BibBase https://bibbase.org/f/HnQC7A6C8WxhqExKR/CHE_Atichat

2023 (4)

Increasing CO2 gasification rates of longan-seed char by a technique of char pre-oxidation. Lawtae, P.; Tangsathitkulchai, C.; Phothong, K.; and Wongkoblap, A. Bioresource Technology Reports, 23: 101525. 2023.
link bibtex

@article{lawtae2023increasing,
  title={Increasing CO2 gasification rates of longan-seed char by a technique of char pre-oxidation},
  author={Lawtae, Panuwat and Tangsathitkulchai, Chaiyot and Phothong, Krittamet and Wongkoblap, Atichat},
  journal={Bioresource Technology Reports},
  volume={23},
  pages={101525},
  year={2023},
  publisher={Elsevier}
}

Analysis of gas adsorption and pore development of microporous-mesoporous activated carbon based on GCMC simulation and a surface defect model. Lawtae, P.; Phothong, K.; Tangsathitkulchai, C.; and Wongkoblap, A. Journal of Porous Materials,1–17. 2023.
link bibtex

@article{lawtae2023analysis,
  title={Analysis of gas adsorption and pore development of microporous-mesoporous activated carbon based on GCMC simulation and a surface defect model},
  author={Lawtae, Panuwat and Phothong, Krittamet and Tangsathitkulchai, Chaiyot and Wongkoblap, Atichat},
  journal={Journal of Porous Materials},
  pages={1--17},
  year={2023},
  publisher={Springer}
}

The Enhancement of CO2 and CH4 Capture on Activated Carbon with Different Degrees of Burn-Off and Surface Chemistry. Inthawong, S.; Wongkoblap, A.; Intomya, W.; and Tangsathitkulchai, C. Molecules, 28(14): 5433. 2023.
link bibtex

@article{inthawong2023enhancement,
  title={The Enhancement of CO2 and CH4 Capture on Activated Carbon with Different Degrees of Burn-Off and Surface Chemistry},
  author={Inthawong, Supawan and Wongkoblap, Atichat and Intomya, Worapot and Tangsathitkulchai, Chaiyot},
  journal={Molecules},
  volume={28},
  number={14},
  pages={5433},
  year={2023},
  publisher={MDPI}
}

Nickel effects on carbon dioxide and methane adsorptions on porous glass: experimental and monte carlo simulation studies. Kohmuean, P.; Inthawong, S.; and Wongkoblap, A. Adsorption,1–15. 2023.
link bibtex

@article{kohmuean2023nickel,
  title={Nickel effects on carbon dioxide and methane adsorptions on porous glass: experimental and monte carlo simulation studies},
  author={Kohmuean, Pakamas and Inthawong, Supawan and Wongkoblap, Atichat},
  journal={Adsorption},
  pages={1--15},
  year={2023},
  publisher={Springer}
}

2021 (2)

Monte Carlo simulation and experimental studies of CO2, CH4 and their mixture capture in porous carbons. Kohmuean, P.; Inthomya, W.; Wongkoblap, A.; and Tangsathitkulchai, C. Molecules, 26(9): 2413. 2021.
link bibtex

@article{kohmuean2021monte,
  title={Monte Carlo simulation and experimental studies of CO2, CH4 and their mixture capture in porous carbons},
  author={Kohmuean, Pakamas and Inthomya, Worapoj and Wongkoblap, Atichat and Tangsathitkulchai, Chaiyot},
  journal={Molecules},
  volume={26},
  number={9},
  pages={2413},
  year={2021},
  publisher={MDPI}
}

Equilibrium and kinetics of CO2 adsorption by coconut shell activated carbon impregnated with sodium hydroxide. Tangsathitkulchai, C.; Naksusuk, S.; Wongkoblap, A.; Phadungbut, P.; and Borisut, P. Processes, 9(2): 201. 2021.
link bibtex

