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"Energiatehnoloogia teadus- ja arendustegevuse toetamine" projekt SLOKT10209T
SLOKT10209T "Tahkeoksiidsete ja madaltemperatuursete kütuseelementide, elektrolüüserite ja superkondensaatorite materjalide ja ühiskrakkude väljatöötamine ja testimine (1.01.2010−30.08.2015)", Enn Lust, Tartu Ülikool.
SLOKT10209T
Tahkeoksiidsete ja madaltemperatuursete kütuseelementide, elektrolüüserite ja superkondensaatorite materjalide ja ühiskrakkude väljatöötamine ja testimine
Development of materials and single cells for solid oxide and polymer electrolyte fuel cells, high temperature electrolyzers and supercapacitors
Tahkeoksiidsete ja madaltemperatuursete kütuseelementide, elektrolüüserite ja superkondensaatorite materjalide ja ühiskrakkude väljatöötamine ja testimine
1.01.2010
30.08.2015
Teadus- ja arendusprojekt
Energiatehnoloogia teadus- ja arendustegevuse toetamine
ValdkondAlamvaldkondCERCS erialaFrascati Manual’i erialaProtsent
4. Loodusteadused ja tehnika4.17 Energeetikaalased uuringudT140 Energeetika 2.2. Elektroenergeetika, elektroonika (elektroenergeetika, elektroonika, sidetehnika, arvutitehnika ja teised seotud teadused)100,0
AsutusRollPeriood
Tartu Ülikoolkoordinaator01.01.2010−30.08.2015
AsutusRiikTüüp
SA Archimedes
PerioodSumma
01.01.2010−30.08.20151 006 285,08 EUR
1 006 285,08 EUR

Highly effective materials for solid oxide and polymer electrolyte fuel cells, high-temperature proton-conductive electrolyzers (HTPEL), electrical double layer and hybride supercapacitors will be developed and tested. New non-Pt-metal catalysts will be developed and evaluated. Small-size electrical double layer and hybride supercapacitors and solid oxide fuel cell single cells will be completed and tested at different temperatures. New technology for preparation of high-temperature proton-conductive electrolyzers will be developed and tested in wind-farms and solar cell systems for production of H2 and O2 to secure power supply integrity for long-term scale. New cleaning methods for rare-earth metal compounds, produced in AS Silmet, will be worked out for applying the materials for production of cost-effective SOFCs and HTPELs. Highly qualified researchers will be educated and employed , and infrastructure will be modified to complete a research centre for developing the high-effective energy conversion and storage systems.
Highly effective materials for solid oxide and polymer electrolyte fuel cells, high-temperature proton-conductive electrolyzers (HTPEL), electrical double layer and hybride supercapacitors will be developed and tested. New non-Pt-metal catalysts will be developed and evaluated. Small-size electrical double layer and hybride supercapacitors and solid oxide fuel cell single cells will be completed and tested at different temperatures. New technology for preparation of high-temperature proton-conductive electrolyzers will be developed and tested in wind-farms and solar cell systems for production of H2 and O2 to secure power supply integrity for long-term scale. New cleaning methods for rare-earth metal compounds, produced in AS Silmet, will be worked out for applying the materials for production of cost-effective SOFCs and HTPELs. Highly qualified researchers will be educated and employed , and infrastructure will be modified to complete a research centre for developing the high-effective energy conversion and storage systems.