06 | Effect of state of stress on space charge accumulation in silicon rubber insulation of HVDC cables |
| ; State Key Lab of Control and Simulation of Power Systems and Generation Equipment, Dept of Electrical Engineering, Tsinghua University, Beijing, China | |
| F2.07 | Spatially-resolved measurement and diagnostic method for power cables using interference characteristics of travelling waves |
| ; Institute of Electrical Energy Systems, University of Erlangen-Nuremberg, Erlangen, Germany | |
| F2.08 | Modeling of viscoelastic dynamic bending stiffness for VIV analysis of submarine cables |
| ; ABB AB, High Voltage Cables, Karlskrona, Sweden | |
| F2.11 | DC cable modeling and High Voltage Direct Current grid grounding system. |
| ; SuperGrid Institute, Villeurbanne, France | |
| ; G2elab, Saint Martin d'Hères, France | |
| F2.12 | Development and engineering application of ±160 kV XLPE to three-terminal VSC HVDC project in China |
| ; Electric Power Research Institute of China Southern Power Grid, Guangzhou, China | |
| F2.14 | Relationship between breakdown strengths and trapping parameters of serviced XLPE cables |
| ; University of Southampton, Southampton, UK | |
| ; Xi'an Jiaotong University, Xi'an, China | |
| F2.15 | Effects of voltage magnitude on growth characteristics of electrical trees in silicone rubber |
| ; State Key Lab of Control and Simulation of Power Systems and Generation Equipments, Department of Electrical Engineering, Tsinghua University, Beijing, China | |
| ; North China Electric Power Research Institute Co Ltd, Beijing, China | |
| F2.16 | Optimization of High Voltage electrodes and HV cable accessories design by using MATLAB and FEMM |
| ; Demirer Kablo, Bilecik, Turkey | |
| F2.17 | Influence on measured conductor AC resistance of High Voltage cables when the shield is used as return conductor |
| ; SP Technical Research Institute of Sweden, Borås, Sweden | |
| F2.18 | Measurement of the conductor temperature in power cable production |
| ; RWTH Aachen University, Aachen, Germany | |
| ; Forschungsgemeinschaft für Elektrische Anlagen und Stromwirtschaft e.V., Mannheim, Germany | |
| F2.19 | Improvement of ampacity ratings of Medium Voltage cables in protection pipes by comprehensive consideration and selective improvement of the heat transfer mechanisms within the pipe |
| ; TU Darmstadt, High Voltage Laboratories, Darmstadt, Germany | |
| ; TU Darmstadt, Geothermal Science and Technology, Darmstadt, Germany | |
| ; Bayernwerk / e-on, Regensburg, Germany | |
| F2.20 | Characterization of Transparent Fluorescent Silicones for Optical Monitoring of High-Voltage Cable Accessories |
| ; West Pomeranian University of Technology, Szczecin, Poland | |
| ; Polymerics GmbH, Berlin, Germany | |
| ; BAM Federal Institute of Materials Research and Testing, Berlin, Germany | |
| ; IPH Institut "Prüffeld für Elektrische Hochleistungstechnik" GmbH (CESI Group), Berlin, Germany | |
| F2.21 | Predicted rating system for directly buried cables |
| ; University of Southampton, Southampton, UK | |
| ; National Grid plc, Warwick, UK | |
| F2.22 | Space charge behaviors of PP/EPDM/ZnO nanocomposites for recyclable HVDC cable |
| ; State Key Lab of Power Systems, Dept. of Electr. Eng., Tsinghua Univ., Beijing, China | |
| F2.23 | Estimating the losses in three core submarine power cables using 2D and 3D FEA simulations |
| ; University of Applied Sciences Würzburg-Schweinfurt, Schweinfurt, Germany | |
| ; Ilmenau University of Technology, Ilmenau, Germany | |
| ; Norddeutsche Seekabelwerke GmbH /General Cable, Nordenham, Germany | |
| F2.24 | Thermal impedance of insulated overhead power cables heated by joule losses and solar radiation |
| ; Aristotle University of Thessaloniki, Department of Electrical and Computer Engineers, Thessaloniki, Greece | |
| ; Ghent University, Department of Electronics and Information Systems, Ghent, Belgium | |
| ; University of Lodz, Institute of Electronics Technical, Lodz, Poland | |
| ; Technical University of Lodz, Department of Microelectronics and Computer Science, Lodz, Poland | |
| F2.25 | Measurement and modeling of surface charge accumulation on insulators in HVDC gas insulated line (GIL) |
| ; Tsinghua University, Beijing, China | |
| Monday June 22nd, 2015 - 16:00 | |
| A3 - Operating Conditions | |
| Topic 8: HV and EHV AC Cable Systems | |
| Monday June 22nd, 2015 - 16:00 - 17:45 - Room: Richelieu (A) | |
| Chairman: | Saldivar Cantu Candelario de J.; Viakon Conductores Monterrey, Mexico |
| Rapporteur: | Dubois David; Nexans, France |
| A3.1 | Indirect pipe water cooling study for a 220 kV underground XLPE cable system in New Zealand |
| ; Transpower New Zealand Limited, Wellington, New Zealand | |
| ; Cable Consulting International, Sevenoaks, Kent, UK | |
| A3.2 | Cable replacement in a generation plant |
| ; EDF CIST, Saint-Denis, France | |
| ; SPAC, Clichy, France | |
| A3.3 | Degradation mechanism of SCOF cable due to cable core movement |
| ; The Kansai Electric Power Co., Inc., Osaka, Japan | |
| ; J-Power Systems Corporation, Osaka, Japan | |
| ; VISCAS Corporation, Tokyo, Japan | |
| A3.4 | Performance evaluation of integrity monitoring based on optical fibre distributed temperature and distributed acoustic sensing |
| ; Bandweaver, Richmond, UK | |
| ; Silixa Ltd, Elstree, UK | |
| A3.5 | 150 kV gas pressure cable systems in the Netherlands: experienced systems |
| ; Liandon B.V., Arnhem, The Netherlands | |
| ; TenneT, Arnhem, The Netherlands | |
| A3.6 | Operating records and recent technology of DTS system and dynamic rating system (DRS) |
| ; J-Power systems Corporation, Osaka, Japan | |
| A3.7 | Application of knowledge engineering approach to mitigate the infant mortality risk of HV cable system in Mea Thailand |
| ; Metropolitan Electricity Authority, Bangkok, Thailand | |
| B3 - Testing & Qualifications | |
| Topic 10: Submarine Cable Systems | |
| Monday June 22nd, 2015 - 16:00 - 17:45 - Room: Lulli (B) | |
| Chairman: | de Wild Frank; DNV GL, The Netherlands |
| Rapporteur: | Charles Fabien; General Cable, France |
| B3.1 | Long term qualification of XLPE electrical insulation systems for offshore deep water cables |
| ; SINTEF Energy Research, Trondheim, Norway | |
| ; Nexans Norway AS, Oslo, Norway | |
| B3.2 | Recommendations for mechanical tests on sub-marine cables |
| ; Nexans, Calais, France | |
| ; Nexans, Halden, France | |
| ; National Grid Plc, Warwick, UK | |
| ; Energinet, Ballerup, Denmark | |
| ; LS Cable & System, Gyeongbuk, Republic of Korea | |
| ; Cabletricity Connections Ltd., Vancouver, Washington, USA | |
| ; Prysmian, Milan, Italy | |
| ; Prysmian, Kirkkonummi, Finland | |
| ; ABB, Karlskrona, Sweden | |
| ; VISCAS Corporation, Tokyo, Japan | |
| ; Red Eléctrica de España, Madrid, Spain | |
| ; nkt cables, Cologne, Germany | |
| ; Hellenic Cables, Sousaki Korinthias, Greece | |
| ; RTE, Paris La Défense, France | |
| ; General Cable, Manlleu, Catalunya, Spain | |
| ; TERNA, Rome, Italy | |
| B3.4 | Type test and special tension test of 230 kV XLPE submarine cable system |
| ; J-Power Systems Corporation, Osaka, Japan | |
| B3.5 | Challenge of fault location on long submarine power cables |
| ; BAUR Prüf und Messtechnik, Sulz, Austria | |
| ; TERNA, Rome, Italy | |
| ; University of Bologna, Bologna, Italy | |
| B3.6 | Extension of qualification applied on a MV extruded submarine cable in France |
| ; General Cable, Montereau-Fault-Yonne, France | |
| B3.7 | Measurements of losses on three core submarine power cables |
| ; EDF R&D, Moret-sur-Loing, France | |
| ; nkt cables, group gmbh & KG, Germany | |
| ; EDF CIST, Saint-Denis, France | |
| ; RTE, Paris La Défense, France | |
| C3 - Diagnosis | |
| Topic 5: Diagnosis, Maintenance, Remaining Life Estimation and Management | |
| Monday June 22nd, 2015 - 16:00 - 17:45 - Room: Condé / Pascal (C) | |
| Chairman: | Boone Willem; DNV GL, The Netherlands |
| Rapporteur: | Naud Antoine; RTE, France |
| C3.1 | Localized temperature sensing (LTS) as new approach to HV cable system monitoring and uprating |
| ; General Cable, Barcelona, Spain | |
| ; Lumiker, Bilbao, Spain | |
| ; Unión Fenosa Distribución, Madrid, Spain | |
| C3.2 | Fiber optic temperature sensor using intermodal interference for linear infrastructures monitoring. |
| ; University of Mons - FPMs - SET, Mons, Belgium | |
