acetyl acetone + 1-butanol (3 niza) · 2020. 4. 11. · 1,4 dioxane + ethyl benzene (1 niz) table...

1

Acetyl acetone + 1-butanol (3 niza)

Aisha Al-abbasi*, Salsabil Almorabt, Omassad Ibrahim and Fatima Almahjoob, Volumetric, viscometric and refractive Indices Properties of binary mixtures of acetyl acetone with 1-butanol at different temperatures, The 1st International Conference on Chemical, Petroleum, and Gas Engineering (ICCPGE 2016), 20th – 22th December 2016, Alkhoms-Libya

2

Methyl benzoate + tetrahydrofuran (3 niza)

Rathnam, Manapragada & Ambavadekar, Devappa & Nandini, M.. (2013). Studies on Excess Volume, Viscosity, and Speed of Sound of Binary Mixtures of Methyl Benzoate in Ethers at and K. Journal of Thermodynamics. 2013. 10.1155/2013/413878.

3

Methyl benzoate + 1,4-dioxane (dva niza)


4

Ethylammonium nitrate + methanol (1 niz)

Table 3 Density and excess volume for EAN–methanol mixtures at 25 °C and atmospheric pressure

Olga Russina • Alessandro Mariani • Ruggero Caminiti •Alessandro Triolo, Structure of a Binary Mixture of Ethylammonium Nitrate and Methanol, Journal of Solution Chemistry volume 44, pages 669–685(2015), DOI 10.1007/s10953-015-0311-7

5

Xenon + ethane (1 niz)

TABLE 3: Molar volumes and excess molar volumes of xenon + ethane and xenon + propane mixtures at 161.40 K and under saturation vapor pressure (prikazani x odnosi se na množinski udio ksenona)

Eduardo J. M. Filipe, Edmundo J. S. Gomes de Azevedo, Luís F. G. Martins, Virgílio A. M. Soares, Jorge C. G. Calado, Clare McCabe, George Jackson, Thermodynamics of Liquid Mixtures of Xenon with Alkanes: (Xenon + Ethane) and (Xenon + Propane). J. Phys. Chem. B 2000, 104, 6, 1315-1321

6

Xenon + propane (1 niz)

TABLE 3: Molar volumes and excess molar volumes of xenon + ethane and xenon + propane mixtures at 161.40 K and under saturation vapor pressure (prikazani x odnosi se na množinski udio ksenona)

Eduardo J. M. Filipe, Edmundo J. S. Gomes de Azevedo, Luís F. G. Martins, Virgílio A. M. Soares, Jorge C. G. Calado, Clare McCabe, George Jackson, Thermodynamics of Liquid Mixtures of Xenon with Alkanes: (Xenon + Ethane) and (Xenon + Propane). J. Phys. Chem. B 2000, 104, 6, 1315-1321

7

1-ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide + ethyl acetate (1 niz)

Naushad Anwar, Riyazuddeen ⁎, Shama Yasmeen, Volumetric, compressibility and viscosity studies of binary mixtures of [EMIM][NTf2] with ethylacetate/methanol at (298.15–323.15) K, Journal of Molecular Liquids 224 (2016) 189–200.

8

1-Ethyl-3-methylimidazolium bis(trifluoromethylsulfonyl)imide + methanol (1 niz)

Naushad Anwar, Riyazuddeen ⁎, Shama Yasmeen, Volumetric, compressibility and viscosity studies of binary mixtures of [EMIM][NTf2] with ethylacetate/methanol at (298.15–323.15) K, Journal of Molecular Liquids 224 (2016) 189–200.

9

Trichlorofluoromethane (1) + 2,2,4-trimethylpentane (1 niz)

10

PEG (polyethylene glycol) 400 + water (7 nizova)

Gerson A. Rodríguez, Andrés R. Holguín, Fleming Martínez, Maryam Khoubnasabjafari, Abolghasem Jouyban, Volumetric properties of (PEG 400 + water) and (PEG 400 + ethanol) mixtures at several temperatures and correlation with the Jouyban-Acree model, Rev. colomb. cienc. quim. farm. vol.41 no.2 Bogotá July/Dec. 2012

11

PEG (polyethylene glycol) 400 + water (7 nizova)

Gerson A. Rodríguez, Andrés R. Holguín, Fleming Martínez, Maryam Khoubnasabjafari, Abolghasem Jouyban, Volumetric properties of (PEG 400 + water) and (PEG 400 + ethanol) mixtures at several temperatures and correlation with the Jouyban-Acree model, Rev. colomb. cienc. quim. farm. vol.41 no.2 Bogotá July/Dec. 2012

12

N-ethylaniline + p-methylacetophenone (1 niz)

Gowrisankar Manukonda, P. Venkatalakshami, Karumudi Rambabu, Excess volumes, isentropic compressibilities and viscosities of binary mixtures of N-ethylaniline with phenones at 303.15 K, International journal of physics and research (IJPR) 3(4) (2013) 5-16.