@article{tangsathitkulchai2021equilibrium,
  title={Equilibrium and kinetics of CO2 adsorption by coconut shell activated carbon impregnated with sodium hydroxide},
  author={Tangsathitkulchai, Chaiyot and Naksusuk, Suravit and Wongkoblap, Atichat and Phadungbut, Poomiwat and Borisut, Prapassorn},
  journal={Processes},
  volume={9},
  number={2},
  pages={201},
  year={2021},
  publisher={MDPI}
}

2020 (2)

Carbon Dioxide Capture in Homogeneous and Heterogeneous Surfaces of Porous Silica Glass. Boonfung, C.; Tangsathitkulchai, C.; and Wongkoblap, A. Processes, 8(10): 1260. 2020.
link bibtex

@article{boonfung2020carbon,
  title={Carbon Dioxide Capture in Homogeneous and Heterogeneous Surfaces of Porous Silica Glass},
  author={Boonfung, Chontira and Tangsathitkulchai, Chaiyot and Wongkoblap, Atichat},
  journal={Processes},
  volume={8},
  number={10},
  pages={1260},
  year={2020},
  publisher={MDPI}
}

Biogas production from cassava waste: effect of concentration. Kohmuean, P; Boonrod, N; and Wongkoblap, A In IOP conference series: materials science and engineering, volume 778, pages 012115, 2020. IOP Publishing
link bibtex

@inproceedings{kohmuean2020biogas,
  title={Biogas production from cassava waste: effect of concentration},
  author={Kohmuean, P and Boonrod, N and Wongkoblap, A},
  booktitle={IOP conference series: materials science and engineering},
  volume={778},
  number={1},
  pages={012115},
  year={2020},
  organization={IOP Publishing}
}

2019 (1)

Computer Simulation Study for Functional Group Effect on Methane Adsorption in Porous Silica Glass. Teerachawanwong, P.; Makkaroon, B.; Boonfung, C.; Tangsathitkulchai, C.; and Wongkoblap, A. Engineering Journal, 23(5): 197–204. 2019.
link bibtex

@article{teerachawanwong2019computer,
  title={Computer Simulation Study for Functional Group Effect on Methane Adsorption in Porous Silica Glass},
  author={Teerachawanwong, Pongpon and Makkaroon, Bharanabha and Boonfung, Chontira and Tangsathitkulchai, Chaiyot and Wongkoblap, Atichat},
  journal={Engineering Journal},
  volume={23},
  number={5},
  pages={197--204},
  year={2019}
}

2018 (2)

Study for Adsorption of Gas Mixture in Activated Carbon by Grand Canonical Monte Carlo Simulation. Phothong, K.; Janseedar, C.; Tangsathitkulchai, C.; and Wongkoblap, A. วารสาร วิชาการ พระจอมเกล้า พระนครเหนือ, 28(2): 333–340. 2018.
link bibtex

@article{phothong2018study,
  title={Study for Adsorption of Gas Mixture in Activated Carbon by Grand Canonical Monte Carlo Simulation},
  author={Phothong, Krittamet and Janseedar, Chatchai and Tangsathitkulchai, Chaiyot and Wongkoblap, Atichat},
  journal={วารสาร วิชาการ พระจอมเกล้า พระนครเหนือ},
  volume={28},
  number={2},
  pages={333--340},
  year={2018}
}

Effects of Functional Group and Surface Roughness on Adsorption of Carbon Dioxide in Porous Glass by Grand Canonical Monte Carlo Simulation Study. Boonfung, C.; Ketprasoet, N.; Tangsathitkulchai, C.; and Wongkoblap, A. วารสาร วิชาการ พระจอมเกล้า พระนครเหนือ, 28(1): 113–121. 2018.
link bibtex

@article{boonfung2018effects,
  title={Effects of Functional Group and Surface Roughness on Adsorption of Carbon Dioxide in Porous Glass by Grand Canonical Monte Carlo Simulation Study},
  author={Boonfung, Chontira and Ketprasoet, Niphat and Tangsathitkulchai, Chaiyot and Wongkoblap, Atichat},
  journal={วารสาร วิชาการ พระจอมเกล้า พระนครเหนือ},
  volume={28},
  number={1},
  pages={113--121},
  year={2018}
}

