Simulation and control on ammonia carbonation under low temperature and pressure

doi:10.3969/j.issn.0438-1157.2013.10.019

Abstract

Abstract: Ammonia carbonation product control is the key of calcium sulfate conversion at low temperature for utilization of sulfur resources.Aspen plus software was used to simulate ammonia carbonation process.The results indicate that carbonate converts gradually into bicarbonate with increasing temperature from 273.15 K to 338.15 K. The conversion from bicarbonate to carbonate occurs at 0.01—0.13 MPa,but ammonia carbonation has no affect when pressure is above 0.13 MPa. If ammonia mole fraction is less than 0.04,bicarbonate mole fraction in products will be close to 1. When ammonia mole fraction is 0.1—0.15 or ratio of reaction ammonia to carbon oxide 2.2—2.8,carbonate is the major product of carbonation.If ammonia mole fraction is above 0.15,effect of ammonia concentration on ammonia carbonization is little.When ratio of reaction ammonia to carbon oxide is higher than 2.8,There will be more than 90% of ammonium bicarbonate in solution.On the basis above,control conditions of temperature-ammonia concentration,temperature-ratio of reactive ammonia to carbon dioxide were pointed out for preparing high contents of ammonium bicarbonate or ammonium carbonate.

Key words: carbon dioxide, process control, computer simulation, ammonium carbonate, ammonium bicarbonate, ammonia carbonation

摘要： 氨碳化产物控制是固废硫酸钙低温转化实现硫资源综合利用的关键。采用Aspen plus软件对氨碳化过程进行模拟与分析发现,温度在273.15～338.15 K范围内,温度升高,碳酸根向碳酸氢根转化;0.01～0.13 MPa压力范围内,压力增大,碳酸氢根向碳酸根转化,压力高于0.13 MPa,压力对氨碳化过程无影响;氨摩尔分数小于0.04时,碳酸氢根含量接近1;氨摩尔分数为0.1～0.15,溶液中阴离子主要为碳酸根;氨摩尔分数大于0.15,氨浓度增大对溶液体系碳酸根和碳酸氢根组分无影响;氨碳比为2.2～2.8,溶液中阴离子主要为碳酸根;氨碳比大于2.8,溶液中90%(mol)以上为碳酸氢铵。在此基础上,分别给出了温度-氨浓度、温度-氨碳比条件控制下生产高含量碳酸氢铵和碳酸铵的工艺条件。

关键词: 二氧化碳, 过程控制, 计算机模拟, 碳酸铵, 碳酸氢铵, 碳化度

CLC Number:

TQ015.9

ZHAO Jingcai, SONG Xingfu, SUN Ze, SUN Shuying, YU Jianguo. Simulation and control on ammonia carbonation under low temperature and pressure[J]. CIESC Journal, 2013, 64(10): 3626-3632.

赵精彩, 宋兴福, 孙泽, 孙淑英, 于建国. 低温低压下氨碳化过程的模拟与控制[J]. 化工学报, 2013, 64(10): 3626-3632.