13

N-ethylaniline + acetophenone (1 niz)

Gowrisankar Manukonda, P. Venkatalakshami, Karumudi Rambabu, Excess volumes, isentropic compressibilities and viscosities of binary mixtures of N-ethylaniline with phenones at 303.15 K, International journal of physics and research (IJPR) 3(4) (2013) 5-16.

14

N-ethylaniline + propiophenone (1 niz)

Gowrisankar Manukonda, P. VENKATALAKSHAMI, Karumudi Rambabu, Excess volumes, isentropic compressibilities and viscosities of binary mixtures of N-ethylaniline with phenones at 303.15 K, International journal of physics and research (IJPR) 3(4) (2013) 5-16.

15

Water + diisopropanolamine (DIPA) (4 niza)

Table 2. Experimental Densities and Excess volumes of the Water (1) + DIPA (2) system

Jinho Kim, Jaeseok Na and Hun Yong Shin, Measurement and Correlation of density and excess volume for Water+DIPA, DIPA+MDEA and Water+DIPA+MDEA systems, Korean Chem. Eng. Res., 57(2), 198-204 (2019)

16

Diisopropanolamine (DIPA)+ Methyldiethanolamine (MDEA) (4 niza)

Table 3. Experimental Densities and Excess volumes of the DIPA (1) + MDEA (2) system

Jinho Kim, Jaeseok Na and Hun Yong Shin, Measurement and Correlation of density and excess volume for Water+DIPA, DIPA+MDEA and Water+DIPA+MDEA systemsKorean Chem. Eng. Res., 57(2), 198-204 (2019)

17

Ethanol + water (3 niza)

Gerson A. Rodríguez, Daniel R. Delgado, Fleming Martínez, Maryam Khoubnasabjafari, Abolghasem Jouyban, Volumetric properties of some pharmaceutical binary mixtures at low temperatures and correlation with the Jouyban-Acree model, Rev. colomb. cienc. quim. farm. vol.40 no.2 Bogotá July/Dec. 2011

18

1,2-Propanediol + water (3 niza)


19

Ethanol + 1,2-Propanediol (3 niza)


20

Dimethylformamide + 2-butanol (1 niz)

Aklima Jahan, Md. Ashraful Alam, Md. Rabiul Awual, Shamim Akhtar, Volumetric and Acoustic Properties for Binary Mixtures of N,N-Dimethylformamide with 2-Butanol and 2-Pentanol at Temperatures between 298.15 K and 318.15 K, American Journal of Chemistry 2019; 9(1): 1-12

21



22



23



24

Dimethylformamide + 2-pentanol (1 niz)


25



26



27



28

1,4 Dioxane + Bromo Benzene (1 niz)

Table 2. Comparison of Experimental and Prediction of Excess molar volume, kinematic viscosities by Redlitch-Kister nonlinear model for 1,4 Dioxane + Bromo Benzene at 303.15K

R. Ramesh, A. Hisyam, A.Z. Sulaiman, K. Ramesh, Measurement and Predict Thermo Physical Properties of Binary Liquid Mixtures at Various Temperatures Using Redlich-Kister Model. Chemical Engineering and Science, 2014, Vol. 2, No. 2, 18-23

29




30




31

1,4 Dioxane + Ethyl Benzene (1 niz)

Table 5. Comparison of Experimental and Prediction of Excess molar volume, kinematic viscosities by Redlitch-Kister nonlinear model for 1,4 Dioxane + Ethyl Benzene at 303.15K


32




33




34

Methanol + Water (1 niz)

Fardad Koohyar, Farhoush Kiani, Sasan Sharifi, Meysam Sharifirad, Seyed Hamed Rahmanpour, Study on the Change of Refractive Index on Mixing, Excess Molar Volume and Viscosity Deviation for Aqueous Solution of Methanol, Ethanol, Ethylene Glycol, 1-Propanol and 1, 2, 3-Propantriol at T = 292.15 K and Atmospheric Pressure. September 2012, Research Journal of Applied Sciences, Engineering and Technology 4(17):3095-3101

