# | Document title | Authors | Year | Source | Cited by |
1 | TAP-2: An interrogative kinetics approach | Gleaves J., Yablonskii G., Phanawadee P., Schuurman Y. | 1997 | Applied Catalysis A: General 160(1),pp. 55-88 | 307 |
2 | Uniformity in a thin-zone multi-pulse TAP experiment: Numerical analysis | Phanawadee P., Shekhtman S., Jarungmanorom C., Yablonsky G., Gleaves J. | 2003 | Chemical Engineering Science 58(11),pp. 2215-2227 | 33 |
3 | General expression for primary characterization of catalyst activity using TAP pulse response experiment | Yablonsky G., Shekhtman S., Phanawadee P., Gleaves J. | 2001 | Catalysis Today 64(3-4),pp. 227-231 | 18 |
4 | Symmetrical Cylindrical Model for TAP Pulse Response Experiments and Validity of the One-Dimensional TAP Model | Yablonskii G., Katz I., Phanawadee P., Gleavess J. | 1997 | Industrial and Engineering Chemistry Research 36(8),pp. 3149-3153 | 11 |
5 | Mathematical analysis of TAP models for porous catalysts | Phanawadee P., Phongaksorn M., Chaimongkol N., Jaree A., Limtrakul J. | 2005 | Chemical Engineering Journal 115(1-2),pp. 51-62 | 10 |
6 | Production and characterization of a novel hierarchical porous silica adsorbent for removal of methylene blue dye from wastewaters | Jantawatchai K., Jitpluem S., Kerdlap W., Phanawadee P., Warakulwit C., Chisti Y., Hansupalak N. | 2017 | Chemical Engineering Communications 204(12),pp. 1452-1465 | 8 |
7 | A new correlation for determination of the effective knudsen diffusivity of a gas in a TAP reactor | Phanawadee P., Yablonsky G., Preechasanongkit P., Somapa K. | 1999 | Industrial and Engineering Chemistry Research 38(7),pp. 2877-2878 | 8 |
8 | "State-defining" TAP pulse response experiments | Gleaves J.T., Yablonskii G.S., Phanawadee P., Schuurman Y. | 1997 | Studies in Surface Science and Catalysis 109,pp. 333-340 | 6 |
9 | When the final catalyst activity profile depends only on the total amount of admitted substance: Theoretical proof | Constales D., Yablonsky G.S., Phanawadee P., Pongboutr N., Limtrakul J., Limtrakul J., Marin G.B. | 2015 | AIChE Journal 61(1),pp. 31-34 | 5 |
10 | Independence of active substance profiles from the pulse response experimental procedure | Phanawadee P., Pongboutr N., Yablonsky G.S., Constales D., Jarungmanorom C., Soikham W., Limtrakul J. | 2013 | AIChE Journal 59(10),pp. 3574-3577 | 4 |
11 | Uniformity of change in porous catalyst activity during a multi-pulse TAP experiment | Wongnuch Y., Phanawadee P., Hongsri K., Limtrakul J. | 2008 | Chemical Engineering Communications 195(11),pp. 1305-1314 | 3 |
12 | Characteristics of surface concentration distribution due to irreversible adsorption in a one-pulse TAP experiment | Phanawadee P., Boonwatcharapunsakun W. | 2010 | Chemical Engineering Science 65(7),pp. 2425-2429 | 3 |
13 | Comparison between regression analysis and moment analysis for transport and kinetic parameter estimation in TAP experiments under a non-ideal inlet condition | Tantake P., Phanawadee P., Boonnumpha Y., Limtrakul J. | 2007 | Catalysis Today 121(3-4),pp. 261-268 | 2 |
14 | Interrogative kinetic characterization of active catalyst sites using TAP pulse response experiment | Gleaves J.T., Yablonsky G.S., Shekhtman S.O., Phanawadee P. | 2000 | Studies in Surface Science and Catalysis 130 A,pp. 335-340 | 2 |
15 | Patterns of intraparticle distribution of surface concentration due to irreversible adsorption in TAP multi-pulse experiments | Phanawadee P., Pongboutr N., Soikham W., Yooyao T., Limtrakul J. | 2011 | Chemical Engineering Journal 178,pp. 366-374 | 1 |
16 | Estimation of the remaining lifetime of deactivated catalyst via the spatial average catalyst activity illustrated by the water–gas shift and steam methane reforming processes | Phanawadee P., Laipraseard K., Yablonsky G.S., Yablonsky G.S., Constales D., Jamroonrote W., Jaipet P. | 2017 | Reaction Kinetics, Mechanisms and Catalysis 121(2),pp. 371-385 | 1 |
17 | A new analytical expression of the gas conversion for TAP experiments with bimodal-pore-structure catalyst | Boonwatcharapunsakul W., Phanawadee P. | 2008 | Chiang Mai Journal of Science 35(1),pp. 150-155 | 0 |