化工学报 ›› 2019, Vol. 70 ›› Issue (7): 2439-2447.DOI: 10.11949/0438-1157.20190080
收稿日期:
2019-01-25
修回日期:
2019-04-16
出版日期:
2019-07-05
发布日期:
2019-07-05
通讯作者:
成卫国,曹俊雅
作者简介:
杨瑞(1993—),男,硕士研究生,<email>yr1364122@163.com</email>
基金资助:
Rui YANG1(),Li DONG2,Songsong CHEN2,Weiguo CHENG2(),Junya CAO1()
Received:
2019-01-25
Revised:
2019-04-16
Online:
2019-07-05
Published:
2019-07-05
Contact:
Weiguo CHENG,Junya CAO
摘要:
从工业废气中回收分离乙烯(C2H4)具有重要意义,选用了三种低黏度二氰胺类离子液体,分别测定了293.15~333.15 K下其密度、黏度等物化性质,研究了其对乙烯(C2H4)吸收性能。采用非随机(局部)双液体模型(NRTL)关联了三种二元体系溶解度数据,实验值与计算值的平均相对偏差均小于3%。结果表明,低黏度二氰胺类离子液体对C2H4气体吸收性能良好,其中阳离子侧链长度增加和羟基功能团引入可增强对C2H4溶解度。同时,离子液体1-丁基-3-甲基咪唑二氰胺盐([Bmim][DCN])经过3次的吸收解吸循环,仍可以保持较好的C2H4吸收性能,表明该离子液体循环稳定性好,而1-丁基-3-甲基咪唑二氰胺盐([Bmim][DCN])对乙烯吸收量较高,具有作为C2H4吸收剂的潜力。
中图分类号:
杨瑞, 董丽, 陈嵩嵩, 成卫国, 曹俊雅. 低黏二氰胺类离子液体乙烯汽液相平衡研究[J]. 化工学报, 2019, 70(7): 2439-2447.
Rui YANG, Li DONG, Songsong CHEN, Weiguo CHENG, Junya CAO. Vapor-liquid equilibrium of ethylene in low viscous dicyanamide-based ionic liquids[J]. CIESC Journal, 2019, 70(7): 2439-2447.
样品 | A/(g | B | R2 |
---|---|---|---|
[Emim][DCN] | 1.38784 | -6.6 | 0.99998 |
[Bmim][DCN] | 1.24988 | -6.2 | 0.99968 |
[Hemim][DCN] | 1.38923 | -6.7 | 0.99995 |
表1 离子液体密度关联系数
Table 1 Constants for density of Eq. (7)
样品 | A/(g | B | R2 |
---|---|---|---|
[Emim][DCN] | 1.38784 | -6.6 | 0.99998 |
[Bmim][DCN] | 1.24988 | -6.2 | 0.99968 |
[Hemim][DCN] | 1.38923 | -6.7 | 0.99995 |
样品 | D/(mPa | C/K | T0/K | R2 |
---|---|---|---|---|
[Emim][DCN] | 0.1408 | 725.5 | 137.9 | 0.996508 |
[Bmim][DCN] | 0.3392 | 486.3 | 187.3 | 0.996941 |
[Hemim][DCN] | 0.1992 | 614.4 | 185.4 | 0.992966 |
表2 离子液体黏度关联系数
Table 2 Constants for viscosity of Eq. (8)
样品 | D/(mPa | C/K | T0/K | R2 |
---|---|---|---|---|
[Emim][DCN] | 0.1408 | 725.5 | 137.9 | 0.996508 |
[Bmim][DCN] | 0.3392 | 486.3 | 187.3 | 0.996941 |
[Hemim][DCN] | 0.1992 | 614.4 | 185.4 | 0.992966 |
温度/K | 密度①/(g·cm-1) | 相对偏差/% | 黏度②/(mPa?s) | 相对偏差/% | ||
---|---|---|---|---|---|---|
实验值 | 文献值 | 实验值 | 文献值 | |||
293.15 | 1.068682 | 1.06396 | 0.44 | 33.562 | 33.15 | -1.24 |
303.15 | 1.062988 | 1.05757 | 0.51 | 22.574 | 22.92 | 1.51 |
313.15 | 1.056648 | 1.05112 | 0.53 | 16.235 | 16.72 | 2.90 |
323.15 | 1.050358 | 1.04494 | 0.52 | 12.273 | 12.74 | 3.67 |
333.15 | 1.044137 | 1.03873 | 0.52 | 9.519 | 10.04 | 5.19 |
表3 [Bmim][DCN]的密度、黏度测定值与文献值对比
Table 3 Comparison of measured density and viscosity of [Bmim][DCN] with its literature data
温度/K | 密度①/(g·cm-1) | 相对偏差/% | 黏度②/(mPa?s) | 相对偏差/% | ||
---|---|---|---|---|---|---|
实验值 | 文献值 | 实验值 | 文献值 | |||
293.15 | 1.068682 | 1.06396 | 0.44 | 33.562 | 33.15 | -1.24 |
303.15 | 1.062988 | 1.05757 | 0.51 | 22.574 | 22.92 | 1.51 |
313.15 | 1.056648 | 1.05112 | 0.53 | 16.235 | 16.72 | 2.90 |