2016 (1)

Computer simulation study for methane and hydrogen adsorption on activated carbon based catalyst. Sriling, P; Wongkoblap, A; and Tangsathitkulchai, C Adsorption, 22: 707–715. 2016.
link bibtex

@article{sriling2016computer,
  title={Computer simulation study for methane and hydrogen adsorption on activated carbon based catalyst},
  author={Sriling, P and Wongkoblap, A and Tangsathitkulchai, C},
  journal={Adsorption},
  volume={22},
  pages={707--715},
  year={2016},
  publisher={Springer}
}

2013 (2)

Heavy metal removal from aqueous solution by using bentonite clay and activated carbon. Wongkoblap, A.; Ngernyen, Y.; Budsaereechai, S.; and Charoenbood, A. In Chemeca 2013: Challenging Tomorrow, pages 689–694. Engineers Australia Barton, ACT, 2013.
link bibtex

@incollection{wongkoblap2013heavy,
  title={Heavy metal removal from aqueous solution by using bentonite clay and activated carbon},
  author={Wongkoblap, Atichat and Ngernyen, Yuvarat and Budsaereechai, Supattra and Charoenbood, Atiwat},
  booktitle={Chemeca 2013: Challenging Tomorrow},
  pages={689--694},
  year={2013},
  publisher={Engineers Australia Barton, ACT}
}

Characterization of single wall carbon nanotubes and activated carbon with water adsorption in finite-length pore models. Wongkoblap, A.; Tangsathitkulchai, C.; Klomkliang, N.; Do, D. D; and Ngernyen, Y. Engineering Journal, 17(4): 93–110. 2013.
link bibtex

@article{wongkoblap2013characterization,
  title={Characterization of single wall carbon nanotubes and activated carbon with water adsorption in finite-length pore models},
  author={Wongkoblap, Atichat and Tangsathitkulchai, Chaiyot and Klomkliang, Nikom and Do, Duong D and Ngernyen, Yuvarat},
  journal={Engineering Journal},
  volume={17},
  number={4},
  pages={93--110},
  year={2013}
}

2012 (2)

Multilayer adsorption of benzene on graphitised thermal carbon black—The importance of quadrupole and explicit hydrogen in the potential model. Klomkliang, N.; Do, D.; Nicholson, D; Tangsathitkulchai, C; and Wongkoblap, A Chemical engineering science, 69(1): 472–482. 2012.
link bibtex

@article{klomkliang2012multilayer,
  title={Multilayer adsorption of benzene on graphitised thermal carbon black—The importance of quadrupole and explicit hydrogen in the potential model},
  author={Klomkliang, Nikom and Do, DD and Nicholson, D and Tangsathitkulchai, C and Wongkoblap, A},
  journal={Chemical engineering science},
  volume={69},
  number={1},
  pages={472--482},
  year={2012},
  publisher={Elsevier}
}

Simulation Study for Adsorption of Carbon Dioxide and Methane in Carbon-nanotubes. Phadungbut, P; Julklang, W; Sriling, P; Intomya, W; Wongkoblap, A; and Tangsathitkulchai, C Engineering Transactions: A Research Publication of Mahanakorn University of Technology, 15(2): 72–77. 2012.
link bibtex

@article{phadungbut2012simulation,
  title={Simulation Study for Adsorption of Carbon Dioxide and Methane in Carbon-nanotubes},
  author={Phadungbut, P and Julklang, W and Sriling, P and Intomya, W and Wongkoblap, A and Tangsathitkulchai, C},
  journal={Engineering Transactions: A Research Publication of Mahanakorn University of Technology},
  volume={15},
  number={2},
  pages={72--77},
  year={2012}
}

2011 (1)