| ; ORES, Louvain-la-Neuve, Belgium | |
| ; CERISIC, Mons, Belgium | |
| C3.4 | Long power cables: exposing incipient faults and optimizing performance using extra-long distance fiber optic distributed temperature monitoring. |
| ; Omnisens SA, Morges, Switzerland | |
| C3.5 | Estimating the impact of VLF frequency on effectiveness of VLF withstand diagnostics |
| ; NEETRAC, Atlanta, Georgia, USA | |
| ; Universidad de Los Andes, Merida, Venezuela | |
| ; Dow Chemical, Spring House, USA | |
| C3.6 | Off-line diagnostic measurements: Type of measurement versus insulation weakness targeted |
| ; EDF R&D, Ecuelles, France | |
| ; IREQ, Varennes, Québec, Canada | |
| ; SINTEF Energy Research, Trondheim, Norway | |
| ; ERDF, Paris La Défense, France | |
| C3.7 | Online PD monitoring of short cable systems installed in sub-stations |
| ; LCOE-FFII, Madrid, Spain | |
| ; ETSIDI-UPM, Madrid, Spain | |
| ; UFD-Gas Natural Fenosa, Madrid, Spain | |
| D3 - Thermo-mechanical Testing | |
| Topic 3: Testing Methods: Electrical and Non Electrical | |
| Monday June 22nd, 2015 - 16:00 - 17:45 - Room: Colbert (D) | |
| Chairman: | Marelli Marco; Prysmian, Italy |
| Rapporteur: | Dhuicq Bernard; General Cable, France |
| D3.1 | North Auckland and Northland 220 kV cable project - managing thermo-mechanical forces in large conductor XLPE cable circuits |
| ; Transpower New Zealand Limited, Wellington, New Zealand | |
| D3.2 | CIGRE WG B1.34: mechanical forces with large conductor cross section XLPE cables |
| ; LS Cable & System, Gumi-si, Republic of Korea | |
| ; Prysmian, Milan, Italy | |
| ; Svenska Kraftnaet, Stockkolm, Sweden | |
| ; Cable Consulting International, Sevenoaks, Kent, UK | |
| ; Powereng., Lenexa, USA | |
| ; J-Power systems Corporation, Osaka, Japan | |
| ; nkt cables, Cologne, Germany | |
| ; Mott McDonald, Brighton, Ireland | |
| ; Red Eléctrica de España, Madrid, Spain | |
| ; Nexans, Calais, France | |
| ; IREQ, Varennes, Québec, Canada | |
| ; Tennet, Tilburg, The Netherlands | |
| ; Energinet.dk, Frederica, Denmark | |
| ; Eifelkabel, Villmergen, Switzerland | |
| D3.4 | Thermo-mechanical behavior of HV and EHV large conductor XLPE cables in duct-manhole systems |
| ; EPRI, Palo Alto, California, USA | |
| ; Cable Consulting International, Sevenoaks, Kent, UK | |
| ; Dassault Systemes UK Ltd, Warrington, Cheshire, UK | |
| D3.5 | Measurement of thermomechanical properties of 400 kV 2500 mm2 cable |
| ; University of Southampton, Southampton, UK | |
| ; Cable Consulting International, Sevenoaks, Kent, UK | |
| ; National Grid plc, Warwick, UK | |
| D3.6 | Evaluation on thermo-mechanical characteristics of outdoor termination by full scale real test in underground power cable systems |
| ; KEPCO Research Institute, Daejeon, Republic of Korea | |
| ; KEPCO Head Office, Seoul, Republic of Korea | |
| D3.7 | 220 kV transpower NZ North Auckland and Northland (NAaN) project - design validation of thermo-mechanical behaviour |
| ; Victoria University, Melbourne, Victoria, Australia | |
| ; Nexans Olex, Tottenham, Victoria, Australia | |
| E3 - Cable Ratings Calculations 2 | |
| Topic 2: Cables and Accessories Design - Modelling | |
| Monday June 22nd, 2015 - 16:00 - 18:00 - Room: Montesquieu (E) | |
| Chairman: | Colla Luigi; Prysmian Power Link Srl, Italy |
| Rapporteur: | Dorison Eric; EDF R&D, France |
| E3.1 | A new approach for estimation of the dynamic thermal rating model parameters |
| ; CYME Int/Eaton Corp., Montréal, Québec, Canada | |
| ; Lodz University of Technology, Lodz, Poland | |
| ; General Cable, Montereau-Fault-Yonne, France | |
| ; AP Sensing, Boeblingen, Germany | |
| E3.2 | Results and verifications from REE experience on monitoring isolated cables with DTS |
| ; Red Eléctrica de España, Alcobendas, Madrid, Spain | |
| E3.3 | New issues in current rating of power cables installed in unventilated tunnels |
| ; EDF R&D, Moret-sur-Loing, France | |
| ; Lodz University of Technology, Lodz, Poland | |
| ; EDF CIST, Dubai, United Arab Emirates | |
| E3.5 | Derating factors for multiple circuits of low and medium voltage cable installations |
| ; Kinectrics Inc., Toronto, Ontario, Canada | |
| ; Lodz University of Technology, Lodz, Poland | |
| E3.6 | A novel cooling solution for an intersection of a 2x2 duct bank with HV cables crossed by a steam pipe |
| ; Lodz University of Technology, Lodz, Poland | |
| ; BCC Cable Consulting, Duisburg, Germany | |
| ; BC Hydro, Vancouver, Canada | |
| E3.7 | Snaking of cables in empty pipes. |
| ; Prysmian SpA, Milan, Italy | |
| ; Prysmian Power Link Srl, Milan, Italy | |
| E3.8 | Review of underground cable impedance and admittance formulas |
| ; Polytechnique Montreal, Montréal, Québec, Canada | |
| ; Reseau de Transport d'Electricite, Paris, France | |
| Tuesday June 23rd, 2015 - 09:00 | |
| A4 - HV AC New Developments | |
| Topic 8: HV and EHV AC Cable Systems | |
| Tuesday June 23rd, 2015 - 09:00 - 10:30 - Room: Richelieu (A) | |
| Chairman: | Wang Ying; Prysmian Group, Italy |
| Rapporteur: | Joubert Vincent; General Cable (Silec Cable), France |
| A4.1 | The degassing process of HV XLPE cables and its influence on selected electrical properties |
| ; Maillefer Extrusion Oy, Vantaa, Finland | |
| ; Nexans Norway AS, Halden, Norway | |
| ; Borealis AB, Stenungsund, Sweden | |
| A4.2 | Development of a up to 400 kV XLPE cable with low-smoke properties to be installed in a tunnel |
| ; Eifelkabel, Villmergen, Switzerland | |
| ; Demirer Kablo, Istanbul, Turkey | |
| ; UK Power Networks, Crawley, UK | |
| A4.3 | Development of compact designed 66/77 kV class XLPE cable system |
| ; VISCAS corporation, Ichihara, Chiba, Japan | |
| ; VISCAS corporation, Shinagawa-Ku, Tokyo, Japan | |
| A4.4 | Development of 500 kV XLPE cable accessories |
| ; SWCC Showa Cable Systems Co Ltd, Sagamihara-city, Kanagawa-pref, Japan | |
| ; SHOWA-TBEA (Shandong) CABLE ACCESSORIES CO., LTD., Xintai City, Shandong Province, China | |
| ; TBEA Shandong Luneng Taishan Cable Co., Ltd., Xintai City, Shandong Province, China | |
| ; EXSYM CORPORATION, Sagamihara City, Kanagawa Province, Japan | |
| A4.5 | Improved design for anti-scattering in fault condition of outdoor termination |
| ; ILJIN Electric, Seoul, Republic of Korea | |
| A4.6 | Compact paperless joint for transition from LPFF to XLPE cables |
| ; Brugg Kabel AG, Brugg, Aargau, Switzerland | |
| B4 - Installations of Submarine lines | |
| Topic 10: Submarine Cable Systems | |
| Tuesday June 23rd, 2015 - 09:00 - 10:30 - Room: Lulli (B) | |
| Chairman: | Zhang Dongping; TenneT TSO GmbH, Germany |
| Rapporteur: | Charvet Jean; RTE, France |
| B4.1 | New approach to installation of offshore wind energy cables |
| ; Plumettaz SA, Bex, Switzerland | |
| ; Wavin T&I, Dedemsvaart, The Netherlands | |
| ; nkt Cables AS, Broendby, Denmark | |
| ; nkt Cables AS, Asnaes, Denmark | |
| ; nkt Cables AB, Falun, Sweden | |
| ; Siemens Windpower, Brande, Denmark | |
| B4.2 | Lillebælt - Installation and commissioning of world's first 400 kV 3-cores submarine cable |
| ; Energinet.dk, Fredericia, Denmark | |
| ; ABB HVC, Karlskrona, Sweden | |
| B4.3 | Dynamic cable installation for Fukushima floating offshore wind farm demonstration project |
| ; VISCAS Corporation, Shinagawa-Ku, Tokyo, Japan | |
| ; Furukawa Electric CO., Ltd., Chiyoda, Tokyo, Japan | |
| B4.4 | Development of a three-terminal ready HVDC interconnector between France and Great Britain via the island Alderney: the FAB Project |
| ; RTE, Paris, France | |
| ; Transmission Investment, London, UK | |
| B4.6 | Zanzibar interconnector 132 kV submarine cable in Tanzania |
| ; VISCAS Corporation, Tokyo, Japan | |
| ; ESB International, Dublin, Ireland | |
| C4 - MV Cable Diagnosis | |
| Topic 5: Diagnosis, Maintenance, Remaining Life Estimation and Management | |
| Tuesday June 23rd, 2015 - 09:00 - 10:30 - Room: Condé / Pascal (C) | |
| Chairman: | Ottersberg Heiner; Norddeutsche Seekabelwerke GmbH / General Cable, Germany |
| Rapporteur: | Touraine Jean-Charles; Prysmian Câbles & Systèmes, France |
| C4.1 | On line diagnosis experimentations for MV cables in ERDF distribution network. |
| ; EDF R&D, Moret-sur-Loing, France | |
| ; ERDF, Paris La Défense, France | |
| C4.2 | Accurate on-line fault location (full breakdowns) for MV cables with Smart Cable Guard |
| ; DNV GL, Arnhem, The Netherlands | |