323.15 | 1.050358 | 1.04494 | 0.52 | 12.273 | 12.74 | 3.67 |
333.15 | 1.044137 | 1.03873 | 0.52 | 9.519 | 10.04 | 5.19 |
T/K | p/kPa | x1 | φ1V | γ1 |
---|---|---|---|---|
C2H4+[Emim][DCN] | ||||
303.15 | 265.28 | 0.0182 | 0.984 | 0.989 |
303.15 | 407.47 | 0.0272 | 0.975 | 1.007 |
303.15 | 613.45 | 0.0424 | 0.96 | 0.96 |
303.15 | 1016.93 | 0.0666 | 0.939 | 0.988 |
303.15 | 1353.59 | 0.0856 | 0.919 | 1.001 |
313.15 | 297.67 | 0.0167 | 0.983 | 1.097 |
313.15 | 563.65 | 0.0318 | 0.969 | 1.078 |
313.15 | 931.95 | 0.0533 | 0.949 | 1.041 |
313.15 | 1219.53 | 0.0668 | 0.933 | 1.069 |
313.15 | 1446.23 | 0.0831 | 0.921 | 1.007 |
323.15 | 325.18 | 0.0160 | 0.984 | 1.192 |
323.15 | 551.82 | 0.0279 | 0.972 | 1.144 |
323.15 | 832.69 | 0.0403 | 0.958 | 1.176 |
323.15 | 1216.45 | 0.0616 | 0.939 | 1.103 |
323.15 | 1431.95 | 0.0767 | 0.929 | 1.031 |
333.15 | 402.39 | 0.0185 | 0.981 | 1.12 |
333.15 | 740.07 | 0.0338 | 0.966 | 1.11 |
333.15 | 942.78 | 0.0442 | 0.957 | 1.072 |
333.15 | 1312.68 | 0.0622 | 0.94 | 1.043 |
333.15 | 1557.77 | 0.0733 | 0.93 | 1.038 |
C2H4+[Bmim][DCN] | ||||
303.15 | 253.80 | 0.0208 | 0.984 | 1.043 |
303.15 | 466.68 | 0.0373 | 0.972 | 1.057 |
303.15 | 684.74 | 0.0537 | 0.958 | 1.061 |
303.15 | 907.81 | 0.0724 | 0.945 | 1.03 |
303.15 | 1109.56 | 0.0891 | 0.933 | 1.01 |
313.15 | 228.67 | 0.0172 | 0.986 | 1.082 |
313.15 | 512.98 | 0.0381 | 0.975 | 1.083 |
313.15 | 748.98 | 0.0558 | 0.963 | 1.066 |
313.15 | 940.58 | 0.0686 | 0.951 | 1.075 |
313.15 | 1160.98 | 0.0855 | 0.94 | 1.052 |
323.15 | 363.27 | 0.0222 | 0.983 | 1.175 |
323.15 | 659.11 | 0.0466 | 0.967 | 1.079 |
323.15 | 961.330 | 0.0683 | 0.952 | 1.058 |
323.15 | 1080.60 | 0.0772 | 0.946 | 1.046 |
323.15 | 1338.41 | 0.0963 | 0.933 | 1.024 |
333.15 | 353.08 | 0.0210 | 0.984 | 1.248 |
333.15 | 580.35 | 0.0384 | 0.973 | 1.111 |
333.15 | 813.26 | 0.0542 | 0.963 | 1.089 |
333.15 | 1053.51 | 0.0720 | 0.952 | 1.051 |
333.15 | 1217.06 | 0.0810 | 0.945 | 1.071 |
C2H4+[Hemim][DCN] | ||||
303.15 | 395.17 | 0.0285 | 0.976 | 1.051 |
303.15 | 551.66 | 0.0386 | 0.966 | 1.068 |
303.15 | 766.63 | 0.0535 | 0.954 | 1.062 |
303.15 | 952.33 | 0.0669 | 0.943 | 1.042 |
303.15 | 1306.31 | 0.0918 | 0.922 | 1.019 |
313.15 | 379.32 | 0.0223 | 0.979 | 1.137 |
313.15 | 557.07 | 0.0327 | 0.969 | 1.126 |
313.15 | 707.14 | 0.0433 | 0.961 | 1.07 |
313.15 | 953.86 | 0.0585 | 0.948 | 1.058 |
313.15 | 1173.65 | 0.0714 | 0.936 | 1.05 |
323.15 | 380.56 | 0.0212 | 0.981 | 1.11 |
323.15 | 539.47 | 0.0291 | 0.973 | 1.14 |
323.15 | 746.96 | 0.0423 | 0.963 | 1.072 |
323.15 | 969.73 | 0.5055 | 0.952 | 1.05 |
323.15 | 1161.48 | 0.0659 | 0.943 | 1.049 |
333.15 | 367.57 | 0.0181 | 0.983 | 1.181 |
333.15 | 589.29 | 0.0311 | 0.973 | 1.093 |