A critical assessment of capillary condensation and evaporation equations: A computer simulation study. Wongkoblap, A; Do, D.; Birkett, G; and Nicholson, D Journal of colloid and interface science, 356(2): 672–680. 2011.
link bibtex

@article{wongkoblap2011critical,
  title={A critical assessment of capillary condensation and evaporation equations: A computer simulation study},
  author={Wongkoblap, A and Do, DD and Birkett, G and Nicholson, D},
  journal={Journal of colloid and interface science},
  volume={356},
  number={2},
  pages={672--680},
  year={2011},
  publisher={Elsevier}
}

2010 (2)

The role of accessibility in the characterization of porous solids and their adsorption properties. Do, D.; Herrera, L; Fan, C.; Wongkoblap, A; and Nicholson, D Adsorption, 16: 3–15. 2010.
link bibtex

@article{do2010role,
  title={The role of accessibility in the characterization of porous solids and their adsorption properties},
  author={Do, DD and Herrera, L and Fan, Chunyan and Wongkoblap, A and Nicholson, D},
  journal={Adsorption},
  volume={16},
  pages={3--15},
  year={2010},
  publisher={Springer}
}

Pore size distribution of carbon with different probe molecules. Wongkoblap, A.; Intomya, W.; Somrup, W.; Charoensuk, S.; Junpirom, S.; and Tangsathitkulchai, C. Engineering Journal, 14(3): 45–56. 2010.
link bibtex

@article{wongkoblap2010pore,
  title={Pore size distribution of carbon with different probe molecules},
  author={Wongkoblap, Atichat and Intomya, Worapot and Somrup, Warangkhana and Charoensuk, Sorod and Junpirom, Supunnee and Tangsathitkulchai, Chaiyot},
  journal={Engineering Journal},
  volume={14},
  number={3},
  pages={45--56},
  year={2010}
}

2009 (1)

Adsorption of polar and non-polar fluids in carbon nanotube bundles: Computer simulation and experimental studies. Wongkoblap, A; Do, D.; and Wang, K Journal of colloid and interface science, 331(1): 65–76. 2009.
link bibtex

@article{wongkoblap2009adsorption,
  title={Adsorption of polar and non-polar fluids in carbon nanotube bundles: Computer simulation and experimental studies},
  author={Wongkoblap, A and Do, DD and Wang, K},
  journal={Journal of colloid and interface science},
  volume={331},
  number={1},
  pages={65--76},
  year={2009},
  publisher={Elsevier}
}

2008 (7)

Adsorption of polar and nonpolar fluids in finite-length carbon slit pore: a Monte Carlo simulation study. Wongkoblap, A.; and Do, D. D Chemical Engineering Communications, 195(11): 1382–1395. 2008.
link bibtex

@article{wongkoblap2008adsorption,
  title={Adsorption of polar and nonpolar fluids in finite-length carbon slit pore: a Monte Carlo simulation study},
  author={Wongkoblap, Atichat and Do, Duong D},
  journal={Chemical Engineering Communications},
  volume={195},
  number={11},
  pages={1382--1395},
  year={2008},
  publisher={Taylor \& Francis}
}

The effects of curvature and surface heterogeneity on the adsorption of water in finite length carbon nanopores: a computer simulation study. Wongkoblap, A; and Do, D. Molecular Physics, 106(5): 627–641. 2008.
link bibtex

@article{wongkoblap2008effects,
  title={The effects of curvature and surface heterogeneity on the adsorption of water in finite length carbon nanopores: a computer simulation study},
  author={Wongkoblap, A and Do, DD},
  journal={Molecular Physics},
  volume={106},
  number={5},
  pages={627--641},
  year={2008},
  publisher={Taylor \& Francis}
}

WATER IN CARBON NANOTUBES'. WONGKOBLAP, A.; and DO, D. D In Nanoporous Materials: Proceedings of the 5th International Symposium, Vancouver, Canada, 25-28 May 2008, pages 407, 2008. World Scientific
link bibtex