| ; Enexis, Arnhem, The Netherlands | |
| ; Alliander, Arnhem, The Netherlands | |
| ; Locamation, Enschede, The Netherlands | |
| C4.3 | On-site condition assessment of XLPE MV cable joints by using an insulation tester |
| ; SINTEF Energy Research, Trondheim, Norway | |
| C4.4 | Combined application of diagnostics tools for MV underground cables |
| ; BAUR Prüf und Messtechnik, Sulz, Austria | |
| C4.5 | Best practice guideline for the complete condition monitoring (cm) of offshore wind farm (OWF) cable networks |
| ; HVPD Ltd, Manchester, UK | |
| D4 - On-site and Laboratory Tests 1 | |
| Topic 3: Testing Methods: Electrical and Non Electrical | |
| Tuesday June 23rd, 2015 - 09:00 - 10:30 - Room: Colbert (D) | |
| Chairman: | Plath Ronald; Technische Universität Berlin, Germany |
| Rapporteur: | Moreau Christophe; EDF R&D, France |
| D4.1 | Investigation of electrical and morphological properties of 10 kV XLPE cable insulation specimens |
| ; JSC "VNIIKP", Moscow, Russia | |
| ; Maillefer Extrusion Oy, Vantaa, Finland | |
| D4.2 | Condition of shielded 5 kV pink EPR insulated cables after 25 years of service in wet environment |
| ; Cable Technology Laboratories, Inc., New Brunswick, New Jersey, USA | |
| ; EPRI, Charlotte, NC, USA | |
| D4.3 | Measures to reduce skin-effect losses in power cables with optimized conductor design and their evaluation by measurement |
| ; Technical University Berlin, Berlin, Germany | |
| ; nkt cables, Cologne, Germany | |
| ; Südkabel GmbH, Mannheim, Baden Württemberg, Germany | |
| D4.4 | AC resistance measurements on skin-effect reduced large conductor power cables with standard equipment |
| ; Südkabel GmbH, Mannheim, Baden Württemberg, Germany | |
| ; Ing.-Büro HPS Berlin, Berlin, Germany | |
| ; Electronics - Web and More GbR, Berlin, Germany | |
| ; Balfour Beatty Utility Solutions, Dartford, UK | |
| D4.5 | Dc conductivity characterization of cables and correlation with lab measurements |
| ; Nexans Research Center, Lyon, France | |
| D4.6 | Hyperbaric chamber to test robustness of electric cables |
| ; Tech-Plus, Bandol, France | |
| ; JCLP Hyperbarie, Paris, France | |
| E4 - Modelling | |
| Topic 2: Cables and Accessories Design - Modelling | |
| Tuesday June 23rd, 2015 - 09:00 - 10:30 - Room: Montesquieu (E) | |
| Chairman: | Hampton Nigel; Georgia Tech NEETRAC, USA [To be confirmed] |
| Rapporteur: | Nguyen Tuan Minh; EDF R&D, France |
| E4.2 | Efficiency of cable transposition to decrease the induced voltage on linear third-party installations |
| ; RTE, Paris, France | |
| E4.3 | Evaluation of "cross-talk" in power cables by use of 3d finite element computations |
| ; SINTEF Energy Research, Trondheim, Norway | |
| E4.4 | Wide-frequency modelling of submarine cables for deep water DC power delivery |
| ; GE Global Research Center - Brazil Technology Center, Rio de Janeiro, RJ, Brazil | |
| E4.5 | Influence of the screen/armour permeability in magnetic fields generated by HV cables |
| ; Aalborg University, Aalborg, Denmark | |
| ; Energinet.dk, Fredericia, Denmark | |
| E4.6 | Boutre-Trans project: 225 kV AC underground cable installed in the South-East of France |
| ; Polytechnique Montreal, Montréal, Québec, Canada | |
| ; Reseau de Transport d'Electricite, Paris, France | |
| ; University of Lisbon, Lisbon, Portugal | |
| Tuesday June 23rd, 2015 - 11:00 | |
| A5 - HV cable integration in Network | |
| Topic 8: HV and EHV AC Cable Systems | |
| Tuesday June 23rd, 2015 - 11:00 - 12:30 - Room: Richelieu (A) | |
| Chairman: | Barber Kenneth; NAN Electric Cable, Australia |
| Rapporteur: | Allais Arnaud; Nexans Research Center, France |
| A5.1 | Reliability of cable based transmission grids operated based on temperature limits |
| ; Energinet.dk, Fredericia, Denmark | |
| ; Technical University of Denmark, Kgs. Lyngby, Denmark | |
| ; Dong Energy, Fredericia, Denmark | |
| A5.2 | Installation of cables system connections to gas insulated metal-enclosed switchgear (GIS) |
| ; Nexans, Calais, France | |
| ; Prysmian Group, Gron, France | |
| ; General Cable, Montereau-Fault-Yonne, France | |
| ; SYCABEL, Paris, France | |
| ; RTE, Paris, France | |
| ; GIMELEC, Paris, France | |
| ; SIEMENS, Grenoble, France | |
| ; Alstom, Aix-les-Bains, France | |
| A5.4 | French feedback on civil and installation works of transmission underground cable systems |
| ; SERCE, Paris, France | |
| ; RTE, Paris, France | |
| A5.5 | Transient studies of power cable sections in 380 kV transmission system |
| ; University Siegen, Siegen, North Rhine-Westphalia, Germany | |
| A5.6 | Installation of twenty-four (24) lines of 150 kV XLPE power cables at 2.5 m depth below ground level in the tropical urban city Jakarta |
| ; PLN Indonesia, Jakarta, Indonesia | |
| ; Institut Teknologi Bandung, Bandung, Indonesia | |
| B5 - Submarine Cables - General | |
| Topic 10: Submarine Cable Systems | |
| Tuesday June 23rd, 2015 - 11:00 - 12:30 - Room: Lulli (B) | |
| Chairman: | Campbell Steven; Superior Essex Energy, USA |
| Rapporteur: | Domenech Sabina; General Cable, France |
| B5.1 | Analysis of electric field distribution in XLPE insulation of DC submarine cable |
| ; Wuhan University, Wuhan, China | |
| B5.2 | Development of submarine MV-AC power cable with aluminum conductor |
| ; Norddeutsche Seekabelwerke GmbH / General Cable, Nordenham, Lower Saxony, Germany | |
| ; General Cable, Manlleu, Barcelona, Spain | |
| B5.3 | Impact of HVDC cable configuration on compass deviation |
| ; DNV GL, Arnhem, The Netherlands | |
| ; Mutual Energy, Belfast, Ireland | |
| B5.4 | Thermal rating method of j tubes using finite element analysis techniques |
| ; University of Southampton, Southampton, UK | |
| B5.5 | Degradation rates in high voltage subsea cables with polymeric water barrier designs |
| ; SINTEF Energy Research, Trondheim, Norway | |
| ; Nexans Norway AS, Halden, Norway | |
| B5.6 | EPR insulated cables for modern offshore systems |
| ; Prysmian Power Link Srl, Milan, Italy | |
| ; Prysmian Powerlink, Drammen, Norway | |
| C5 - HV and EHV cable diagnosis | |
| Topic 5: Diagnosis, Maintenance, Remaining Life Estimation and Management | |
| Tuesday June 23rd, 2015 - 11:00 - 12:30 - Room: Condé / Pascal (C) | |
| Chairman: | Tanaka Hideo; VISCAS Corporation - Power Cable Division, Japan |
| Rapporteur: | Bic Emmanuel; General Cable, France |
| C5.1 | Permanent PD monitoring experience on shanghai 500 kV power cable lines |
| ; Shanghai Electric Power Company, Shanghai, China | |
| ; SINDIA, Beijing, China | |
| C5.2 | Effective on-site testing and non-destructive diagnosis of new installed and service aged & HV power cables up to 230 kV |
| ; onsite hv solutions ag, Luzern, Switzerland | |
| ; onsite hv solutions Central Europe Sp. Z o.o., Warsaw, Poland | |
| ; onsite hv solutions Americas Inc., Toronto, Ontario, Canada | |
| ; Poznan University of Technology, Poznan, Poland | |
| C5.3 | Short-term partial discharge monitoring as a diagnostic tool on 400 kV XLPE cable |
| ; IPH GmbH Berlin, Berlin, Germany | |
| C5.4 | Condition monitoring of electrical cables using line resonance analysis (LIRA) |
| ; Wirescan AS, Vinterbro, Norway | |
| C5.5 | An alternative approach about fault location on HVAC and HVDC cables during commissioning and operation |
| ; HIGHVOLT Prüftechnik Dresden GmbH, Dresden, Saxony, Germany | |
| D5 - On-site and Laboratory Tests 2 | |
| Topic 3: Testing Methods: Electrical and Non Electrical | |
| Tuesday June 23rd, 2015 - 11:00 - 12:30 - Room: Colbert (D) | |
| Chairman: | Hennuy Blandine; Laborelec, Belgium |
| Rapporteur: | Santana José; Prysmian Câbles & Systèmes, France |
| D5.1 | Robust characterization of the DC-conductivity of HVDC insulation materials at high electric fields |
| ; ABB AB, High Voltage Cables, Karlskrona, Sweden | |
| ; ABB AB, Corporate Research, Västerås, Sweden | |
| ; Borealis AB, Stenungsund, Sweden | |
| D5.3 | Automated temperature monitoring and control system for type and design testing of high voltage XLPE insulated cable systems |
| ; Kinectrics Inc., Toronto, Ontario, Canada | |
| D5.4 | Progress in optical PD detection for translucent and transparent HV cable accessories with improved fluorescent optical fibers |
| ; Technical University Berlin, Berlin, Germany | |
| ; BAM Berlin, Berlin, Germany | |
| ; IPH GmbH Berlin, Berlin, Germany | |
