Application of Aspen Adsorption on the modelling of gas adsorption

Abstract Aspen Adsorption is a kind of modelling software, which is usually used in the modelling of gas separation. With this model, the operation condition and design condition can be optimized, and material performance can be evaluated according to the modelling results. In this paper, the application of Aspen Adsorption and the model parameters and equations were introduced. The calculation of breakthrough curves with Aspen Adsorption and its applications were summarized. The modelling of PSA (Pressure Swing Adsorption) and TSA (Temperature Swing Adsorption) with Cycle Organizer in Aspen Adsorption were also summarized. Moreover, the combination of Aspen Adsorption and other software used in some cases were also introduced. Finally, a prospect for the future of Aspen Adsorption was put forward.

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	ZHANG Yan
	LI Hongjun
	DONG Zhiming
	YANG Li
	CHENG Jingcai
	YANG Chao

Keywords： adsorption Aspen Adsorption modelling application

Received 2023-07-28;

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ZHANG Yan, LI Hongjun, DONG Zhiming, YANG Li, CHENG Jingcai, YANG Chao.Application of Aspen Adsorption on the modelling of gas adsorption[J] Chemcial Industry and Engineering, 2024,V41(2): 86-93

[1] ROUQUEROL F. 粉体与多孔固体材料的吸附: 原理、方法及应用[M]. 陈建,周力,王奋英,等译,北京: 化学工业出版社, 2020
[2] 高瑞. 变压吸附提纯甲烷的工艺模拟与优化[D]. 北京: 北京化工大学, 2021 GAO Rui. Process simulation and optimization of methane purification by pressure swing adsorption[D]. Beijing: Beijing University of Chemical Technology, 2021(in Chinese)
[3] ANISUZZAMAN S M, BONO A, KRISHNAIAH D, et al. A study on dynamic simulation of phenol adsorption in activated carbon packed bed column[J]. Journal of King Saud University-Engineering Sciences, 2016, 28(1): 47-55
[4] QUARANTA I C C, PINHEIRO L S, GONÇALVES D V, et al. Multiscale design of a pressure swing adsorption process for natural gas purification[J]. Adsorption, 2021, 27(7): 1055-1066
[5] 黄星, 曹文胜. 针对浮式天然气净化的分层变压吸附法应用分析[J]. 计算机与应用化学, 2015, 32(8):982-986 HUANG Xing, CAO Wensheng. Application analysis of layered pressure swing adsorption for natural gas purification on floating LNG project[J]. Computers and Applied Chemistry, 2015, 32(8): 982-986(in Chinese)
[6] GUTIERREZ-ORTEGA A, MONTES-MORÁN M A, PARRA J B, et al. Comparative study of binderless zeolites and carbon molecular sieves as adsorbents for CO₂ capture processes[J]. Journal of CO₂ Utilization, 2022, 61: 102012
[7] XIA H, HU Y, BAO Q, et al. Adsorption separation of O₂/N₂ by Li-RHO zeolite with high oxygen selectivity[J]. Microporous and Mesoporous Materials, 2023, 350: 112442
[8] DURÁN I, RUBIERA F, PEVIDA C. Modeling a biogas upgrading PSA unit with a sustainable activated carbon derived from pine sawdust. Sensitivity analysis on the adsorption of CO₂ and CH₄ mixtures[J]. Chemical Engineering Journal, 2022, 428: 132564
[9] ROKANUZZAMAN M, VEAWAB A, AROONWILAS A. Design method for layered-bed adsorption column for separation of CO₂ and N₂ from natural gas[J]. Energy Procedia, 2017, 114: 2441-2449
[10] YE F, MA S, TONG L, et al. Artificial neural network based optimization for hydrogen purification performance of pressure swing adsorption[J]. International Journal of Hydrogen Energy, 2019, 44(11): 5334-5344
[11] XIAO J, LI C, FANG L, et al. Machine learning-based optimization for hydrogen purification performance of layered bed pressure swing adsorption[J]. International Journal of Energy Research, 2020, 44(6): 4475-4492