@inproceedings{wongkoblap2008water,
  title={WATER IN CARBON NANOTUBES'},
  author={WONGKOBLAP, ATICHAT and DO, DUONG D},
  booktitle={Nanoporous Materials: Proceedings of the 5th International Symposium, Vancouver, Canada, 25-28 May 2008},
  pages={407},
  year={2008},
  organization={World Scientific}
}

Henry constant and isosteric heat at zero-loading for gas adsorption in carbon nanotubes. Do, D.; Do, H.; Wongkoblap, A; and Nicholson, D Physical Chemistry Chemical Physics, 10(48): 7293–7303. 2008.
link bibtex

@article{do2008henry,
  title={Henry constant and isosteric heat at zero-loading for gas adsorption in carbon nanotubes},
  author={Do, DD and Do, HD and Wongkoblap, A and Nicholson, D},
  journal={Physical Chemistry Chemical Physics},
  volume={10},
  number={48},
  pages={7293--7303},
  year={2008},
  publisher={Royal Society of Chemistry}
}

Explanation of the unusual peak of calorimetric heat in the adsorption of nitrogen, argon and methane on graphitized thermal carbon black. Wongkoblap, A.; Do, D. D; and Nicholson, D. Physical Chemistry Chemical Physics, 10(8): 1106–1113. 2008.
link bibtex

@article{wongkoblap2008explanation,
  title={Explanation of the unusual peak of calorimetric heat in the adsorption of nitrogen, argon and methane on graphitized thermal carbon black},
  author={Wongkoblap, Atichat and Do, Duong D and Nicholson, David},
  journal={Physical Chemistry Chemical Physics},
  volume={10},
  number={8},
  pages={1106--1113},
  year={2008},
  publisher={Royal Society of Chemistry}
}

Adsorption of Fluids in Finite Sized Carbon Pores with Functional Groups. Wongkoblap, A. . 2008.
link bibtex

@article{wongkoblap2008adsorption,
  title={Adsorption of Fluids in Finite Sized Carbon Pores with Functional Groups},
  author={Wongkoblap, Atichat},
  year={2008}
}

COMPUTER SIMULATION STUDY IN ADSORPTION OF WATER IN CARBON NANOTUBES. WONGKOBLAP, A.; and DO, D. D In Nanoporous Materials, pages 407–422. World Scientific, 2008.
link bibtex

@incollection{wongkoblap2008computer,
  title={COMPUTER SIMULATION STUDY IN ADSORPTION OF WATER IN CARBON NANOTUBES},
  author={WONGKOBLAP, ATICHAT and DO, DUONG D},
  booktitle={Nanoporous Materials},
  pages={407--422},
  year={2008},
  publisher={World Scientific}
}

2007 (2)

Characterization of Cabot non-graphitized carbon blacks with a defective surface model: Adsorption of argon and nitrogen. Wongkoblap, A; and Do, D. Carbon, 45(7): 1527–1534. 2007.
link bibtex

@article{wongkoblap2007characterization,
  title={Characterization of Cabot non-graphitized carbon blacks with a defective surface model: Adsorption of argon and nitrogen},
  author={Wongkoblap, A and Do, DD},
  journal={Carbon},
  volume={45},
  number={7},
  pages={1527--1534},
  year={2007},
  publisher={Elsevier}
}

Adsorption of water in finite length carbon slit pore: comparison between computer simulation and experiment. Wongkoblap, A.; and Do, D. D The Journal of Physical Chemistry B, 111(50): 13949–13956. 2007.
link bibtex

@article{wongkoblap2007adsorption,
  title={Adsorption of water in finite length carbon slit pore: comparison between computer simulation and experiment},
  author={Wongkoblap, Atichat and Do, Duong D},
  journal={The Journal of Physical Chemistry B},
  volume={111},
  number={50},
  pages={13949--13956},
  year={2007},
  publisher={ACS Publications}
}

2006 (4)