| ; Polymerics, Berlin, Germany | |
| ; Beuth Hochschule, Berlin, Germany | |
| D5.5 | Optical PD detection in high voltage cable accessories |
| ; Tyco Electronics Raychem GmbH, Ottobrunn, Germany | |
| ; IPH GmbH Berlin, Berlin, Germany | |
| D5.6 | Online partial discharge testing of power cables in high noise environment |
| ; Qualitrol, Glasgow, UK | |
| E5 - Cable and accessories - Design, applications | |
| Topic 2: Cables and Accessories Design - Modelling | |
| Tuesday June 23rd, 2015 - 11:00 - 12:30 - Room: Montesquieu (E) | |
| Chairman: | Kvarts Thomas; DONG Energy, Denmark |
| Rapporteur: | Dory Matthieu; RTE, France [to be confirmed] |
| E5.1 | Influence of heat-shrink joints and terminations on tan delta values of a medium voltage cable installation at very low frequency. |
| ; Vaal University of Technology, Vanderbiljpark, South Africa | |
| ; Walmet Technologies, Vereeniging, South Africa | |
| E5.2 | AC resistance of submarine cables. |
| ; Prysmian SpA, Milan, Italy | |
| ; Prysmian Power Link Srl, Milan, Italy | |
| E5.3 | Study of the behaviour of a n-metal cable screen subject to an adiabatic short-circuit. |
| ; Grupo General Cable Sistemas SL, Barcelona, Spain | |
| E5.5 | XLPE cables with aluminium laminated sheath |
| ; Siemens AS, Trondheim, Norway | |
| ; SINTEF Energy Research, Trondheim, Norway | |
| E5.6 | Frequency dependency of single-core cable parameters |
| ; Unitech Power Systems AS, Oslo, Norway | |
| ; Power Cable Consulting AS, Halden, Norway | |
| Tuesday June 23rd, 2015 - 14:00 | |
| A6 - HVDC Cables & Systems | |
| Topic 9: HVDC Cable Systems | |
| Tuesday June 23rd, 2015 - 14:00 - 15:30 - Room: Richelieu (A) | |
| Chairman: | Swingler Steve; University of Southampton, UK |
| Rapporteur: | Samuel Jorice; Nexans, France |
| A6.1 | Development and engineering application of ±160 kV XLPE to three-terminal VSC HVDC project in China |
| ; Electric Power Research Institute of China Southern Power Grid, Guangzhou, Guangdong, China | |
| A6.2 | Rating of HVDC submarine cable crossings |
| ; University of Southampton, Southampton, UK | |
| ; National Grid Plc, Warwick, UK | |
| A6.3 | Experience and challenge of cable connections of offshore wind farms in German North sea |
| ; TenneT TSO GmbH, Bayreuth, Germany | |
| A6.4 | 345 kV DC XLPE extruded cable systems development |
| ; General Cable, Montereau-Fault-Yonne, France | |
| A6.5 | Review of HVDC insulated transmission cables technologies |
| ; Nexans, Paris, France | |
| ; Nexans, Hannover, Germany | |
| ; Nexans, Oslo, Norway | |
| A6.6 | Development process of extruded HVDC cable systems |
| ; Südkabel GmbH, Mannheim, Baden Württemberg, Germany | |
| B6 - Materials for HVDC cables | |
| Topic 1: Materials, New Materials and Ageing Assessment in AC and DC | |
| Tuesday June 23rd, 2015 - 14:00 - 15:30 - Room: Lulli (B) | |
| Chairman: | Gubanski Stanislaw; Chalmers University of Technology, Sweden |
| Rapporteur: | Teyssedre Gilbert; CNRS / Laplace, University P. Sabatier, France |
| B6.1 | Study of the thermal ageing of the XLPE for HVDC applications |
| ; Ampere Laboratory, Villeurbanne, France | |
| ; IMP Laboratory, Villeurbanne, France | |
| ; SuperGrid Institute, Villeurbanne, France | |
| B6.2 | Long term performance of XLPE insulation materials for HVDC cables |
| ; Borealis AB, Stenungsund, Sweden | |
| B6.3 | Key properties of next generation XLPE insulation material for HVDC cables |
| ; Borealis AB, Stenungsund, Sweden | |
| B6.4 | Effect of static mechanical strain on the DC conductivity of extruded cross-linked polyethylene cable insulation |
| ; SINTEF Energy Research, Trondheim, Norway | |
| B6.5 | Dc electrical conductivity in LDPE-based nanocomposites |
| ; Chalmers University of Technology, Gothenburg, Sweden | |
| ; KTH Royal Institute of Technology, Stockholm, Sweden | |
| B6.6 | Loss of dielectric strength of polymers due to high-frequency voltages in HVDC applications |
| ; Technische Universität Ilmenau, Research Unit High-Voltage Technologies, Ilmenau, Germany | |
| C6 - Maintenance | |
| Topic 5: Diagnosis, Maintenance, Remaining Life Estimation and Management | |
| Tuesday June 23rd, 2015 - 14:00 - 15:30 - Room: Condé / Pascal (C) | |
| Chairman: | Awad Ray; Ray Awad Inc., Canada |
| Rapporteur: | Galeron Didier; Nexans, France |
| C6.2 | REE's research and development projects related to predictive maintenance based on monitoring of critical parameters in high voltage underground cables. |
| ; Red Eléctrica de España, Madrid, Spain | |
| ; DIAEL, Madrid, Spain | |
| ; Prysmian Cables and Systems, Barcelona, Spain | |
| C6.3 | Rejuvenation of EPR-insulated medium voltage underground cables |
| ; Novinium, Inc, Auburn, Washington, USA | |
| C6.4 | DGA (dissolved gas analysis) diagnostic method reveals internal carbonization in oil-filled High Voltage extruded cable terminations |
| ; DTE Energy, Detroit, MI, USA | |
| ; Lincoln Electric System, Lincoln, Nebraska, USA | |
| ; G&W Electric Company, Bolingbrook, IL, USA | |
| ; EPRI, Charlotte, NC, USA | |
| C6.5 | Prelocating and pinpointing faults on underground Medium-Voltage cables : review of Hydro-Quebec's experience |
| ; Hydro-Québec (IREQ), Varennes, Québec, Canada | |
| ; Hydro-Québec, Montréal, Québec, Canada | |
| C6.6 | Dielectric diagnosis of extruded cable insulation by very low frequency and spectroscopy techniques - a few case studies |
| ; Central Power Research Institute, Bangalore, Karnataka, India | |
| D6 - Specific Testing Trends 1 | |
| Topic 3: Testing Methods: Electrical and Non Electrical | |
| Tuesday June 23rd, 2015 - 14:00 - 15:30 - Room: Colbert (D) | |
| Chairman: | Zhao Tiebin (Tom); EPRI - Electrical Power Research Institute, USA |
| Rapporteur: | Favrie Chantal; , France |
| D6.1 | Experiences of combined HV & EHV qualifications to IEC, AEIC and challenges IEEE 48 & 404 |
| ; NEETRAC, Atlanta, Georgia, USA | |
| D6.2 | How to perform a pre-qualification test - interpretation of the standard |
| ; KEMA Laboratories, Arnhem, The Netherlands | |
| D6.3 | Effectiveness of tests after installation on power cable systems |
| ; DNV GL, Arnhem, The Netherlands | |
| D6.4 | Final countdown for CPR cable classification - View from a notified body |
| ; VDE Testing and Certification Institute, Offenbach, Germany | |
| D6.5 | Testing submarine cables for combined axial compression and bending loads |
| ; ABB AB, High Voltage Cables, Karlskrona, Sweden | |
| ; MARINTEK, Department of Structural Engineering, Trondheim, Norway | |
| D6.6 | Weibull analysis as a tool to describe DC breakdown performance and distribution in polyethylene for HVDC at laboratory scale |
| ; Nexans Research Center, Lyon, France | |
| E6 - Technical Challenges | |
| Topic 13: Technical challenges encountered with cable systems | |
| Tuesday June 23rd, 2015 - 14:00 - 15:30 - Room: Montesquieu (E) | |
| Chairman: | Koo Ja-yoon; Hanyang University, Republic of Korea |
| Rapporteur: | Tardy Kevin; RTE, France [to be confirmed] |
| E6.1 | Progress control in the context of the project management for the execution of a 320 kV HVDC land cable project - Dolwin 2 |
| ; ABB AG, Mannheim, Baden Württemberg, Germany | |
| E6.2 | Integration of an 88 km 220 kV AC cable into the Victorian electricity network in Australia |
| ; Beca Pty Ltd, Melbourne, Victoria, Australia | |
| ; Beca Pty Ltd, Brisbane, Australia | |
| E6.3 | HVDC & HVAC cable systems delivered on long length drums |
| ; Prysmian Group, Gron, France | |
| ; Nexans, Calais, France | |
| ; General Cable, Montereau-Fault-Yonne, France | |
| ; SYCABEL, Paris, France | |
| ; RTE, Paris, France | |
| E6.4 | Cable quality assurance of offshore projects in the German North Sea |
| ; TenneT TSO GmbH, Bayreuth, Germany | |
| E6.5 | Cable constraints due to background harmonic amplifications |
| ; RTE, Paris, France | |
| E6.6 | Watertight cable designs in hydropower generation plants |
| ; Siemens AS, Trondheim, Norway | |
| ; SINTEF Energy Research, Trondheim, Norway | |
| ; Statkraft Energi AS, Oslo, Norway | |
| ; BKK Nett AS, Bergen, Norway | |
| F6.1 - Materials, Ageing | |
| Tuesday June 23rd, 2015 - 14:00 - 15:30 - Room: Galerie Le Nôtre (F) | |
| Chairman: | Wald Detlef; Eifelkabel, Switzerland |
| Rapporteur: | Charrier Dimitri; Nexans Research Center, France |
| F6.1.01 | A study on the chemical & structural changes of thermally aged XLPE cable insulation by FTIR and thermal analysis techniques |