35

Ethanol + Water (1 niz)


36

Ethylene glycol+ Water (1 niz)


37

1-propanol+ Water (1 niz)


38

glycerol+ Water (1 niz)


39

m-xylene + 1-propanol (1 niz)

C.L. Prabhavathi, K. Sivakumar, P. Venkateswarlu, G.K. Raman, Volumetric and ultrasonic study of binary liquid mixtures of m-xylene with 1-alkanols at 303.15 K, Indian Journal of Chemistry 43A February 2004, pp. 294-298

40

m-xylene + 1-butanol (1 niz)


41

m-xylene + 1-pentanol (1 niz)


42

No. Formula Molar Mass CAS Registry Number Name

1 C2H6O 46.069 64-17-5 Ethanol 2 H2O 18.015 7732-18-5 Water Constant Value

Temperature 298.150 K Data Table

Excess Volume [cm3/mol] x1 [mol/mol]

-0.0500 0.01280 -0.0880 0.02130 -0.1510 0.03410 -0.2340 0.04960 -0.3200 0.06510 -0.4090 0.08070 -0.4870 0.09540 -0.5750 0.11310 -0.6420 0.12780 -0.7500 0.15600 -0.8840 0.20380 -0.9270 0.22670 -0.9860 0.26310 -1.0600 0.35050 -1.0680 0.39540 -1.0670 0.46190 -0.9990 0.57450 -0.6780 0.78050 -0.4540 0.86650 -0.2220 0.93730 Reference

Source

Grolier J.-P.E.; Wilhelm E.: Excess Volumes and Excess Heat Capacities of Water + Ethanol at 298.15 K. Fluid Phase Equilib. 6 (1981) 283-287

43


1 C2H6O 46.069 64-17-5 Ethanol 2 H2O 18.015 7732-18-5 Water Search the DDB for all data of this mixture Constant Value

Temperature 298.150 K

Pressure 0.400 bar Data Table


-0.0400 0.01060 -0.0910 0.02160 -0.1490 0.03330 -0.2140 0.04550 -0.2880 0.05830 -0.3600 0.07180 -0.4420 0.08610 -0.5220 0.10120 -0.5970 0.11710 -0.6720 0.13400 -0.8020 0.17110 -0.9080 0.21320 -0.9890 0.26140 -1.0410 0.31710 -1.0690 0.36510 -1.0800 0.41940 -1.0800 0.45990 -1.0650 0.50430 -1.0310 0.55330 -0.9830 0.60760 -0.8990 0.66810 -0.8480 0.70090 -0.7830 0.73590 -0.7140 0.77300 -0.6160 0.81250 -0.5050 0.85470 -0.3710 0.89980 -0.2040 0.94810 Reference

Source

Ott J.B.; Sipowska J.T.; Gruszkiewicz M.S.; Woolley A.T.: Excess Volumes for (Ethanol + Water) at the Temperatures (298.15 and 348.15) K and Pressures (0.4, 5, and 15) MPa and at the Temperature 323.15 K and Pressures (5 and 15) MPa. J.Chem.Thermodyn. 25 (1993) 307-318

44


1 C2H6O 46.069 64-17-5 Ethanol 2 H2O 18.015 7732-18-5 Water Search the DDB for all data of this mixture Constant Value

Temperature 298.150 K

Pressure 5.000 bar Data Table


-0.0600 0.01610 -0.0830 0.02170 -0.1410 0.03340 -0.2040 0.04560 -0.2720 0.05850 -0.3420 0.07200 -0.4220 0.08630 -0.4990 0.10150 -0.5750 0.11740 -0.7470 0.16180 -0.8770 0.21370 -0.9550 0.26190 -1.0080 0.31780 -1.0370 0.36580 -1.0430 0.40120 -1.0400 0.46060 -1.0230 0.50500 -0.9910 0.55400 -0.9360 0.60820 -0.8650 0.66870 -0.8110 0.70160 -0.7550 0.73650 -0.5920 0.81300 -0.4850 0.85510 -0.3520 0.90010 -0.1910 0.94820 Reference