Graphical Contents. Wongkoblap, A; Do, D.; Cestari, A. R; Vieira, E. F.; Silva, E. S; Chiem, L. T; Le Huynh, J. R.; and Beattie, D. A Journal of Colloid and Interface Science, 297: 22. 2006.
link bibtex

@article{wongkoblap2006graphical,
  title={Graphical Contents},
  author={Wongkoblap, A and Do, DD and Cestari, Antonio R and Vieira, Eunice FS and Silva, Esdras S and Chiem, Linh T and Le Huynh, John Ralston and Beattie, David A},
  journal={Journal of Colloid and Interface Science},
  volume={297},
  pages={22},
  year={2006}
}

The effects of energy sites on adsorption of Lennard–Jones fluids and phase transition in carbon slit pore of finite length a computer simulation study. Wongkoblap, A; and Do, D. Journal of colloid and interface science, 297(1): 1–9. 2006.
link bibtex

@article{wongkoblap2006effects,
  title={The effects of energy sites on adsorption of Lennard--Jones fluids and phase transition in carbon slit pore of finite length a computer simulation study},
  author={Wongkoblap, A and Do, DD},
  journal={Journal of colloid and interface science},
  volume={297},
  number={1},
  pages={1--9},
  year={2006},
  publisher={Elsevier}
}

Effects of graphene layer size on the adsorption of fluids on graphitized thermal carbon black. A Computer simulation study. Luangkiattikhun, P; Wongkoblap, A; and Do, D. Adsorption Science & Technology, 24(3): 193–204. 2006.
link bibtex

@article{luangkiattikhun2006effects,
  title={Effects of graphene layer size on the adsorption of fluids on graphitized thermal carbon black. A Computer simulation study},
  author={Luangkiattikhun, P and Wongkoblap, A and Do, DD},
  journal={Adsorption Science \& Technology},
  volume={24},
  number={3},
  pages={193--204},
  year={2006},
  publisher={SAGE Publications Sage UK: London, England}
}

Effect of pore constriction on adsorption behaviour in nanoporous carbon slit pore: a computer simulation. Wongkoblap, A; and Do, D. Molecular Simulation, 32(7): 539–549. 2006.
link bibtex

@article{wongkoblap2006effect,
  title={Effect of pore constriction on adsorption behaviour in nanoporous carbon slit pore: a computer simulation},
  author={Wongkoblap, A and Do, DD},
  journal={Molecular Simulation},
  volume={32},
  number={7},
  pages={539--549},
  year={2006},
  publisher={Taylor \& Francis}
}

2005 (1)

Adsorption of Lennard-Jones fluids in carbon slit pores of a finite length. A computer simulation study. Wongkoblap, A; Junpirom, S; and Do, D. Adsorption Science & Technology, 23(1): 1–18. 2005.
link bibtex

@article{wongkoblap2005adsorption,
  title={Adsorption of Lennard-Jones fluids in carbon slit pores of a finite length. A computer simulation study},
  author={Wongkoblap, A and Junpirom, S and Do, DD},
  journal={Adsorption Science \& Technology},
  volume={23},
  number={1},
  pages={1--18},
  year={2005},
  publisher={SAGE Publications Sage UK: London, England}
}

undefined (2)

Invited Contribution Adsorption of Lennard-Jones Fluids in Carbon Slit Pores of a Finite Length. A Computer Simulation Study. Wongkoblap, A; Junpirom, S; and Do, D. . .
link bibtex

@article{wongkoblapinvited,
  title={Invited Contribution Adsorption of Lennard-Jones Fluids in Carbon Slit Pores of a Finite Length. A Computer Simulation Study},
  author={Wongkoblap, A and Junpirom, S and Do, DD}
}

A Computer Simulation Study for the Gas Hydrate Nucleation in the Bulk and the Confined Space of Pores. Wongkoblap, A.; and Do, D. . .
link bibtex

@article{wongkoblapcomputer,
  title={A Computer Simulation Study for the Gas Hydrate Nucleation in the Bulk and the Confined Space of Pores},
  author={Wongkoblap, Atichat and Do, DD}
}