| ; Central Power Research Institute, Bangalore, Karnataka, India | |
| F6.1.02 | Development of a new liquid antioxidant for stabilizing XLPE compounds or for direct peroxide injection process. |
| ; éCole d'ingénieur de Genève, Geneva, Switzerland | |
| ; Addivant Tenax Road, Trafford Park, Manchester, UK | |
| F6.1.05 | Ensuring future reliability using manufacturers' standards to assess cable system performance after installation |
| ; Wiener Netze, Vienna, Austria | |
| ; IMCORP, Manchester, USA | |
| F6.1.06 | Suggestion of new factors for the PE-based MV cable diagnosis using VLF tan-delta |
| ; Korea Electrical Corporation, Jeollanam-do, Republic of Korea | |
| F6.1.08 | Effect of carbon black selection on semiconductive compound water content and uptake behavior |
| ; IMERYS Graphite and Carbon, Bodio, Switzerland | |
| ; P&M Cable Consulting LLC, Geneva, Switzerland | |
| F6.2 - Diagnosis, maintenance, remaining life, economy | |
| Tuesday June 23rd, 2015 - 14:00 - 15:30 - Room: Galerie Le Nôtre (F) | |
| Chairman: | Mayer Hans; Consultant, Australia |
| Rapporteur: | Angoulevant Olivier; Prysmian Câbles & Systèmes, France |
| F6.2.01 | The experience in applying new recovery voltage parameters for the impregnated paper insulation cable condition diagnostics |
| ; RISI, Lytkarino, Moscow region, Russia | |
| F6.2.02 | Failure experience of Medium Voltage cable heat shrink accessories in Saudi Arabian transmission network |
| ; Saudi Electricity Company, Buraydah, Qassim, Saudi Arabia | |
| F6.2.03 | On-line monitoring and relative trending of dielectric loss in cross-linked HV cable systems. |
| ; Glasgow Caledonian University, Glasgow, UK | |
| ; Wuhan University, Wuhan, China | |
| ; Wuhan Power Supply Company, Wuhan, China | |
| F6.2.05 | Solutions for thefts in overhead-underground transition towers in Red Eléctrica de España. |
| ; Red Eléctrica de España, Alcobendas, Madrid, Spain | |
| F6.2.06 | PD testing and monitoring of HV cable systems |
| ; OMICRON Energy Solutions GmbH, Berlin, Germany | |
| F6.2.07 | Subsea and EHV cables require a challenging purity degree of XLPE-material |
| ; SIKORA AG, Bremen, Germany | |
| F6.2.08 | Optasense® distributed acousticsensing (DAS) systems for the power network |
| ; Optasense Ltd, Cody Technology Park, Ively Road, Farnborough, GU14 0LX, Hampshire, UK | |
| F6.2.09 | Decision making and forecasting using the data available to utilities - pitfalls, challenges, and case studies of ways forward |
| ; Eifelkabel, Villmergen, Switzerland | |
| ; NEETRAC, Atlanta, Georgia, USA | |
| F6.2.10 | Resilient 12 to 36 kV touch safe aerial network solution with a competitive total cost of ownership |
; nkt Cables AB, Falun, Sweden |
|
| F6.2.11 | The introduction of PD detection with on-line PD diagnosis system in EHV underground power cable |
KIM Jae-seung, ROH Tae-hyueng, KIM Dong Kyu, KIM Jin, KIM Youn Chan; KEPCO, Seoul, Republic of Korea |
|
| Tuesday June 23rd, 2015 - 16:00 | |
| A7 - Testing & Qualification of HVDC cable systems | |
| Topic 9: HVDC Cable Systems | |
| Tuesday June 23rd, 2015 - 16:00 - 17:30 - Room: Richelieu (A) | |
| Chairman: | Zaccone Ernesto; Prysmian Power Link Srl, Italy |
| Rapporteur: | Boudinet Nathalie; RTE, France |
| A7.1 | Qualification of an extruded HVDC cable system at 525 kV |
| ; ABB AB, High Voltage Cables, Karlskrona, Sweden | |
| ; ABB AB, Kabeldon, Alingsås, Sweden | |
| A7.2 | The space charge characteristic in DC-XLPE cable after 400 kV PQ test |
| ; J-Power Systems Corporation, Hitachi-shi, Ibaraki-ken, Japan | |
| ; Toyohashi University of of Technolgy, Toyohashi-shi, aichi-ken, Japan | |
| A7.3 | Development and high temperature qualification of innovative 320 kV DC cable with superiorly stable insulation system |
| ; Prysmian SpA, Milan, Italy | |
| ; Prysmian Cavi e Sistemi SRL, Milan, Italy | |
| A7.4 | Lightning impulse test requirement for HVDC transmission systems |
| ; ABB AB, Karlskrona, Sweden | |
| A7.5 | Space charge evolution in composite XLPE HVDC cable insulation during VSC pre-qualification programme |
| ; Alstom Grid, Stafford, UK | |
| ; VISCAS Corporation, Ichihara, Chiba, Japan | |
| A7.6 | CIGRE WG B1.42: Recommendations for testing DC transition joints for power transmission at a rated voltage up to 500 kV |
| ; CIGRE SC B1, Paris, France | |
| B7 - New materials | |
| Topic 1: Materials, New Materials and Ageing Assessment in AC and DC | |
| Tuesday June 23rd, 2015 - 16:00 - 17:30 - Room: Lulli (B) | |
| Chairman: | Hjertberg Thomas; Borealis AB, Sweden |
| Rapporteur: | Frelin Wilfried; EDF R&D, France |
| B7.1 | High performance thermoplastic cable insulation systems for flexible network operation |
| ; University of Southampton, Southampton, UK | |
| ; Gnosys Global Ltd, Surrey, UK | |
| ; Dow Europe GmbH, Horgen, Zurich, Switzerland | |
| B7.2 | Recent developments in cure control for crosslinkable polyethylene (XLPE) power cable insulation |
| ; The Dow Chemical Company, Collegeville, Pennsylvania, USA | |
| ; Dow Chemical (China) Investment Co. Ltd., Shanghai, China | |
| B7.3 | Self healing high voltage electrical insulation materials |
| ; SINTEF Energy Research, Trondheim, Norway | |
| ; SINTEF Materials and Chemistry, Trondheim, Norway | |
| B7.4 | The characteristics of recyclable thermo-plastic based on polyethylene blends for extruded cables |
| ; State Key Laboratory of Electrical Insulation and Power Equipment, Xi'an Jiaotong University, Xi'an, China | |
| ; Electric Power Research Institute of China Southern Power Grid, Guangzhou, Guangdong, China | |
| B7.5 | Validation of power cable material technology with reduced degassing burden |
| ; Dow Chemical (China) Investment Co. Ltd., Shanghai, China | |
| ; The Dow Chemical Company, Collegeville, Pennsylvania, USA | |
| B7.6 | Development of a XLPE insulating with low peroxide by-products |
| ; General Cable, Montereau-Fault-Yonne, France | |
| C7 - Cables and systems - modelling and assessment | |
| Topic 5: Diagnosis, Maintenance, Remaining Life Estimation and Management | |
| Tuesday June 23rd, 2015 - 16:00 - 17:30 - Room: Condé / Pascal (C) | |
| Chairman: | Mosier Rachel; Power Delivery Consultants, USA [To be confirmed] |
| Rapporteur: | Charmetant Adrien; Nexans, France |
| C7.2 | Validation of a generic tool of kinetic simulation of cable ageing |
| ; EDF R&D, Moret-sur-Loing, France | |
| C7.3 | Identification of cable local thermal stress with time domain reflectometry |
| ; EDF R&D, Ecuelles, France | |
| ; EDF SEPTEN, Lyon, France | |
| ; EDF DPN, Paris, France | |
| C7.4 | Modeling and simulation of failures in high temperature superconducting cable for detection and location via time-frequency domain reflectometry |
| ; Yonsei University, Seoul, Republic of Korea | |
| C7.5 | Maintenance decision models for Java-Bali 150 kV power transmission sub marine cable using rams |
| ; PLN Indonesia, Jakarta, Indonesia | |
| ; ITB, School of Electrical Engineering and Informatics, Bandung, Indonesia | |
| C7.6 | Research on error control of optimal computation combining temperature field with ampacity of cables under complicated conditions. |
| ; Wuhan Talentum Electric Power CO., TLD, Wuhan, China | |
| ; State Grid Electric Power Research Institute, Wuhan, China | |
| D7 - Specific Testing Trends 2 | |
| Topic 3: Testing Methods: Electrical and Non Electrical | |
| Tuesday June 23rd, 2015 - 16:00 - 17:30 - Room: Colbert (D) | |
| Chairman: | Zenger Walter; USI, USA |
| Rapporteur: | Paupardin Marie-Laure; General Cable, France |
| D7.1 | Type testing of 150 kV - 161 kV cable system combining AEIC, ICEA and IEC test protocols |
| ; G&W Electric Company, Bolingbrook, IL, USA | |
| ; Hellinic Cables SA, Marousi, Greece | |
| ; G&W Electric Company, Shanghai, China | |
| D7.2 | Suitability of test voltages applied to high and extra-high voltage extruded cables for quality acceptance during commissioning and for condition assessment during operation |
| ; HIGHVOLT Prüftechnik Dresden GmbH, Dresden, Saxony, Germany | |
| D7.3 | New qualification tests for high loaded MV joints |
| ; Laborelec, Linkebeek, Belgium | |
| ; DNV GL, Arnhem, The Netherlands | |
| ; Nexans Network Solutions, Erembodegem, Belgium | |
| ; Alliander, Arnhem, The Netherlands | |
| ; Westland Infra, Poeldijk, The Netherlands | |