333.15 | 804.135 | 0.0426 | 0.964 | 1.078 |
333.15 | 967.27 | 0.0519 | 0.956 | 1.056 |
333.15 | 1155.61 | 0.0615 | 0.948 | 1.053 |
表4 三种离子液体在不同温度和压力下对乙烯的溶解度和φ1V、γ1的实验值
Table 4 Solubility, φ1Vand γ1 of C2H4 in three ionic liquids at different pressures and temperatures
T/K | p/kPa | x1 | φ1V | γ1 |
---|---|---|---|---|
C2H4+[Emim][DCN] | ||||
303.15 | 265.28 | 0.0182 | 0.984 | 0.989 |
303.15 | 407.47 | 0.0272 | 0.975 | 1.007 |
303.15 | 613.45 | 0.0424 | 0.96 | 0.96 |
303.15 | 1016.93 | 0.0666 | 0.939 | 0.988 |
303.15 | 1353.59 | 0.0856 | 0.919 | 1.001 |
313.15 | 297.67 | 0.0167 | 0.983 | 1.097 |
313.15 | 563.65 | 0.0318 | 0.969 | 1.078 |
313.15 | 931.95 | 0.0533 | 0.949 | 1.041 |
313.15 | 1219.53 | 0.0668 | 0.933 | 1.069 |
313.15 | 1446.23 | 0.0831 | 0.921 | 1.007 |
323.15 | 325.18 | 0.0160 | 0.984 | 1.192 |
323.15 | 551.82 | 0.0279 | 0.972 | 1.144 |
323.15 | 832.69 | 0.0403 | 0.958 | 1.176 |
323.15 | 1216.45 | 0.0616 | 0.939 | 1.103 |
323.15 | 1431.95 | 0.0767 | 0.929 | 1.031 |
333.15 | 402.39 | 0.0185 | 0.981 | 1.12 |
333.15 | 740.07 | 0.0338 | 0.966 | 1.11 |
333.15 | 942.78 | 0.0442 | 0.957 | 1.072 |
333.15 | 1312.68 | 0.0622 | 0.94 | 1.043 |
333.15 | 1557.77 | 0.0733 | 0.93 | 1.038 |
C2H4+[Bmim][DCN] | ||||
303.15 | 253.80 | 0.0208 | 0.984 | 1.043 |
303.15 | 466.68 | 0.0373 | 0.972 | 1.057 |
303.15 | 684.74 | 0.0537 | 0.958 | 1.061 |
303.15 | 907.81 | 0.0724 | 0.945 | 1.03 |
303.15 | 1109.56 | 0.0891 | 0.933 | 1.01 |
313.15 | 228.67 | 0.0172 | 0.986 | 1.082 |
313.15 | 512.98 | 0.0381 | 0.975 | 1.083 |
313.15 | 748.98 | 0.0558 | 0.963 | 1.066 |
313.15 | 940.58 | 0.0686 | 0.951 | 1.075 |
313.15 | 1160.98 | 0.0855 | 0.94 | 1.052 |
323.15 | 363.27 | 0.0222 | 0.983 | 1.175 |
323.15 | 659.11 | 0.0466 | 0.967 | 1.079 |
323.15 | 961.330 | 0.0683 | 0.952 | 1.058 |
323.15 | 1080.60 | 0.0772 | 0.946 | 1.046 |
323.15 | 1338.41 | 0.0963 | 0.933 | 1.024 |
333.15 | 353.08 | 0.0210 | 0.984 | 1.248 |
333.15 | 580.35 | 0.0384 | 0.973 | 1.111 |
333.15 | 813.26 | 0.0542 | 0.963 | 1.089 |
333.15 | 1053.51 | 0.0720 | 0.952 | 1.051 |
333.15 | 1217.06 | 0.0810 | 0.945 | 1.071 |
C2H4+[Hemim][DCN] | ||||
303.15 | 395.17 | 0.0285 | 0.976 | 1.051 |
303.15 | 551.66 | 0.0386 | 0.966 | 1.068 |
303.15 | 766.63 | 0.0535 | 0.954 | 1.062 |
303.15 | 952.33 | 0.0669 | 0.943 | 1.042 |
303.15 | 1306.31 | 0.0918 | 0.922 | 1.019 |
313.15 | 379.32 | 0.0223 | 0.979 | 1.137 |
313.15 | 557.07 | 0.0327 | 0.969 | 1.126 |
313.15 | 707.14 | 0.0433 | 0.961 | 1.07 |
313.15 | 953.86 | 0.0585 | 0.948 | 1.058 |
313.15 | 1173.65 | 0.0714 | 0.936 | 1.05 |
323.15 | 380.56 | 0.0212 | 0.981 | 1.11 |
323.15 | 539.47 | 0.0291 | 0.973 | 1.14 |
323.15 | 746.96 | 0.0423 | 0.963 | 1.072 |
