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Publikācija: Apģērbā integrējamais cilvēka kustību enerģijas pārveidotajs

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Publikācijas valoda Latviešu (lv)
Nosaukums oriģinālvalodā Apģērbā integrējamais cilvēka kustību enerģijas pārveidotajs
Nosaukums angļu valodā Human Motion Energy Harvester for Wearable Application
Pētniecības nozare 1. Dabaszinātnes
Pētniecības apakšnozare 1.3. Fizika un astronomija
Autori Juris Blūms
Gaļina Terļecka
Ilgvars Gorņevs
Ausma Viļumsone
Atslēgas vārdi energy harvesting, flat inductors
Anotācija The operation of the electrodynamic human motion energy harvester with flat structure is under investigation. Electrodynamic harvester consists of a flat, spiral-shaped coil and a rectangular magnet. All parts of the harvester can be deployed both on a variety of clothing items which move one relative to another during the human motion. During the process of human motion magnet is moved along the coil and induced the pulses of voltage. By optimization of coil and magnet dimensions the mean power of into the jacket integrated prototype about 0,2 mW is obtained. With the planar coil geometry the generator's minimal volume and occupied space are achieved, therefore power density of generator (about 1,82 mW/cm3) is higher than proposed by other researchers and it is suitable to be fully integrated into clothing.
Anotācija angļu valodā The operation of the electrodynamic human motion energy harvester with flat structure is under investigation. Electrodynamic harvester consists of a flat, spiral-shaped coil and a rectangular magnet. All parts of the harvester can be deployed both on a variety of clothing items which move one relative to another during the human motion. During the process of human motion magnet is moved along the coil and induced the pulses of voltage. By optimization of coil and magnet dimensions the mean power of into the jacket integrated prototype about 0,2 mW is obtained. With the planar coil geometry the generator's minimal volume and occupied space are achieved, therefore power density of generator (about 1,82 mW/cm3) is higher than proposed by other researchers and it is suitable to be fully integrated into clothing.
Atsauce Blūms, J., Terļecka, G., Gorņevs, I., Viļumsone, A. Apģērbā integrējamais cilvēka kustību enerģijas pārveidotajs. No: Apvienotais pasaules latviešu zinātnieku III kongress un Letonikas IV kongress: sekcija "Tehniskās zinātnes”: tēžu krājums, Latvija, Rīga, 24.-27. oktobris, 2011. Rīga: RTU Izdevniecība, 2011, 26.-26.lpp. ISBN 978-9934-10-227-1.
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