| ; Stedin BV, Rotterdam, The Netherlands | |
| ; ORES, Louvain-La-Neuve, Belgium | |
| ; 3M, Neuss, Germany | |
| ; Delta Netwerkbedrijf, Goes, The Netherlands | |
| ; Eandis, Melle, Belgium | |
| ; Enexis, Den Bosch, The Netherlands | |
| ; EDF, Paris, France | |
| ; Sibelga, Brussels, Belgium | |
| D7.4 | Restoring lead alloy solder on cable joint for fluid filled low pressure 145 kV with increasing pressure class |
| ; Techsys Cables, Santo André - SP, Brazil | |
| ; AES ELETROPAULO, São Paulo - SP, Brazil | |
| ; Daimom Engenharia, São Paulo - SP, Brazil | |
| ; Walter Pinheiro, São Paulo - SP, Brazil | |
| D7.5 | Bending stiffness of submarine cables. |
| ; Prysmian SpA, Milan, Italy | |
| D7.6 | Improved method of determining bending stiffness of underground cables |
| ; Hydro-Québec (IREQ), Varennes, Québec, Canada | |
| E7 - Material related - special features | |
| Topic 2: Cables and Accessories Design - Modelling | |
| Tuesday June 23rd, 2015 - 16:00 - 17:30 - Room: Montesquieu (E) | |
| Chairman: | Leeburn Kieron; CBI Electric, African Cables Ltd, South Africa |
| Rapporteur: | Michon Franck; Prysmian Câbles & Systèmes, France |
| E7.1 | The need to update / upgrade test procedures for connectors used in MV underground joints |
| ; NEETRAC, Atlanta, Georgia, USA | |
| E7.2 | Influence of expansion on electric field distribution of stress cones for high voltage cable accessories |
| ; STRESCON GmbH, Esslingen a. N., Germany | |
| E7.3 | Current rating of power cables with temperature limit imposed on backfill/duct bank boundary |
| ; CYME Int/Eaton Corp., Montréal, Québec, Canada | |
| ; Lodz University of Technology, Lodz, Poland | |
| E7.4 | The 110 kV cable thermal field analysis based on the thermal path model and simulation calculation |
| ; State Key Laboratory of electrical insulation and power equipment, Xi'an Jiaotong University, Xi'an, China | |
| ; Electric Power Research Institute of China Southern Power Grid, Guangzhou, Guangdong, China | |
| E7.5 | Improvements on dry type design for GIS and transformer termination up to 300 kV, by means of adjustable compression force. |
| ; Brugg Kabel AG, Brugg, Aargau, Switzerland | |
| E7.6 | Effect of impurities on electric field distribution in HV XLPE insulation |
| ; Liban Cables - Nexans, Beirut, Lebanon | |
| Wednesday June 24th, 2015 - 09:00 | |
| A8 - Testing of HVDC Systems | |
| Topic 9: HVDC Cable Systems | |
| Wednesday June 24th, 2015 - 09:00 - 10:30 - Room: Richelieu (A) | |
| Chairman: | Steennis Fred; DNV GL - Energy, The Netherlands |
| Rapporteur: | Hondâa Pierre; RTE, France |
| A8.1 | Space charge evolution in XLPE HVDC cable with thermal-step-method and pulse-electro-acoustic |
| ; Alstom Grid, Stafford, UK | |
| ; Nexans, Calais, France | |
| ; University of Leicester, Leicester, UK | |
| ; Université Montpellier, Montpellier, France | |
| A8.2 | Development of an industrial space charge measurement facility for extruded HVDC full scale cables |
| ; Nexans France, Calais, France | |
| ; Ofrim Group, Bucharest, Romania | |
| ; Institut d'électronique du Sud - Université Montpellier 2, Montpellier, France | |
| ; Enitram, Dunkerque, France | |
| A8.3 | Partial discharge testing of XLPE cables for HVDC: Challenges and opportunities |
| ; DEI - University of Bologna, Bologna, Italy | |
| ; Nexans France, Calais, France | |
| A8.4 | Laboratory and field partial discharge measurement in HVDC power cables |
| ; HVPD Ltd, Manchester, UK | |
| B8 - Material for Accessories and Sheathing | |
| Topic 1: Materials, New Materials and Ageing Assessment in AC and DC | |
| Wednesday June 24th, 2015 - 09:00 - 10:30 - Room: Lulli (B) | |
| Chairman: | Bhattacharyya Rohini; Ducab, United Arab Emirates |
| Rapporteur: | Ait Amar Abdellatif; Nexans, France |
| B8.1 | Lifetime prediction of an external protection of cold-shrinkable joint in EPDM rubber subjected to thermal ageing |
| ; EDF R&D, Moret-sur-Loing, France | |
| ; Laboratoire de Mécanique de Lille, Villeneuve d'Ascq, France | |
| ; Laboratoire des Procédés et Ingénierie en Mécanique et Matériaux, Paris, France | |
| B8.2 | Fracture behavior and thermo-oxidative ageing of EPDM |
| ; EDF R&D, Moret-sur-Loing, France | |
| ; SIMM - ESPCI, Paris, France | |
| B8.3 | Temperature and electric field dependence of XLPE MV cable joint stress control sleeves |
| ; SINTEF Energy Research, Trondheim, Norway | |
| ; Norwegian University of Science and Technology, Dept. of Electric Power Engineering, Trondheim, Norway | |
| B8.5 | Self-healing cable sheaths in extruded polymeric power cables |
| ; Gnosys Global Ltd, Guildford, Surrey, UK | |
| B8.6 | Designing a new inline insulated piercing trough connector for conductor cross-sections 1.5 to 25 mm2 |
| ; Enexis, 's-Hertogenbosch, The Netherlands | |
| C8 - Improvement of Cable Ratings | |
| Topic 5: Diagnosis, Maintenance, Remaining Life Estimation and Management | |
| Wednesday June 24th, 2015 - 09:00 - 10:30 - Room: Condé / Pascal (C) | |
| Chairman: | Krähenbühl Francis; Nexans Suisse SA, Switzerland |
| Rapporteur: | Bellot Frédéric; General Cable, France |
| C8.i | Invited Lecture : "Smart Grids and insulated power cables" |
| ; Director for R&D and Innovation in ERDF, France | |
| C8.1 | Ampacity and other design considerations for Medium Voltage cables used in renewable energy applications |
| ; Electrical Consulting Engineers, P.C., Schenectady, New York, USA | |
| ; Consultant, Northboro, Massachusetts, USA | |
| C8.2 | Enhanced medium voltage cable ratings by improving cable trench design and thermal conditions |
| ; DNV GL, Arnhem, The Netherlands | |
| ; DEWA, Dubai, United Arab Emirates | |
| C8.3 | Lifetime extension of medium voltage cables |
| ; Graz University of Technology, Graz, Austria | |
| ; Netz Burgenland Strom GmbH, Eisenstadt, Austria | |
| ; UtiLX Europe GmbH, Bückeburg, Germany | |
| C8.4 | Development of the super-capacity insulated wire cable for distribution line. |
| ; ILJIN Electric, Kyunggi-Do, Hwasung-Si/Annyoung-Dong, Republic of Korea | |
| ; SK Chemical, Daejeon-si, Republic of Korea | |
| ; KEPCO, Kwang-ju, Republic of Korea | |
| D8 - Testing evaluations | |
| Topic 3: Testing Methods: Electrical and Non Electrical | |
| Wednesday June 24th, 2015 - 09:00 - 10:30 - Room: Colbert (D) | |
| Chairman: | Gulski Edward; onsite hv solutions ag, Switzerland |
| Rapporteur: | Guillemin Martial; RTE, France |
| D8.1 | System impedances for power cable umbilicals |
| ; SINTEF Energy Research, Trondheim, Norway | |
| D8.2 | High voltage XLPE cable partial discharge localization technology based on high frequency signal transmission |
| ; Wuhan Talentum Electric Power CO., TLD, Wuhan, Hubei, China | |
| ; State Grid Electric Power Research Institute, Wuhan, Hubei, China | |
| D8.3 | ICEA standard S-97-682-97 hyperbaric accelerated water treeing test (AWTT) performed at 250 and 310 bar |
| ; General Cable Corporation, Scottsville, Texas, USA | |
| ; General Cable Corporation, Manlleu, Catalunya, Spain | |
| ; Chevron Energy Technology Company, Houston, Texas, USA | |
| ; Aker Solutions - Umbilicals NA, Mobile, Alabama, USA | |
| D8.4 | Performing type tests for the qualification of three-core submarine cables and accessories for connections of offshore wind farms |
| ; IPH GmbH Berlin, Berlin, Germany | |
| D8.5 | Research and experiments of electromagnetic wave transmission rate in different kinds of cable |
| ; Wuhan Talentum Electric Power CO., TLD, Wuhan, Hubei, China | |
| ; State Grid Electric Power Research Institute, Wuhan, Hubei, China | |
| D8.6 | Measurement of the AC resistance of small cross section power cables |
| ; State Grid Electric Power Research Institute, Nan Jing, Jiang Su Province, China | |
| ; Prysmian Group, Milan, Italy | |
| E8 - New cable and accessories monitoring applications | |
| Topic 7: LV and MV Cable Systems | |
| Wednesday June 24th, 2015 - 09:00 - 10:30 - Room: Montesquieu (E) | |
| Chairman: | Sytnikov Victor; R&D Center @FGC UES, Russia |
| Rapporteur: | Lencot Gérard; Prysmian Câbles & Systèmes, France |
| E8.2 | Toward acoustic detection of partial discharges in high voltage cables. |
| ; Monash University, Melbourne, Victoria, Australia | |
| E8.3 | Development of advanced partial discharge measurement for XLPE cable system |
| ; Central Research Institute of Electric Power Industry (CRIEPI), Yokosuka, Japan | |