[12] 陈艳华. 潮湿环境中用于CO₂捕获的COF材料高通量筛选及变压吸附工艺模拟[D]. 北京: 北京化工大学, 2021 CHEN Yanhua. High-throughput screening of COF materials for CO₂ capture in humid environment and simulation of pressure swing adsorption process[D]. Beijing: Beijing University of Chemical Technology, 2021(in Chinese)
[13] GUTIÉRREZ ORTIZ F J, AGUILERA P G, OLLERO P. Modeling and simulation of the adsorption of biogas hydrogen sulfide on treated sewage-sludge[J]. Chemical Engineering Journal, 2014, 253: 305-315
[14] 张正旺. N₂/CH₄/CO₂混合气真空变压吸附分离实验与过程模拟[D]. 天津: 天津大学, 2014 ZHANG Zhengwang. Experiment and process simulation of vacuum pressure swing adsorption separation of N₂/CH₄/CO₂ mixed gas[D]. Tianjin: Tianjin University, 2014(in Chinese)
[15] 刘本旭, 宋宝东. 用Aspen Adsorption模拟氯化氢脱水[J]. 化学工业与工程, 2012, 29(2):58-62 LIU Benxu, SONG Baodong. Simulation of hydrogen chloride dehydration by aspen adsorption[J]. Chemical Industry and Engineering, 2012, 29(2): 58-62(in Chinese)
[16] SABRI N H, RANI N H A, MOHAMAD N F, et al. Simulation of CO₂ capture for amine impregnated activated carbon-palm kernel shell (AC-PKS) adsorbent in pressure swing adsorption (PSA) using Aspen Adsorption[J]. Materials Today: Proceedings, 2023, doi: 10.1016/j.matpr.2022.12.206
[17] CHEN M, SONG J, LI P, et al. A dynamic simulation of cryogenic hydrogen isotope adsorption in molecular sieve beds[J]. Fusion Engineering and Design, 2019, 138: 159-163
[18] PUNPEE S, PHALAKORNKULE C. Aspen adsorption simulation for the effects of purge flow rate and vacuum pressure in vacuum pressure swing adsorption[J]. Materials Today: Proceedings, 2022, 52: 2517-2522
[19] ALI-ABD A, ROSLEE-OTHMAN M, HELWANI Z. Mass transfer approaches for CO₂ separation in non-isothermal and non-adiabatic pressure swing adsorption system for biomethane upgrading[J]. Fuel, 2023, 331: 125642
[20] 李源. 基于Aspen Adsorption的VOC吸附脱除工艺模拟: 印刷厂含乙酸乙酯废气回收处理技术研究[D]. 太原: 太原理工大学, 2019 LI Yuan. Simulation of VOC adsorption and removal process based on Aspen Adsorption— Research on recovery and treatment technology of waste gas containing ethyl acetate in printing plant[D]. Taiyuan: Taiyuan University of Technology, 2019(in Chinese)
[21] ZHANG X, SHANG H, YANG J, et al. Nitrogen rejection from low quality natural gas by pressure swing adsorption experiments and simulation using dynamic adsorption isotherms[J]. Chinese Journal of Chemical Engineering, 2022, 42: 120-129
[22] 石文荣, 田彩霞, 丁兆阳, 等. 变压吸附技术的模拟、优化与控制研究进展[J]. 高校化学工程学报, 2018, 32(1):8-15 SHI Wenrong, TIAN Caixia, DING Zhaoyang, et al. Review on simulation, optimization and control of pressure swing adsorption[J]. Journal of Chemical Engineering of Chinese Universities, 2018, 32(1): 8-15(in Chinese)
[23] 李常艳, 刘鹰, 张晓红. 基于Aspen Adsorption模拟软件解析二塔六步变压吸附工艺[J]. 当代化工研究, 2021(3): 114-116 LI Changyan, LIU Ying, ZHANG Xiaohong. Analysis of two towers and six steps pressure swing adsorption process via Aspen Adsorption software[J]. Modern Chemical Research, 2021(3): 114-116(in Chinese)
[24] MARCINEK A, MÖLLER A, GUDERIAN J, et al. Dynamic simulation of high-purity twin-bed N₂-PSA plants[J].Adsorption, 2021, 27(8): 1149-1173
[25] ZHANG N, XIAO J, BÉNARD P, et al. Single- and double-bed pressure swing adsorption processes for H₂/CO syngas separation[J]. International Journal of Hydrogen Energy, 2019, 44(48): 26405-26418
[26] GARCÍA L, POVEDA Y A, RODRÍGUEZ G, et al. Adsorption separation of oxidative coupling of methane effluent gases. Mini-plant scale experiments and modeling[J]. Journal of Natural Gas Science and Engineering, 2019, 61: 106-118