Source

Ott J.B.; Sipowska J.T.; Gruszkiewicz M.S.; Woolley A.T.: Excess Volumes for (Ethanol + Water) at the Temperatures (298.15 and 348.15) K and Pressures (0.4, 5, and 15) MPa and at the Temperature 323.15 K and Pressures (5 and 15) MPa. J.Chem.Thermodyn. 25 (1993) 307-318

45


1 C3H6O 58.080 67-64-1 Acetone 2 H2O 18.015 7732-18-5 Water Search the DDB for all data of this mixture Constant Value



-0.012686 0.001785 -0.019384 0.002712 -0.03173 0.004424 -0.04505 0.006209 -0.06632 0.009501 -0.09672 0.013088 -0.11891 0.016004 -0.2724 0.03601 -0.4440 0.05888 -0.5832 0.07864 -0.7166 0.09977 -0.8615 0.12458 -0.9869 0.15078 -1.1417 0.18643 -1.2774 0.23036 -1.4053 0.28975 -1.4563 0.32808 -1.4798 0.36523 -1.4776 0.45618 -1.4430 0.49521 -1.3312 0.57798 -1.0862 0.68968 -0.9984 0.72064 -0.5985 0.84261 Reference

Source

Boje L.; Hvidt A.: Densities of aqueous mixtures of non-electrolytes. J.Chem.Thermodyn. 3 (1971) 663-673

46





-0.4393 0.05830 -0.9527 0.14600 -1.1891 0.20560 -1.4207 0.30200 -1.4914 0.45970 -1.4106 0.52660 -1.2375 0.61810 -0.8268 0.76990 -0.6726 0.81950 Reference

Source

Noda K.; Ohashi M.; Ishida K.: Viscosities and Densities at 298.15 K for Mixtures of Methanol, Acetone, and Water. J.Chem.Eng.Data 27 (1982) 326-328

47





-0.6700 0.10000 -1.2000 0.20000 -1.4400 0.30000 -1.5000 0.40000 -1.6500 0.50000 -1.3400 0.60000 -1.0500 0.70000 -0.8800 0.80000 -0.4400 0.90000 Reference

Source

Winnick J.; Kong J.: Excess Volumes of Mixtures Containing Polar Liquids. Ind.Eng.Chem. Fundam. 13 (1974) 292-293

48

Furan + ethanol (6 nizova)

Christophe Coquelet, Eric Auger, Alain Valtz. Density and excess volume for four systems involving eugenol and furan. Journal of Solution Chemistry, Springer Verlag (Germany), 2019, 48 (4), pp.455- 488. ff10.1007/s10953-019-00870-6ff.

49

Furan + 1-octanol (6 nizova)


50

Eugenol + 1-octanol (5 nizova)


51

Eugenol + 1-octanol (4 niza)


52

Eugenol + n-hexane (5 nizova)


53

Eugenol + n-hexane (4 niza)


54

Water + diethanolamine (7 nizova) Table 1 . Mole fractions, densities, and excess molar volumes for water (1) + methyldiethanolamine (2, MDEA ) mixtures.

Yadollah Maham, T.T Teng, Alan Mather, Loren G. Hepler, Volumetric properties of (water + diethanolamine) systems, February 2011Canadian Journal of Chemistry 73(9):1514-1519

55

Water + Aminoethylethanolamine (4 niza)

Marcin Stec, Adam Tatarczuk, Dariusz Śpiewak, and Andrzej Wilk, Densities, Excess Molar Volumes, and Thermal Expansion Coefficients of Aqueous Aminoethylethanolamine Solutions at Temperatures from 283.15 to 343.15 K, J Solution Chem. 2014; 43(5): 959–971.

56

n-octane + octan-2-ol (1 niz)

Arvind R. Mahajan and Sunil R. Mirgane, Excess Molar Volumes and Viscosities for the Binary Mixtures of n-Octane, n-Decane, n-Dodecane, and n-Tetradecane with Octan-2-ol at 298.15 K, Volume 2013 |Article ID 571918 | 11 pages | https://doi.org/10.1155/2013/571918

57

n-decane + octan-2-ol (1 niz)


58

n-dodecane + octan-2-ol (1 niz)


59

n-tetradecane + octan-2-ol (1 niz)


60

2-methoxyethanol + propan-2-ol (1 niz)

K. Mohan Krishnan, K. Ramababu, D. Ramachandran, P. Venkateswarlu, G.K. Raman, Excess volumes, speeds of sound and transport properties of mixtures of 2-methoxyethanol with branched and alicyclic alcohols at 303.15 K, Fluid Phase Equilibria, Volume 105, Issue 1, 15 March 1995, Pages 109-118