| E8.4 | On-line partial discharge screening of MV and HV cables: feasibility and potential |
| ; University of Bologna, Bologna, Italy | |
| ; Techimp, Bologna, Italy | |
| E8.5 | New vision in quality monitoring of extruded high voltage cables |
| ; Acuity Products Limited, St. Asaph, UK | |
| E8.6 | Laboratory investigation of a service aged HV cable termination |
| ; Budapest University of Technology and Economics, Budapest, Hungary | |
| Wednesday June 24th, 2015 - 11:00 | |
| A9 - Materials and Space Charges | |
| Topic 9: HVDC Cable Systems | |
| Wednesday June 24th, 2015 - 11:00 - 12:30 - Room: Richelieu (A) | |
| Chairman: | Marzinotto Massimo; Terna S.p.A., Italy [To be confirmed] |
| Rapporteur: | Eyssautier Quentin; Nexans, France |
| A9.1 | Observation of space charge accumulation in cable insulating materials at voltage polarity reversal |
| ; Tokyo City University, Tokyo, Japan | |
| ; VISCAS Corporation, Ichihara, Chiba, Japan | |
| A9.2 | Space charge distribution in XLPE plates with non-uniform conductivity |
| ; ABB AB, Corporate Research, Västerås, Sweden | |
| ; ABB AB, High Voltage Cables, Karlskrona, Sweden | |
| A9.3 | Behaviors of water tree propagation after accelerated aging under different polarity DC voltages |
| ; School of Electrical Engineering and Information, Sichuan University, Chengdu, Sichuan, China | |
| A9.4 | Development of XLPE nano-composite used for HVDC ±250 kV cable system compatible with LCC and VSC |
| ; LS Cable & System, Gyeongi, Republic of Korea | |
| ; LS Cable & System, Gyeongbuk, Republic of Korea | |
| ; LS Cable & System, Gangwon, Republic of Korea | |
| ; Honam University, Gwangju, Republic of Korea | |
| ; Daejin University, Gyeongi, Republic of Korea | |
| ; Hoseo University, Chungnam, Republic of Korea | |
| ; Hanyang University, Gyeongi, Republic of Korea | |
| A9.5 | Research and development of ±320 kV flexible HVDC power cable |
| ; Zhongtian Technology Submarine Cable Co., Ltd, Nantong, China | |
| ; Zhongtian Technology Group Co., Ltd, Nantong, China | |
| A9.6 | Triple jumps of XLPE insulated HVDC cable development in China: From 160 kV, 200 kV to 320 kV |
| ; Zhongtian Technology Group Co., Ltd, Nantong, China | |
| ; China South Power Grid International Co., Ltd, Guangzhou, Guangdong, China | |
| ; Shanghai Jiao Tong University, Shanghai, China | |
| B9 - Material Performances | |
| Topic 1: Materials, New Materials and Ageing Assessment in AC and DC | |
| Wednesday June 24th, 2015 - 11:00 - 12:30 - Room: Lulli (B) | |
| Chairman: | Maioli Paolo; Prysmian SpA, Italy |
| Rapporteur: | Notingher Petru; Institut d'électronique du Sud - Université Montpellier 2, CNRS, France |
| B9.1 | High quality carbon black to surpass traditional solution for HV semicons? |
| ; IMERYS Graphite and Carbon, Bodio, Switzerland | |
| ; P&M Cable Consulting LLC, Geneva, Switzerland | |
| B9.3 | Non-contact surface metrology of degraded conductor screens in XLPE cables |
| ; SINTEF Energy REsearch, Trondheim, Norway | |
| B9.4 | Remnant static mechanical stresses and water tree ageing of XLPE power cables |
| ; Norwegian University of Science and Technology, Trondheim, Norway | |
| ; SINTEF Energy Research, Trondheim, Norway | |
| B9.5 | Evaluation of degradation of PVC by dielectric spectroscopy, and SEM and FTIR analyzes |
| ; University Mouloud Mammeri, Tizi-Ouzou, Algeria | |
| ; Université Med Boudiaf, M'sila, Algeria | |
| B9.6 | The influence of operating conditions of cable lines in grids on selected properties of extruded cable insulation |
| ; ENEA Operator S.A., Poznan, Poland | |
| ; Poznan University of Technology, Poznan, Poland | |
| C9 - Special Cables - Avionics | |
| Topic 12: Industrial and Special Cables | |
| Wednesday June 24th, 2015 - 11:00 - 12:30 - Room: Condé / Pascal (C) | |
| Chairman: | Schutten Jan; Prysmian, The Netherlands |
| Rapporteur: | Jeanguillaume Alain; Draka Fileca, France |
| C9.i | Invited Lecture : "Impact of the new electrical architecture of aircraft on insulated power cables" |
| ; Emeritus Expert in SAFRAN Group, France | |
| C9.1 | New cable family for new power supply need in aerospace environment. |
| ; DRAKA FILECA, Sainte Geneviève, France | |
| C9.2 | Validating and quantifying reliability improvements of new cable designs - A case study of 600 V self sealing cables |
| ; Duke Energy, Charlotte, NC, USA | |
| ; Southwire, Carollton, USA | |
| ; NEETRAC, Atlanta, Georgia, USA | |
| C9.3 | Low bending radius aerospace power feeder cables for reliable electrical architectures of more electrical aircrafts |
| ; Nexans, Draveil, France | |
| ; Nexans, Draveil, France | |
| ; Nexans, Draveil, France | |
| ; Nexans, Draveil, France | |
| D9 - Environment and sustainability 1 | |
| Topic 4: Cables, Environment and Sustainable Development | |
| Wednesday June 24th, 2015 - 11:00 - 12:30 - Room: Colbert (D) | |
| Chairman: | Zhong Lisheng; State Key Laboratory of electrical insulation and power equipment, Xi'an Jiaotong University, China |
| Rapporteur: | Moindrot Vincent; RTE, France |
| D9.1 | Feedback on the management of transmission lines magnetic fields in France |
| ; RTE, Paris, France | |
| D9.2 | Failures in underground power cables - return of experience |
| ; DNV GL, Arnhem, The Netherlands | |
| D9.4 | Choice of electrically conductive plate for shielding the magnetic field from underground high voltage cables |
| ; Brugg Kabel AG, Brugg, Aargau, Switzerland | |
| D9.5 | Heat dissipation of high voltage cable systems - a technical and agricultural study |
| ; Amprion GmbH, Dortmund, Germany | |
| ; Albert Ludwigs University, Freiburg, Germany | |
| D9.6 | Thermal ratings of submarine HV cables informed by environmental considerations |
| ; University of Southampton, Hants, UK | |
| E9 - Design of LV MV cable systems | |
| Topic 7: LV and MV Cable Systems | |
| Wednesday June 24th, 2015 - 11:00 - 12:30 - Room: Montesquieu (E) | |
| Chairman: | Falconer Antony; Aberdare Cables, South Africa |
| Rapporteur: | Bénard Laurent; Prysmian Câbles & Systèmes, France |
| E9.1 | Copper-clad aluminum as an alternative to copper flexible conductors for electric power cables: opportunities and challenges |
| ; Prysmian SpA, Milan, Italy | |
| ; Prysmian Cavi e Sistemi Italia SRL, Milan, Italy | |
| ; Dynext SRL, Legnano, Milan, Italy | |
| ; G.B. Studio, Milan, Italy | |
| ; Copperweld, Nashville, Tennessee, USA | |
| E9.2 | Connection to MV cable longitudinal aluminium screen |
| ; EDF R&D, Moret-sur-Loing, France | |
| ; SYCABEL, Paris, France | |
| ; ERDF, Paris La Défense, France | |
| E9.3 | Comparative study of circuit integrity cable designs and materials for Australian/New Zealand market |
| ; Nexans Olex, Melbourne, Victoria, Australia | |
| E9.5 | Mechanical connectors used inside MV accessories: A system approach. |
| ; Prysmian Group, Milan, Italy | |
| ; Prysmian Group, Marne la Vallée, France | |
| E9.6 | Catalyst alternatives to replace DBTDL to crosslink silane grafted polyethylene |
| ; General Cable, Montereau-Fault-Yonne, France | |
| F9.1 - LV, MV, HV, EHV and future cables | |
| Wednesday June 24th, 2015 - 11:00 - 12:30 - Room: Galerie Le Nôtre (F) | |
| Chairman: | Jeon Seung-ik; LS Cable & System, Republic of Korea |
| Rapporteur: | Boyer Ludovic; Nexans, France |
| F9.1.01 | Cables with smooth welded aluminum sheath. |
| ; ILJIN Electric, Hwasung-Si, Kyunggi-Do, Republic of Korea | |
| F9.1.02 | Expanding the performance potential of the universal cable system by the use of DOW endurance & HFDC-4202 EC water tree retardant crosslinked polyethylene insulation. |
| ; Dow Electrical & Telecommunications USA, Collegeville, Pennsylvania, USA | |
| ; nkt Cables AB, Falun, Sweden | |
| ; Dow Electrical & Telecommunications Europe, Horgen, Zurich, Switzerland | |
| F9.1.03 | Effect of the fault impedance on the performance of directional over current relays in medium voltage power cables- a case study |
| ; Dar Engineering, Cairo, Egypt | |
| F9.1.04 | Investigation of temperature dependence of DC diagnostic tests on LV PVC insulated cables |
| ; Budapest University of Technology and Economics, Budapest, Hungary | |
| F9.1.06 | The completion of 275 kV Suruga-Higashishimizu line |
| ; Chubu Electric Power Co.,Inc, Nagoya, Japan | |
| F9.1.08 | Effect of water filled voids on the thermo-electrical behaviour of XLPE insulated cables using FEA method. |
