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Zuijderduin, R. (author), Chevtchenko, O. (author), Smit, J.J. (author), Aanhaanen, G. (author), Ross, R. (author)
The electricity grid of the Netherlands is changing. There is a call of society to use more underground cables, less overhead lines (OHL) and to reduce magnetic emissions. At the same time, parts of the future transmission grid need strengthening depending on the electricity demand in the coming decades [1]. Novel high temperature superconductor...
conference paper 2014
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Chevtchenko, O. (author), Zuijderduin, R. (author), Smit, J. (author), Willen, D. (author), Lentge, H. (author), Thidemann, C. (author), Traeholt, C. (author)
Particulars of 6 km long HTS AC power cable for Amsterdam project are: a cable has to fit in an annulus of 160 mm, with only two cooling stations at the cable ends [1]. Application of existing solutions for HTS cables would result in excessively high coolant pressure drop in the cable, possibly affecting public acceptance of the project. In...
journal article 2012
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Zuijderduin, R. (author), Chevchenko, O. (author), Smit, J.J. (author), Aanhaanen, G. (author), Melnik, I. (author), Geschiere, A. (author)
ue to increasing power demand, the electricity grid of the Netherlands is changing. The future transmission grid will obtain electrical power generated by decentralized renewable sources, together with large scale generation units located at the coastal region. In this way electrical power has to be distributed and transmitted over longer...
journal article 2012
document
Chevtchenko, O. (author), Zuijderduin, R. (author), Smit, J. (author), Willen, D. (author), Lentge, H. (author), Thidemann, C. (author), Traeholt, C. (author), Melnik, I. (author), Geschiere, A. (author)
are: a cable has to fit in an annulus of 160 mm, with two cooling stations at the cable ends only. Existing solutions for HTS cables would lead to excessively high coolant pressure drop in the cable, potentially affecting public acceptance of the project. A way out would be to substantially reduce AC losses from 1 down to about 0.1 W/m per phase...
journal article 2012
document
Zuijderduin, R. (author), Chevtchenko, O. (author), Smit, J.J. (author), Willen, D. (author), Melnik, I. (author), Geschiere, A. (author)
The future electricity grid will be more sustainable and it will have more power transmission and distribution capability with more electrical power added from decentralized sources on distribution level and from wind parks and other large sources on transmission level. More interconnections and more underground transmission and distribution...
journal article 2012
document
Zuijderduin, R. (author), Chevtchenko, O. (author), Smit, J.J. (author), Aanhaanen, G. (author), Melnik, I. (author), Geschiere, A. (author)
Due to increasing power demand, the electricity grid of the Netherlands is changing. The future grid must be capable to transmit all the connected power. Power generation will be more decentralized like for instance wind parks connected to the grid. Furthermore, future large scale production units are expected to be installed near coastal...
journal article 2012
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