323.15 | 969.73 | 0.5055 | 0.952 | 1.05 |
323.15 | 1161.48 | 0.0659 | 0.943 | 1.049 |
333.15 | 367.57 | 0.0181 | 0.983 | 1.181 |
333.15 | 589.29 | 0.0311 | 0.973 | 1.093 |
333.15 | 804.135 | 0.0426 | 0.964 | 1.078 |
333.15 | 967.27 | 0.0519 | 0.956 | 1.056 |
333.15 | 1155.61 | 0.0615 | 0.948 | 1.053 |
系统(i)+(S) | aiS | biS |
---|---|---|
C2H4+[Emim][DCN] | 0.0457 | 0.0087 |
C2H4+[Bmim][DCN] | 1.0177 | 0.0047 |
C2H4+[Hemim][DCN] | -0.1276 | 0.0089 |
表5 亨利常数的系数
Table 5 Parameters of Henry constants in this work
系统(i)+(S) | aiS | biS |
---|---|---|
C2H4+[Emim][DCN] | 0.0457 | 0.0087 |
C2H4+[Bmim][DCN] | 1.0177 | 0.0047 |
C2H4+[Hemim][DCN] | -0.1276 | 0.0089 |
系统(1)+(2) | α | τ12(0) | τ12(1) | τ21(0) | τ21(1) | ARD/% |
---|---|---|---|---|---|---|
C2H4+[Emim][DCN] | 0.449 | 105.874 | -9.789 | 1.183 | -356.459 | 2.47 |
C2H4+[Bmim][DCN] | 0.313 | 130.173 | -9.717 | 0.877 | -252.221 | 2.54 |
C2H4+[Hemim][DCN] | 0.086 | 89.4897 | -10.064 | 84.413 | 299.8386 | 1.19 |
表6 NRTL模型参数
Table 6 Parameters of NRTL model in this work
系统(1)+(2) | α | τ12(0) | τ12(1) | τ21(0) | τ21(1) | ARD/% |
---|---|---|---|---|---|---|
C2H4+[Emim][DCN] | 0.449 | 105.874 | -9.789 | 1.183 | -356.459 | 2.47 |
C2H4+[Bmim][DCN] | 0.313 | 130.173 | -9.717 | 0.877 | -252.221 | 2.54 |
C2H4+[Hemim][DCN] | 0.086 | 89.4897 | -10.064 | 84.413 | 299.8386 | 1.19 |
1 | 张勇. 烯烃技术进展[M]. 北京: 中国石化出版社, 2008: 251-252. |
ZhangY. Technical Progress Olefins [M]. Beijing: China Petrochemical Press, 2008: 251-252. | |
2 | 李涛. 以乙烯为原料的产业链延伸加工及其新进展[J]. 石油化工技术与经济, 2014, 30 (2): 11-15. |
LiT. Extending process of industrial chain with ethylene as material and its latest development[J]. Technology & Economics in Petrochemicals, 2014, 30(2): 11-15. | |
3 | 张阳, 王蕾, 李明, 等. 世界及国内乙烯产能概况[J]. 当代化工, 2018, 47(1): 113-115. |
ZhangY, WangL, LiM, et al. General situation of ethylene production capacity in the world and domestic[J]. Contemporary Chemical Industry, 2018, 47(1): 113-115. | |
4 | EldridgeR B. Olefin/paraffin separation technology: a review[J]. Industrial & Engineering Chemistry Research, 1993, 32(10): 2208-2212. |
5 | 谭雅文, 丁雪. 催化裂化干气乙烯回收利用技术研究进展[J]. 广东化工, 2017, 44(6): 107. |
TanY W, DingX. The development of recovery and utilization processes of ethylene in FCC dry gas[J]. Guangdong Chemical Industry, 2017, 44(6): 107. | |
6 | ZhangX P, ZhangX C, DongH F, et al. Carbon capture with ionic liquids: overview and progress[J]. Energy & Environmentalence, 2012, 5(5): 6668-6681. |
7 | AnthonyJ L, AndersonJ L, MaginnE J. Anion effects on gas solubility in ionic liquids[J]. Journal of Physical Chemistry B, 2005, 109(13): 6266-6374. |
