Wykaz publikacji wybranego autora

Magda Ziółkowska, mgr inż.

asystent

Wydział Energetyki i Paliw
WEiP-ktp, Katedra Technologii Paliw


Identyfikatory Autora

ORCID: brak

ResearcherID: brak

Scopus: 56050716300





Liczba pozycji spełniających powyższe kryteria selekcji: 33, z ogólnej liczby 33 publikacji Autora


1
  • A geometrical model of random porous structures to adsorption calculations
2
  • A qualitative approach to adsorption mechanism identification on microporous carbonaceous surfaces
3
  • Adsorbate particle volume on nanocarbon surfaces – computational studies
4
  • Adsorption mechanisms in a view of DFT and clustering-based models
5
  • Adsorption mechanisms in view of the computational studies of adsorbent-adsorbate interaction potential
6
  • An approach to adsorption phenomena identification
7
  • Analiza stosowalności uniwersalnej teorii adsorpcji uniBET do opisu struktury żelu krzemionkowego
8
  • Analysis of adsorbents porosity – methods and models
9
  • Applicability of mathematical description of adsorption measurements and adsorption mechanism in prediction of gas deposits in microporous materials
10
  • Application of multiple sorption model to estimation of ${CO_2}$ sequestration capacity or ${CH_4}$ recovery in polish hard coals
11
  • Application of Multiple Sorption Model to estimation of $CO_{2}$ sequestration capacity or $CH_{4}$ recovery in Polish hard coals
12
  • Application of the clustering-based LBET class adsorption models to the analysis of the microporous structure of silica membranes
13
  • Application of the clustering-based models with the original fluid state model to an analysis of high temperature gaseous adsorption isotherms on the carbonaceous materials
14
  • Application of the LBET class adsorption models to the analysis of the effect of production process conditions on the structural properties of the active carbons
15
  • Application of the new adsorption models with the fast multivariant identification procedure as a tool for analysing the microporous structure on the basis of carbon dioxide and methane adsorption isotherms
16
  • Characterization of hard coal properties applying multiple sorption model with parameters determined from qualitative approach to adsorption mechanism identification
17
  • Determination of multiple sorption model parameters, for hard coals properties characterization, applying qualitative approach to adsorption mechanism identification
18
  • Effect of adsorbate properties on adsorption mechanisms: computational study
19
  • Energy aspects of arene domain presence in the coal structure under the sorption process
20
  • Evaluation of hydrogen particle volume on surfaces of selected nanocarbons
21
  • Kinematic and thermodynamic vew on localized and mobile adsorption – computational studies on molecule doublets properties
22
  • Kinematic and thermodynamic view on localized and mobile adsorption – computational study
23
  • Kinematic and thermodynamic view on localized and mobile adsorption – computational study on molecules doublets
24
  • Modeling of adsorption phenomena by employing multilayer clustering based adsorption model (uniBET) with various variants of geometrical and energetical heterogeneities
25
  • Oddziaływania adsorbatu z adsorbentem w identyfikacji mechanizmu adsorpcji - metody obliczeniowe