[27] 杨华伟, 张正旺, 张东辉. 真空变压吸附分离氮气甲烷模拟与实验研究[J]. 化学工业与工程, 2013, 30(5):55-60 YANG Huawei, ZHANG Zhengwang, ZHANG Donghui. Modeling and experiment of vacuum pressure swing adsorption process for N₂ and CH₄ separation[J]. Chemical Industry and Engineering, 2013, 30(5): 55-60(in Chinese)
[28] CHICANO J, DION C T, PASAOGULLARI U, et al. Simulation of 12-bed vacuum pressure-swing adsorption for hydrogen separation from methanol-steam reforming off-gas[J]. International Journal of Hydrogen Energy, 2021, 46(56): 28626-28640
[29] DURÁN I, RUBIERA F, PEVIDA C. Vacuum swing CO₂ adsorption cycles in waste-to-energy plants[J]. Chemical Engineering Journal, 2020, 382: 122841
[30] 陈远志. 真空变压吸附分离生物质二元醇混合物的研究[D]. 天津: 天津大学, 2020 CHEN Yuanzhi. Study on separation of biomass glycol mixture by vacuum pressure swing adsorption[D]. Tianjin: Tianjin University, 2020(in Chinese)
[31] DEHDARI L, XIAO P, GANG LI K, et al. Separation of hydrogen from methane by vacuum swing adsorption[J]. Chemical Engineering Journal, 2022, 450: 137911
[32] NTIAMOAH A, LING J, XIAO P, et al. CO₂ capture by vacuum swing adsorption: Role of multiple pressure equalization steps[J]. Adsorption, 2015, 21(6): 509-522
[33] GAO F, WANG S, WANG W, et al. Adsorption separation of CO from syngas with CuCl@AC adsorbent by a VPSA process[J]. RSC Advances, 2018, 8(69): 39362-39370
[34] 田彩霞. 制氧吸附剂的合成与双回流变压吸附空气分离模拟实验研究[D]. 天津: 天津大学, 2018 TIAN Caixia. Study on synthesis of oxygen-making adsorbent and simulation experiment of air separation by double reflux pressure swing adsorption[D]. Tianjin: Tianjin University, 2018(in Chinese)
[35] WEH R, XIAO G, ISLAM M A, et al. Nitrogen rejection from natural gas by dual reflux-pressure swing adsorption using activated carbon and ionic liquidic zeolite[J]. Separation and Purification Technology, 2020, 235: 116215
[36] ZOU Y, XIAO G, LI G, et al. Advanced non-isothermal dynamic simulations of dual reflux pressure swing adsorption cycles[J]. Chemical Engineering Research and Design, 2017, 126: 76-88
[37] 李亚冬, 江南, 沈圆辉, 等. 变温吸附净化VOCs的数值模拟及分析[J]. 天然气化工(C1化学与化工), 2021, 46(S1):101-107 LI Yadong, JIANG Nan, SHEN Yuanhui, et al. Numerical simulation and analysis of thermal swing adsorption for VOCs purification[J]. Natural Gas Chemical Industry, 2021, 46(S1): 101-107(in Chinese)
[38] TLILI N, GRÉVILLOT G, VALLIōRES C. Carbon dioxide capture and recovery by means of TSA and/or VSA[J]. International Journal of Greenhouse Gas Control, 2009, 3(5): 519-527
[39] PLAZA M G, GARCÍA S, RUBIERA F, et al. Post-combustion CO₂ capture with a commercial activated carbon: Comparison of different regeneration strategies[J]. Chemical Engineering Journal, 2010, 163(1/2): 41-47
[40] PLAZA M G, DURÁN I, RUBIERA F, et al. Adsorption-based process modelling for post-combustion CO₂ capture[J]. Energy Procedia, 2017, 114: 2353-2361
[41] BONALUMI D, LILLIA S, MANZOLINI G, et al. Innovative process cycle with zeolite (MS13X) for post combustion adsorption[J]. Energy Procedia, 2017, 114: 2211-2218
[42] ALI A A, JIHAD K S H, HELWANI Z, et al. Novel design of pressure swing adsorption using compact plates for adsorption heat recuperation of CO₂ capture in biomethane upgrading process[J]. Energy Conversion and Management, 2022, 268: 115999
[43] ALI A A, ROSLEE O M, HELWANI Z. Evaluation of thermal effects on carbon dioxide breakthrough curve for biogas upgrading using pressure swing adsorption[J]. Energy Conversion and Management, 2021, 247: 114752
[44] VILARDI G, BASSANO C, DEIANA P, et al. Exergy and energy analysis of biogas upgrading by pressure swing adsorption: Dynamic analysis of the process[J]. Energy Conversion and Management, 2020, 226: 113482