8 | ChengX P, MuT C, WangX L, et al. Low pressure solubilities of vinyl chloride in ionic liquids[J]. Journal of Chemical & Engineering Data, 2008, 53(12): 2807-2809. |
9 | ChengX P, YangG Y, MuT C, et al. Absorption of vinyl chloride by room temperature ionic liquids[J]. Clean-Soil Air Water, 2010, 37(3): 245-248. |
10 | WasserscheidP, WeltonT. Ionic Liquids in Synthesis[M]. New York: Wiley-VCH, 2003: 25-26. |
11 | WasserscheidP, WeltonT. Ionic Liquids in Synthesis [M]. 2nd ed.New York: Wiley-VCH, 2008:57-60. |
12 | 张庆华, 王瑞峰, 李作鹏, 等. 离子液体在绿色催化和清洁合成中应用的进展[J]. 石油化工, 2007, 36(10): 975-984. |
ZhangQ H, WangR F, LiZ P, et al. Advances of ionic liquid application in green catalysis and clean synthesis[J]. Petrochemical Technology, 2007, 36(10):975-984. | |
13 | 刘维伟, 胡松, 陈文, 等. 功能型离子液体的合成表征及CO2吸收性能[J]. 化工学报, 2012, 63(1): 139-145. |
LiuW W, HuS, ChenW, et al. Synthesis and identification of functional ionic liquids and research on its performance of CO2 absorption[J]. CIESC Journal, 2012, 63(1): 139-145. | |
14 | AndersonJ L, DixonJ K, BrenneckeJ F. Solubility of CO2, CH4, C2H6, C2H4, O2, and N2 in 1-hexyl-3-methylpyridinium bis(trifluoromethylsulfonyl)imide: comparison to other ionic liquids[J]. Cheminform, 2010, 39(7): 6266-6374. |
15 | ChenJ J, LiW W, YuH Q, et al. Capture of H2S from binary gas mixture by imidazolium-based ionic liquids with nonfluorous anions: a theoretical study[J]. AIChE Journal, 2013, 59(10): 3824-3833. |
16 | MokrushinV, AssenbaumD, PaapeN, et al. Ionic liquids for propene-propane separation[J]. Chemical Engineering & Technology, 2010, 33(1): 63-73. |
17 | ManeshS M, SatyroM A, MarriottR A. Screening ionic liquids as candidates for separation of acid gases: solubility of hydrogen sulfide, methane, and ethane[J]. AIChE Journal, 2013, 59(8): 2993-3005. |
18 | 张慧,张红梅,沈锦优,等. 氨基功能型离子液体吸收CO2的性能[J]. 化工学报, 2016, 67(12): 5057-5065. |
ZhangH, ZhangH M, ShenJ Y, et al. Absorption performance of CO2 in amino-functionalized task-specific ionic liquids[J]. CIESC Journal, 2016, 67(12): 5057-5065. | |
19 | ZhaoX, XingH B, YangQ W, et al. Differential solubility of ethylene and acetylene in room temperature ionic liquids: a theoretical study[J]. Journal of Physical Chemistry B, 2012, 116(13): 3944-3953. |
20 | ChenK H, LinW J, YuX N, et al. Designing of anion-functionalized ionic liquids for efficient capture of SO2 from flue gas[J]. AIChE Journal, 2015, 61(6):2028-2034. |
21 | CuiG K, ZhangF T, ZhouX Y, et al. Tuning the basicity of cyano-containing ionic liquids to improve SO2 capture through cyano-sulfur interactions[J]. Chemistry: A European Journal, 2015, 21(14): 5632-5639. |
22 | HuangK, ZhangX M, XuY, et al. Protic ionic liquids for the selective absorption of H2S from CO2: thermodynamic analysis[J]. AIChE Journal, 2015, 60(12): 4232-4240. |
