03575nam 2200817z- 450 991055744210332120231214133238.0(CKB)5400000000043301(oapen)https://directory.doabooks.org/handle/20.500.12854/76393(EXLCZ)99540000000004330120202201d2021 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierEngineering Properties of Superconducting MaterialsBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20211 electronic resource (136 p.)3-0365-0372-2 3-0365-0373-0 Plastic (and microplastic) pollution has been described as one of the greatest environmental challenges of our time, and a hallmark of the human-driven epoch known as the Anthropocene. It has gained the attention of the general public, governments, and environmental scientists worldwide. To date, the main focus has been on plastics in the marine environment, but interest in the presence and effects of plastics in freshwaters has increased in the recent years. The occurrence of plastics within inland lakes and rivers, as well as their biota, has been demonstrated. Experiments with freshwater organisms have started to explore the direct and indirect effects resulting from plastic exposure. There is a clear need for further research, and a dedicated space for its dissemination. This book is devoted to highlighting current research from around the world on the prevalence, fate, and effects of plastic in freshwater environments.Information technology industriesbicsschybrid high voltage direct current transmission systemresistive-type superconducting fault current limiterscheme designshort-circuit faultYttrium barium copper oxide materialstransient simulationhigh pressurediamond anvil cellRaman spectroscopyelectrical conductivityphase transitionpressure-induced metallizationiron-based superconductorscritical currentsflux pinningmicrostructuresuperconducting tapequenchR-SFCLAC and DC overcurrentexperimentfinite element method (FEM)numerical modelingsuperconducting coilalternating current (AC) lossessuperconducting material lawinductive fault current limitermagnetic flux shieldingmultiphysics simulationtransient statefield-circuit coupling methodhigh-temperature superconducting bulkmodelingmagnetic levitationelectromagnetic-thermo-force couplinghigh speedHTSbulk superconductorscoated conductorsmathematical modellingH-formulationInformation technology industriesCoombs Timedt1323409Coombs TimothBOOK9910557442103321Engineering Properties of Superconducting Materials3035517UNINA