SPRINGER
INSTITUTE OF CHEMISTRY
SLOVAK ACADEMY OF SCIENCES
Home
Editorial Board
Information for Contributors
Table of Contents
Contacts
ISSN print edition: 0366-6352
ISSN electronic edition: 1336-9075
Registr. No.: MK SR 9/7
Published monthly
Author:
Bobok
Modelling of Gas Phase Adsorption on Activated Carbon. I. Experiment and Equilibrium Model
391
–
396
E. Besedova
,
D. Bobok
,
S. Bafrncova
, and
P. Steltenpohl
Vol.
58
,
6
Mechanism of Ethanol Vapours Diffusion in Particles of Activated Carbons
55
–
63
D. Bobok
and
E. Besedová
Vol.
58
,
1
Adsorption of Ethanol on Activated Carbon
27
–
34
E. Besedová
and
D. Bobok
Vol.
57
,
1
Diusion of Ethanol Vapours in Activated Carbon Particles
39
–
44
D. Bobok
and
E. Besedová
Vol.
57
,
1
Error in the Estimation of Effective Diffusion Coefficients from Sorption Measurements
482
–
488
D. Bobok
and
E. Besedová
Vol.
54
,
6b
Diffusion Coefficients of n-Hexane in Particles of Molecular Sieve NaY Determined by means of Chromatographic Measurements
363
–
367
D. Bobok
and
M. Ondrejková
Vol.
46
,
6
Diffusion-coefficients of normal-heptane in a particle of molecular-sieve nay
345
–
361
D. Bobok
,
M. Ondrejková
, and
E. Kossaczký
Vol.
43
,
3
Some problems of simulation of nonisothermal adsorption
3
–
18
E. Kossaczký
,
T. Kapusta
, and
D. Bobok
Vol.
40
,
1
Adsorption equilibriums on activated carbon of phenol, p-cresol, and p-nitroaniline in aqueous solutions
289
–
296
V. Báleš
,
D. Bobok
, and
E. Kossaczký
Vol.
37
,
3
Calculation of nonlinearly placed parameters by the method of planned experiment
433
–
445
D. Bobok
,
I. Havalda
,
E. Kossaczký
, and
M. Ondrejková
Vol.
36
,
4
Sorption of carbon dioxide in a fixed bed of the molecular sieve Calsit 5. I. Verification of the model of equilibrium adiabatic sorption with the modified Langmuir equation
589
–
601
D. Bobok
,
E. Kossaczký
, and
V. Báleš
Vol.
34
,
5
Adiabatic equilibrium desorption of carbon dioxide from a molecular sieve fixed bed by a stream of inert gas
439
–
447
E. Kossaczký
,
D. Bobok
, and
V. Báleš
Vol.
33
,
4
Adiabatic adsorption of carbon dioxide in fixed bed of the molecular sieve Calsit 5
357
–
364
D. Bobok
,
E. Kossaczký
, and
V. Báleš
Vol.
33
,
3
Viscosity of the slag systems iron-oxygen-silica-X (X = calcium oxide or magnesium oxide)
798
–
809
L. Bodnár
,
Š. Cempa
,
K. Tomášek
, and
Ľ. Bobok
Vol.
32
,
6
Description of equilibrium data of the adsorption of n-heptane on molecular sieve 5 A by an actual form of the Freundlich isotherm
303
–
311
D. Bobok
,
E. Kossaczký
, and
M. Šefčíková
Vol.
29
,
3
Entropy of adsorption of n-pentane on molecular sieve Calsit 5
191
–
198
M. Šefčíková
,
E. Kossaczký
, and
D. Bobok
Vol.
29
,
2
Diffusion of n-pentane vapor in a crystal of molecular sieve 5 A
166
–
172
E. Kossaczký
and
D. Bobok
Vol.
28
,
2
Sorption of n-Alkanes on the Molecular Sieves. II. A Mathematical Model for Desorption
252
–
256
J. Ilavský
,
E. Kossaczký
, and
D. Bobok
Vol.
24
,
4
Sorption of n-Alkanes on the Molecular Sieves. I. Description of the Equipment
134
–
138
D. Bobok
,
E. Kossaczký
, and
J. Ilavský
Vol.
24
,
2
Adsorption Equilibria of «-Heptane on the Molecular Sieve Calsit 5
3
–
12
D. Bobok
,
E. Kossaczký
, and
J. Ilavský
Vol.
24
,
1
Saturday, December 07, 2024
IMPACT FACTOR 2023
2.1
SCImago Journal Rank 2023
0.381
SEARCH
Advanced
VOLUMES
» Online First Articles
⇓ Volumes 71 – 78
»
Volume 78
»
Volume 77
»
Volume 76
»
Volume 75
»
Volume 74
»
Volume 73
»
Volume 72
»
Volume 71
⇓ Volumes 61 – 70
»
Volume 70
»
Volume 69
»
Volume 68
»
Volume 67
»
Volume 66
»
Volume 65
»
Volume 64
»
Volume 63
»
Volume 62
»
Volume 61
⇓ Volumes 51 – 60
»
Volume 60
»
Volume 59
»
Volume 58
»
Volume 57
»
Volume 56
»
Volume 55
»
Volume 54
»
Volume 53
»
Volume 52
»
Volume 51
⇓ Volumes 41 – 50
»
Volume 50
»
Volume 49
»
Volume 48
»
Volume 47
»
Volume 46
»
Volume 45
»
Volume 44
»
Volume 43
»
Volume 42
»
Volume 41
⇓ Volumes 31 – 40
»
Volume 40
»
Volume 39
»
Volume 38
»
Volume 37
»
Volume 36
»
Volume 35
»
Volume 34
»
Volume 33
»
Volume 32
»
Volume 31
⇓ Volumes 21 – 30
»
Volume 30
»
Volume 29
»
Volume 28
»
Volume 27
»
Volume 26
»
Volume 25
»
Volume 24
»
Volume 23
»
Volume 22
»
Volume 21
⇓ Volumes 11 – 20
»
Volume 20
»
Volume 19
»
Volume 18
»
Volume 17
»
Volume 16
»
Volume 15
»
Volume 14
»
Volume 13
»
Volume 12
»
Volume 11
⇓ Volumes 1 – 10
»
Volume 10
»
Volume 9
»
Volume 8
»
Volume 7
»
Volume 6
»
Volume 5
»
Volume 4
»
Volume 3
»
Volume 2
»
Volume 1
»
Most Cited Articles
»
Impact Factor
»
SCImago Journal Rank
© 2024 Chemical Papers