Uticaj primene jonskih aktivatora na bazi d-metala Zn, Co, Cu, Ni, Mo i laserskog zračenja na energetsku efikasnost procesa dobijanja vodonika alkalnom elektrolizom
Influence of the application of ionic activators based on d-metals Zn, Co, Cu, Ni, Mo and laser radiation on the energy efficiency of hydrogen generation from alkaline electrolysis.
Author
Perović, Ivana
Mentor
Pašti, Igor
Committee members
Nikolić, Vladimir
Stojković Simatović, Ivana

Milovanović, Dubravka

Gavrilov, Nemanja

Metadata
Show full item recordAbstract
Rast životnog standarda sve brže rastuće svetske populacije zahteva
veliki napredak u snabdevanju energijom i povećanom energetskom
efikasnošću kako bi se zadovoljile sve veće potrebe modernog društva. Već
decenijama odgovori na ove zahteve pronalaze se u obnovljivim izvorima
energije čiji je cilj da budu održivi i ekonomski konkurentni sa tehnologijama
zasnovanim na korišćenju fosilnih goriva. Kako bi obnovljivi izvori u
budućnosti bili u potpunosti osnov održivog razvoja i snabdevnja energijom
neophodno je pronaći najpogodniji način za skladištenje i transport energije
dobijene iz ovih izvora, sve u cilju kontinuiranog snabdevanja energijom čak i u
slučajevima kada obnovljivi izvori nisu dostupni. Vodonik je trenutno najbolji
kandidat, kao medijuma koji zadovoljava sve uslove za ovakvu manipulaciju
energijom i koji se uklapa u buduće energetske koncepte...
The growing standard of living and rising of world population requires
increasing demands for energy supply and its efficiency to meet the needs of
modern society. For decades, answers to these requirements are found in
renewable energy sources that aim to be sustainable and economically
competitive with fossil-fueled technologies. In order to make renewable sources
in the future the basis of sustainable development and energy supply, it is
necessary to find the most suitable way for storing and transporting energy
from these sources, with the aim of continuously supplying energy even in
cases where renewable sources are not available. Hydrogen is currently the best
candidate as an energy medium, which meets all the requirements for such
energy manipulation and fits into future energy concepts...
Faculty:
Универзитет у Београду, Факултет за физичку хемијуDate:
11-05-2018Projects:
- Efficient use of resources in energy converting applications (EU-303024)
- Hydrogen Energy - Research and Development of New Materials: Electrolytic Hydrogen Production, Hydrogen Fuel Cells, Isotope Effects (RS-172045)