References 22

[1]	Lu Jinchi(陆金驰),Li Dongnan(李东南),Chen Kai(陈凯),Huang Jinlin(黄金林).Effect of calcined phosphogypsum on hydration process of autoclaved silicate product[J].CIESC Journal(化工学报),2012,63(7):2317-2323
[2]	Lin Shengnan(林胜楠),Mei Yi(梅毅),Dai Yuanhua(戴元华).Present research and application status of utilization of sulfur resources in phosphogypsum[J].Inorganic Chemicals Industry(无机盐工业),2011,43(2):10-15
[3]	Kakizawa M,Yamasaki A,Yangisawa Y.A new Co disposal process via artificial weathering of calcium silicate accelerated by acetic acid[J].Energy,2001,26(1):341-354
[4]	Ding Guangyue(丁光月),Li Yue(李岳),Fan Caimei(樊彩梅),Jing Hongjian(荆宏健),Feng Junqiang(冯军强).Effect of impurities on conversion of gypsum and crystallization of calcium carbonate[J].Journal of Taiyuan University of Technology(太原理工大学学报),2011,42 (6):593-597
[5]	Yu Hai,Qi Guojie,Wang Shujuan,et al.Results from trialing aqueous ammonia-based post-combustion capture in a pilot plant at Munmorah Power Station:gas purity and solid precipitation in the stripper[J].International Journal of Greenhouse Gas Control,2012,10:15-25
[6]	Bao Weijun(包炜军),Li Huiquan(李会泉),Zhang Yi(张懿).Process analysis and mechanism discussion of enhanced CO2 sequestration by mineral carbonation[J].CIESC Journal(化工学报),2009,60(9):2332-2338
[7]	Park Ho Seok,Jung Young Mee,You Jong Kyun,Hong Won Hi,Kim Jong-Nam.Analysis of the CO2 and NH3 reaction in an aqueous solution by 2D IR COS:formation of bicarbonate and carbonate[J].J.Phys.Chem.A,2008,112:6558-6562
[8]	Sun Bao-Chang.Simultaneous absorption of CO2 and NH3 into water in a rotating packed bed[J].Ind. Eng. Chem.Res.,2009,48:11175-11180
[9]	Tang Zhongli(唐忠利),Zhao Xingjian(赵行健),Liu Botan(刘伯潭),Liu Chunjiang(刘春江),Chen Tao(陈涛),Yuan Xigang(袁希钢).Volumetric overall mass transfer coefficients of CO2 absorption into aqua ammonia in structured packed column[J].CIESC Journal(化工学报),2012,63(4):1102-1108
[10]	Fabrizio Mani,Maurizio Peruzzini,Piero Stoppioni.CO2 absorption by aqueous NH3 solutions:speciation of ammonium carbonate,bicarbonate and carbonate by a 13C NMR study[J].Green Chem.,2006,8:995-1000
[11]	Nichola McCann.Kinetics and mechanism of carbonate formation from CO2(aq),carbonate species,and monoethanolamine in aqueous solution[J].J. Phys. Chem.A,2009,113:5022-5029
[12]	Zhao Qing,Wang Shujuan,Qin Feng,Chen Changhe. Composition analysis of CO2-NH3-H2O system based on raman spectra[J].IECR,2011,50:5316-5325
[13]	Kim D Y,Lee H M,Min S K,et al.CO2 capturing mechanism in aqueous ammonia:NH3-driven decomposition-recombination pathway[J].J.Phys.Chem.Lett.,2011,2(7):689-694
[14]	Wang Xiaoguang,William Conway,Debra Fernandes,Geoffrey Lawrance,Robert Burns,Graeme Puxty,Marcel Maeder.Kinetics of the reversible reaction of CO2(aq)with ammonia in aqueous solution[J].J.Phys.Chem.A,2011,115:6405-6412
[15]	Zhang Zhiming(张志明).New Type Nitrogen Fertilizer-Long-life Ammonium Bicarbonate(新型氮肥:长效碳酸氢铵)[M].Beijing:Chemical Industry Press,2000:246
[16]	Personnel Division of the Ministry of Chemical Industry. Ammonium Bicarbonate Prepared by Ammonia(合成氨法制造碳酸氢铵)[M].Beijing:Chemical Industry Press,1958:201-211
[17]	Qin Feng,Wang Shujuan,Hartono Ardi,et al.Study of the heat of absorption of CO2 in aqueous ammonia:comparison between experimental data and model predictions[J].Ind.Eng.Chem.Res.,2010,49(8):3776-3784
[18]	Chen Chau-Chyun,Song Yuhua.Generalized electrolyte-NRTL model for mixed-solvent electrolyte systems[J].AIChE Journal,2004,50(8):1928-1941
[19]	Que Huiling.Thermodynamic modeling of the NH3-CO2-H2O system with electrolyte NRTL model[J].Ind. Eng.Chem.Res.,2011,50:11406-11421
[20]	Wei Shun'an,Zhang Hongjing.Calculation of H2O-NH3-CO2 vapor liquid equilibria at high concentration conditions[J].Chinese J.Chem.Eng.,2004,12 (1):134-136
[21]	Li Guode(李国德),Wu Shiwei(武士威),Li Na(李娜),Zhang Xia(张侠),Li Guangzhe(李光哲).The influence of CO2 absorption rate and the solution carbonized ratio with carbonized aqueous ammonia concentration on remove CO2 in flue gas[J].Journal of Shenyang Jianzhu University:Natural Science(沈阳建筑大学学报:自然科学版),2011,27(5):947-951
[22]	Hou Zunxian(侯遵贤).Preliminary study on operating conditions of carbonization section.China Academic Journal Electronic Publishing House[EB/OL].http://www. cnki. net:6:9