Detail publikace

Environmentally friendly water adsorptive materials for high density thermal energy storage systems

MIKŠÍK, F. KOTLÍK, J. MIYAZAKI, T.

Originální název

Environmentally friendly water adsorptive materials for high density thermal energy storage systems

Typ

článek ve sborníku ve WoS nebo Scopus

Jazyk

angličtina

Originální abstrakt

Several artificially prepared materials from the group of mesoporous silica nanomaterials (MSNs) were tested on their water adsorptive capabilities as a potentially new eco-friendly energy storage materials for high density thermal energy storage systems. The selected specimens are distinguished by their pore size from 1.7-3.8 nm and aluminium doping. All the tested materials have shown high affinity towards water and high-water uptakes. The theoretical energy density of the materials spans from 780 kJ/kg up to 1440 kJ/kg mostly depending on the pore volume and partially on the pore size. The materials show high potential for further investigations in the field of adsorption heat storage especially the TMPS-4A for further enhancement as a composite material and TMPS-1.5A for possible direct use.

Klíčová slova

Thermal energy storage, Eco-friendly, Mesoporous silica, Adsorption, Water, Nanomaterials

Autoři

MIKŠÍK, F.; KOTLÍK, J.; MIYAZAKI, T.

Vydáno

9. 11. 2018

Nakladatel

Slovenská banícka spoločnosť ZSVTS, Základná organizácia pri Ústave geotechniky SAV

Místo

Košice 2018

ISBN

978-80-89883-08-0

Kniha

XXVII. Vedecké sympózium

Edice

Hrádok 2018

Číslo edice

27

Strany od

62

Strany do

67

Strany počet

6

BibTex

@inproceedings{BUT152132,
  author="MIKŠÍK, F. and KOTLÍK, J. and MIYAZAKI, T.",
  title="Environmentally friendly water adsorptive materials for high density thermal energy storage systems",
  booktitle="XXVII. Vedecké sympózium",
  year="2018",
  series="Hrádok 2018",
  number="27",
  pages="62--67",
  publisher="Slovenská banícka spoločnosť ZSVTS, Základná organizácia pri Ústave geotechniky SAV",
  address="Košice 2018",
  isbn="978-80-89883-08-0"
}