prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf

High-temperature superconductors have distinct advantages compared to conventional conductors. Below their critical temperature, superconductors have immeasurably low ohmic losses. To maintain the superconducting state, superconductors require constant cooling. This study aims at identifying the env...

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Έκδοση: KIT Scientific Publishing 2022
Διαθέσιμο Online:https://doi.org/10.5445/KSP/1000145972
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spelling oapen-20.500.12657-576782022-08-02T02:59:09Z Prospective Life Cycle Assessment of High-Temperature Superconductors for Future Grid Applications Buchholz, Alexander Hochtemperatursupraleiter; Supraleitende Kabel; Ökobilanz; Energieverteilung; High-temperature superconductor; Superconducting cable; Life cycle assessment; Energy transmission bic Book Industry Communication::T Technology, engineering, agriculture::TH Energy technology & engineering::THR Electrical engineering High-temperature superconductors have distinct advantages compared to conventional conductors. Below their critical temperature, superconductors have immeasurably low ohmic losses. To maintain the superconducting state, superconductors require constant cooling. This study aims at identifying the environmental impacts of the application of superconductors in future grid technologies such as superconducting power cables. 2022-08-01T10:29:38Z 2022-08-01T10:29:38Z 2022 book https://library.oapen.org/handle/20.500.12657/57678 ger Karlsruher Schriftenreihe zur Supraleitung application/pdf Attribution-ShareAlike 4.0 International prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf https://doi.org/10.5445/KSP/1000145972 KIT Scientific Publishing 10.5445/KSP/1000145972 10.5445/KSP/1000145972 44e29711-8d53-496b-85cc-3d10c9469be9 35 248 open access
institution OAPEN
collection DSpace
language ger
description High-temperature superconductors have distinct advantages compared to conventional conductors. Below their critical temperature, superconductors have immeasurably low ohmic losses. To maintain the superconducting state, superconductors require constant cooling. This study aims at identifying the environmental impacts of the application of superconductors in future grid technologies such as superconducting power cables.
title prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf
spellingShingle prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf
title_short prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf
title_full prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf
title_fullStr prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf
title_full_unstemmed prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf
title_sort prospective-life-cycle-assessment-of-high-temperature-superconductors-for-future-grid-applications.pdf
publisher KIT Scientific Publishing
publishDate 2022
url https://doi.org/10.5445/KSP/1000145972
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