| ; Université des Sciences et de la Technologie USTHB, Bab-Ezzouar, Algiers, Algeria | |
| F9.1.09 | Hybrid energy transfer lines with liquid hydrogen and superconducting cable - prototypes of future high power lines |
| ; Russian Scientific R&D Cable Institute, Moscow, Rwanda | |
| F9.1.10 | Syntactic foam as an alternative electrical insulation material for superconducting cable systems |
| ; RWTH Aachen University, Aachen, Germany | |
| F9.2 - Cables and accessories design, modelling | |
| Wednesday June 24th, 2015 - 11:00 - 12:30 - Room: Galerie Le Nôtre (F) | |
| Chairman: | Chang Michael; Nexans, China |
| Rapporteur: | Peltron Guillaume; ERDF, France |
| F9.2.02 | Electric field distribution in polyethylene insulation used in the electric cables affected by water trees in the presence of space charges. |
| ; Ecole Nationale Polytechnique d'Alger, El-Harrach, Alger, Algeria | |
| F9.2.04 | Transient analysis of 3-core SL-type submarine cables with jacket around each core |
| ; Lodz University of Technology, Lodz, Poland | |
| ; Hellenic Cables, Athens, Greece | |
| F9.2.05 | Cable joint to FFLP cable for provisional repair with quick installation |
| ; Techsys Cables, Santo André - SP, Brazil | |
| ; Matrixenergia, São Paulo - SP, Brazil | |
| ; LIGHT SA, Rio de Janeiro, RJ, Brazil | |
| F9.2.06 | Design and analysis of high current heat cycles test set for underground cable |
| ; Metropolitan Electricity Authority, Bangkok, Thailand | |
| F9.2.09 | Replacement of porcelain bushings with polymeric bushings in HV underground XLPE cable termination box |
| ; KEPCO, Seoul, Republic of Korea | |
| F9.2.10 | Computationally light two-zone moisture migration modelling for underground cables - critical temperature vs. Critical heat flux |
| ; Aalto University, Espoo, Finland | |
| F9.2.11 | A novel lumped l-C ladder method for computing switching overvoltages in EHV long shunt-compensated cables |
| ; University of Padova-Department of Industrial Engineering, Padova, Italy | |
| ; Prysmian Power Link, Milan, Italy | |
| F9.2.12 | Development of a 500 kV PPLP mi cable system for HVDC applications |
| ; LS Cable & System, Gu-mi, Gyeongbuk, Republic of Korea | |
| Wednesday June 24th, 2015 - 14:00 | |
| A10 - HVDC transient phenomena | |
| Topic 9: HVDC Cable Systems | |
| Wednesday June 24th, 2015 - 14:00 - 15:30 - Room: Richelieu (A) | |
| Chairman: | Testa Luigi; Prysmian Cables and Systems, Spain |
| Rapporteur: | Luton Marie-Hélène; Nexans France, France |
| A10.1 | The study on the transient electric field distribution of HVDC cable |
| ; Harbin University of Science and Technology, Harbin, China | |
| A10.2 | Modeling of DC cables for transient studies |
| ; EDF R&D, Moret-sur-Loing, France | |
| ; EDF R&D, Clamart, France | |
| ; EDF CIST, Saint-Denis, France | |
| A10.3 | Transient thermal phenomenon in HVDC extruded cables under test and operating condition & numerical simulation and measurements |
| ; Nexans France, Calais, France | |
| ; Nexans Germany, Hannover, Germany | |
| ; JK Cablegrid Consulting AB, Karlskrona, Sweden | |
| A10.4 | Transients on DC cables connected to VSC converters |
| ; RTE, Paris La Défense, France | |
| A10.5 | Transient space charge phenomena in HVDC model cables |
| ; Laboratoire Plasma et Conversion d'Energie, Université Paul Sabatier, Toulouse, France | |
| ; University Power Electric, Hanoi, Viet Nam | |
| A10.6 | On the way to compare the polarity reversal withstand capability of HVDC mass-impregnated and extruded cable systems |
| ; TERNA S.p.A., Rome, Italy | |
| ; University of Bologna, Bologna, Italy | |
| ; CESI S.p.A., Milan, Italy | |
| ; FGH Engineering & Test GmbH, Mannheim, Baden Württemberg, Germany | |
| B10 - Cables for the Future | |
| Topic 11: Cables for the Future | |
| Wednesday June 24th, 2015 - 14:00 - 15:30 - Room: Lulli (B) | |
| Chairman: | Rakowska Aleksandra; TU Poznan University of Technology, Polytechnika Poznanska, Poland |
| Rapporteur: | Mirebeau Pierre; Nexans France, France |
| B10.1 | Update on world's first superconducting cable and fault current limiter installation in a German city center |
| ; Nexans Deutschland GmbH, Hannover, Germany | |
| ; RWE Deutschland AG, Essen, Germany | |
| ; Karlsruhe Institute of Technology, Karlsruhe, Germany | |
| ; Nexans SuperConductors GmbH, Hürth, Germany | |
| B10.3 | The test results of superconducting AC and DC cables in Russia. |
| ; R&D Center @FGC UES, Moscow, Russia | |
| B10.5 | High power underground transmission lines |
| ; Siemens AG, Erlangen, Germany | |
| C10 - Industrial and Special Cables | |
| Topic 12: Industrial and Special Cables | |
| Wednesday June 24th, 2015 - 14:00 - 15:30 - Room: Condé / Pascal (C) | |
| Chairman: | Rovira Jacint; Groupo General Cables Sistemas SA, Spain |
| Rapporteur: | Ben Hassine Mouna; EDF R&D, France |
| C10.1 | Development of an alternative solution to mica tape for fire resistant cables |
| ; Eifelkabel, Villmergen, Switzerland | |
| ; Orton Consulting Engineers International, North Vancouver, Canada | |
| ; Volsun Electronics, Suzhou, China | |
| C10.2 | Cables for oil, gas and petrochemical industry |
| ; DUCAB, Dubai, United Arab Emirates | |
| C10.3 | Acceptance criteria in nuclear power plant cable qualification |
| ; UJV Rez, a. s., Hlavní 130, Rez, 250 68 Husinec, Czech Republic | |
| C10.4 | Electrical performance improvement of cross-linked polyethylene cables using inorganic filler. |
| ; Electrical Power Dept. , Petrojet, Cairo, Egypt | |
| ; Electrical Power and Machines Eng. Dept, Aswan University, Aswan, Egypt | |
| ; Polymers and Pigments Dept., National Research Center, Cairo, Egypt | |
| ; Electrical Power and Machines Eng. Dept, Ain Shams University, Cairo, Egypt | |
| C10.5 | Determination of fire behavior of polymer cable materials and mathematical modeling of highly-filled halogen-free compound burning |
| ; VNIIKP, Moscow, Russia | |
| D10 - Environment and sustainability 2 | |
| Topic 4: Cables, Environment and Sustainable Development | |
| Wednesday June 24th, 2015 - 14:00 - 15:30 - Room: Colbert (D) | |
| Chairman: | Koepfer Rolf; SYCABEL, France |
| Rapporteur: | Barbeau Sophie; Nexans, France |
| D10.1 | Life cycle assessments of extruded AC and DC power cable systems |
| ; Südkabel GmbH, Mannheim, Baden Württemberg, Germany | |
| D10.2 | Life cycle assessment improvement medium voltage cable for French market |
| ; General Cable, Montereau-Fault-Yonne, France | |
| D10.3 | Circular economy concept for power cables |
| ; Prysmian Netherlands B.V., Delft, The Netherlands | |
| ; Alliander, Arnhem, The Netherlands | |
| D10.4 | Controlling fluid leaks in damaged fluid filled cables |
| ; Gnosys Global Ltd, Guildford, Surrey, UK | |
| ; EDF R&D, Moret-sur-Loing, France | |
| D10.5 | Condition assessment of high voltage (22 kV) aerial bundled cable (ABC) |
| ; Nexans Olex, Tottenham, Victoria, Australia | |
| D10.6 | Comparison of quickfield simulation of three single core XLPE cables, in flat formation, with complex loading, between not taking drying out and taking drying out of soil into account. |
| ; Vaal University of Technology, Vanderbijlpark, South Africa | |
| E10 - Challenging Environment | |
| Topic 7: LV and MV Cable Systems | |
| Wednesday June 24th, 2015 - 14:00 - 15:30 - Room: Montesquieu (E) | |
| Chairman: | Beghin Véronique; TRACTEBEL, Belgium |
| Rapporteur: | Colombier Serge; Prysmian Câbles & Systèmes, France |
| E10.2 | Accelerated aluminum corrosion upon water ingress in damaged low voltage underground power cables. |
| ; Eindhoven Unversity of Technology, Eindhoven, The Netherlands | |
| ; DNV GL - Energy, Arnhem, The Netherlands | |
| E10.3 | Long-term effect of water tree aged cables injected by silicone liquid under continuous electrical and thermal stress |
| ; Sichuan University, Chengdu, China | |
| E10.4 | Assessing smoke and heat release during combustion of electric cables using cone calorimeter |
| ; Central Power Research Institute, Bangalore, Karnataka, India | |
| E10.5 | Lethal combustion product evaluation of polymeric materials used in power cables |
| ; Central Power Research Institute, Bangalore, Karnataka, India | |
| E10.6 | High safety and low maintenance aerial cable system withstanding extreme weather |
| ; nkt Cables AB, Falun, Sweden | |