Ole Tønnesen scite author profile

Ole Tønnesen

4Publications

51Citation Statements Received

11Citation Statements Given

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167

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Affiliations

Technical University of Denmark, Ørsted (Denmark), Electric Power University

Publications

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Loss and inductance investigations in a 4-layer superconducting prototype cable conductor

Olsen

Træholt

Kühle

et al. 1999

IEEE Trans. Appl. Supercond.

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One important issue in the design and optimization of a superconducting cable conductor is the control of the current distribution between single tapes and layers. This presentation is based on a number of experiments performed on a 4-layer three meter long prototype superconducting cable conductor.The self and mutual inductances of the layers are studied theoretically. The current distribution between the superconducting layers is monitored as a function of transport current. The results are compared with the expected current distribution given by our equivalent electrical circuit model.The AC-losses are measured as a function of transport current and a given current distribution and compared with the monoblock model. Recommendations for design of future cable conductor prototypes are given.

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Alternating current losses of a 10 metre long low loss superconducting cable conductor determined from phase sensitive measurements

Olsen

Kühle

Træholt

et al. 1999

Supercond. Sci. Technol.

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The ac loss of a superconducting cable conductor carrying an ac current is small. Therefore the ratio between the inductive (out-of-phase) and the resistive (in-phase) voltages over the conductor is correspondingly high. In vectorial representations this results in phase angles between the current and the voltage over the cable close to 90 degrees. This has the effect that the loss cannot be derived directly using most commercial lock-in amplifiers due to their limited absolute accuracy. However, by using two lock-in amplifiers and an appropriate correction scheme the high relative accuracy of such lock-in amplifiers can be exploited. In this paper we present the results from ac-loss measurements on a low loss 10 metre long high temperature superconducting cable conductor using such a correction scheme. Measurements were carried out with and without a compensation circuit that could reduce the inductive voltage. The 1 µV cm-1 critical current of the conductor was 3240 A at 77 K. At an rms current of 2 kA (50 Hz) the ac loss was derived to be 0.6±0.15 W m-1. This is, to the best of our knowledge, the lowest value of ac loss of a high temperature superconducting cable conductor reported so far at these high currents.

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First operation experiences from a 30 kV, 104 MVA HTS power cable installed in a utility substation

Willen

Hansen

Däumling

et al. 2002

Physica C: Superconductivity

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Operation experiences with a 30 kV/100 MVA high temperature superconducting cable system

Tønnesen

Däumling

Jensen³

et al. 2004

Supercond. Sci. Technol.

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A superconducting cable based on Bi-2223 tape technology has been developed, installed and operated in the public network of Copenhagen Energy in a two-year period between May 2001 and May 2003. This paper gives a brief overview of the system and analyses some of the operation experiences. The aim of this demonstration project is to gain experience with HTS cables under realistic conditions in a live distribution network. Approximately 50 000 utility customers have their electric power supplied through the HTS cable. The cable system has delivered 226 GW h of energy and reached a maximum operating current of 1157 A. The operation experiences include over-currents of 6 kA due to faults on peripheral lines, commissioning, servicing and failure responses on the cooling system, continuous 24 h, 7 day per week monitoring and performance of the alarm system. The implications of these experiences for the future applications of HTS cable systems are analysed.

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Ole Tønnesen

Loss and inductance investigations in a 4-layer superconducting prototype cable conductor

Alternating current losses of a 10 metre long low loss superconducting cable conductor determined from phase sensitive measurements

First operation experiences from a 30 kV, 104 MVA HTS power cable installed in a utility substation

Operation experiences with a 30 kV/100 MVA high temperature superconducting cable system

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