23 | CamperD, BeckerC, KovalC, et al. Low pressure hydrocarbon solubility in room temperature ionic liquids containing imidazolium rings interpreted using regular solution theory[J]. Industrial & Engineering Chemistry Research, 2005, 44(6): 1928-1933. |
24 | FergusonL, ScovazzoP. Solubility, diffusivity, and permeability of gases in phosphonium-based room temperature ionic liquids: data and correlations[J]. Industrial & Engineering Chemistry Research, 2007, 46(4): 1369-1374. |
25 | CondemarinR, ScovazzoP. Gas permeabilities, solubilities, diffusivities, and diffusivity correlations for ammonium-based room temperature ionic liquids with comparison to imidazolium and phosphonium RTIL data[J]. Chemical Engineering Journal, 2009, 147(1): 51-57. |
26 | ZhangJ, ZhangQ H, QiaoB T, et al. Solubilities of the gaseous and liquid solutes and their thermodynamics of solubilization in the novel room-temperature ionic liquids at infinite dilution by gas chromatography[J]. Journal of Chemical and Engineering Data, 2007, 52(6): 2277-2283. |
27 | XingH B, ZhaoX, LiR L, et al. Improved efficiency of ethylene/ethane separation using a symmetrical dual nitrile-functionalized ionic liquid[J]. ACS Sustainable Chemistry & Engineering, 2013, 1(11): 1357-1363. |
28 | YoshidaY, BabaO, SaitoG. Ionic liquids based on dicyanamide anion: influence of structural variations in cationic structures on ionic conductivity[J]. Journal of Physical Chemistry B, 2007, 111(18): 4742-4749. |
29 | GreavesT L, DrummondC J. Protic ionic liquids: properties and applications[J]. Chemical Reviews, 2008, 108(1): 206-237. |
30 | LarribaM, NavarroP, GarciaJ, et al. Liquid-liquid extraction of toluene from heptane using [emim][DCA], [bmim][DCA], and [emim][TCM] ionic liquids[J]. Industrial & Engineering Chemistry Research, 2013, 52(7): 2714-2720. |
31 | GmehlingJ, KolbeB, KleiberM, et al. Chemical Thermodynamics for Process Simulation[M]. New York: Wiley-VCH, 2012: 259-271. |
32 | LiuX Y, LiuS Q, BaiL H, et al. Absorption and seperation of CO2/C3H8 and C3H6/C3H8 by ionic liquid:effect of molar volume[J]. Journal of Natural Gas Science and Engineering, 2018, 58: 266-277. |
33 | UdagawaT, IshimotoT, TokiwaH, et al. Geometric isotope effect of various intermolecular and intramolecular C-H···O hydrogen bonds, using the multicomponent molecular orbital Method[J]. The Journal of Physical Chemistry A, 2006, 110(22): 7279-7285. |
34 | ChenY Y, MuteletF, Jean-NoëlJ. Solubility of carbon dioxide, nitrous oxide and methane in ionic liquids at pressures close to atmospheric[J]. Fluid Phase Equilibria, 2014, 372: 26-33. |
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