61

2-methoxyethanol + 2-methylpropan-1-ol (1 niz)


62

2-methoxyethanol + 3-methylbutan-1-ol (1 niz)


63

2-methoxyethanol + butan-2-ol (1 niz)


64

2-methoxyethanol + 2-methylpropan-2-ol (1 niz)


65

2-methoxyethanol + cyclohexanol (1 niz)


66

2-hydroxy ethylammonium butanoate (2-HEAB) + water (2 niza)

R. Rocha Pinto, D. Santos, S. Mattedi, M Aznar, Density, refractive index, apparent volumes and excess molar volumes of four protic ionic liquids + water at T=298.15 and 323.15 K, Brazilian Journal of Chemical Engineering, Braz. J. Chem. Eng. vol.32 no.3 São Paulo July/Sept. 2015

67

2-hydroxy ethylammonium pentanoate (2-HEAP) + water (2 niza)


68

2-hydroxy ethylammonium hexanoate (2-HEAH) + water (2 niza)


69

2-hydroxy diethylammonium hexanoate (2-HDEAH) + water (2 niza)


70

Furfural + benzene (1 niz)

Homendra Naorem, S. K. Suri, Excess molar volumes, speeds of sound, and isentropic compressibilities of binary mixtures of furfural with some aromatic hydrocarbons, CAN. J. CHEM. VOL. 66, 198, 1295-1298

71

Furfural + toluene (1 niz)


72

Furfural + ethylbenzene (1 niz)


73

Furfural + o-xylene (1 niz)


74

Furfural + m-xylene (1 niz)


75

Furfural + p-xylene (1 niz)


76

Methanol + acetonitrile (1 niz)

Ivona R. Grgurić, Aleksandar Ž. Tasić, Bojan D. Djordjević, Mirjana Lj. Kijevčanin and Slobodan P. Šerbanović, Excess molar volume of the acetonitrile + alcohol systems at 298.15 K. Part I: Density measurements for acetonitrile + methanol, + ethanol systems, J.Serb.Chem.Soc. 67(8–9)581–586(2002)

77

n-pentane + difuryl methane (2 niza)

Wilfred Ddamba, Belcher Fulele, Misael Silas Nadiye –Tabbiruka, Densities, Excess and Partial Molar Volumes of (DFM + n-pentane or n-hexane or n-heptane or n-octane) Binary Mixtures at (T = 293.15, 298.15 and 303.15) K and Atmospheric Pressure, Physical Chemistry 2018; 8(1): 13-25, doi:10.5923/j.pc.20180801.02

78

n-hexane + difuryl methane (3 niza)


79

n-heptane + difuryl methane (3 niza)


80

n-octane + difuryl methane (3 niza)


81

Ethanol + acetonitrile (1 niz)

Ivona R. Grgurić, Aleksandar Ž. Tasić, Bojan D. Djordjević, Mirjana Lj. Kijevčanin and Slobodan P. Šerbanović, Excess molar volume of the acetonitrile + alcohol systems at 298.15 K. Part I: Density measurements for acetonitrile + methanol, + ethanol systems, J.Serb.Chem.Soc. 67(8–9)581–586(2002)

82

1-propanol + cyclohexylamine (6 nizova)

Ivona R. Radović, Mirjana Lj. Kijevčanin, Aleksandar Ž. Tasić, Bojan D. Djordjević, and Slobodan P. Šerbanović, Densities and excess molar volumes of alcohol + cyclohexylamine mixtures, J.Serb.Chem.Soc. 74 (11) 1303–1318 (2009)

83

1-pentanol + cyclohexylamine (6 nizova)


84

2-butanol + cyclohexylamine (6 nizova)


85

2-methyl-2-propanol + cyclohexylamine (5 nizova)


86

1-chlorobutane + n-hexane (1 niz)

303,15 K

A. Krishnaiah, D. Nagabhushan Rao and P. Ramachandra Naidu, Excess Volumes for Binary Liquid Mixtures of 1-Chlorobutane with Normal Alkanes, Aust. J. Chem., 1980, 33, 2543-5

87

1-chlorobutane + n-heptane (1 niz)

303,15 K


88

1-chlorobutane + n-octane (1 niz)

303,15 K


89

1-chlorobutane + n-nonane (1 niz)

303,15 K


90

1-butyl-3-methylimidazolium methylsulphate + methanol (tri niza)

Precious N. Sibiya and Nirmala Deenadayalu, Excess Molar Volumes and Partial Molar Volumes of Binary Systems (Ionic Liquid + Methanol or Ethanol or 1-Propanol) at T = (298.15, 303.15 and 313.15) K, S. Afr. J. Chem., 2009, 62, 20–25

91

1-butyl-3-methylimidazolium methylsulphate + ethanol (tri niza)


92

1-butyl-3-methylimidazolium methylsulphate + 1-propanol (tri niza)


93

m-xylene + o-nitrotoluene (4 niza)

P. Nagaraja, C. Narasimha Rao, P. Venkateswarlu, Excess Volumes of Binary Liquid Mixtures of m-xylene with Nitrotoluenes, Indian Journal of Advances in Chemical Science 4(4) (2016) 421-424

94

m-xylene + m-nitrotoluene (4 niza)

(pogrešan naziv spoja u naslovu stupca u tablici) P. Nagaraja, C. Narasimha Rao, P. Venkateswarlu, Excess Volumes of Binary Liquid Mixtures of m-xylene with Nitrotoluenes, Indian Journal of Advances in Chemical Science 4(4) (2016) 421-424

95

glycerol + methanol (2 niza)

Ufuk Sancar Vural, V. Muradoglu and Sedat Vural, Excess molar volumes, and refractive index of binary mixtures of glycerol + methanol and glycerol + water at 298.15 K and 303.15 K, Bull. Chem. Soc. Ethiop. 2011, 25(1), 111-118

96

glycerol + water (2 niza)

Ufuk Sancar Vural, V. Muradoglu and Sedat Vural, Excess molar volumes, and refractive index of binary mixtures of glycerol + methanol and glycerol + water at 298.15 K and 303.15 K, Bull. Chem. Soc. Ethiop. 2011, 25(1), 111-118

97

Anisaldehyde + Nitrobenzene (3 niza)

R. Baskaran, T.R. Kubendran, Viscosity and Excess Volume of Anisaldehyde-Nitrobenzene at 303.15 K, 313.15 K and 323.15 K, Asian Journal of Chemistry Vol. 20, No. 5 (2008), 3381-3386

98

Acetic acid + lauryl methacrylate (1 niz)

Valentyn Serheyev, Densities, excess volumes and partial molar volumes of lauryl methacrylate solutions in some organic solvents, Chemistry & Chemical Technology, Vol. 5, No. 3, 2011, 241-244

99

Dichlorethane + lauryl methacrylate (1 niz)

Valentyn Serheyev, Densities, excess volumes and partial molar volumes of lauryl methacrylate solutions in some organic solvents, Chemistry & Chemical Technology, Vol. 5, No. 3, 2011, 241-244,

100

n-hexane + lauryl methacrylate (1 niz)


101

benzene + lauryl methacrylate (1 niz)


102

water + sulfolane (1 niz)

Yang-Xin Yu, Jian-Gang Liu, and Guang-Hua Gao, Isobaric Vapor-Liquid Equilibria and Excess Volumes for the Binary Mixtures Water + Sulfolane, Water + Tetraethylene Glycol, and Benzene + Tetraethylene Glycol, J. Chem. Eng. Data 2000, 45, 570-574

103

water + tetraethylene glycol (1 niz)


104

benzene + tetraethylene glycol (1 niz)


105

benzonitrile + 1-propanol (1 niz)

J. Karunakar, K. Dayananda Reddy, and M. V. Prabhakara Rao, Excess volumes of a homologous series of aliphatic alcohols with benzonltrlle, J. Chem. Eng. Data 1982, 27, 346-347

106

benzonitrile + 1-butanol (1 niz)


107

benzonitrile + 1-pentanol (1 niz)


108

benzonitrile + isopropyl alcohol (1 niz)


109

benzonitrile + isobutyl alcohol (1 niz)


110

benzonitrile + isopentyl alcohol (1 niz)


111

Methyl benzoate + 1,4-dioxane (jedan niz)


112

Methyl benzoate + anisole (tri niza)


113

Methyl benzoate + butyl vinyl ether (tri niza)


acetyl acetone + 1-butanol (3 niza) · 2020. 4. 11. · 1,4 dioxane + ethyl benzene (1 niz) table...

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