Chem. J. Chinese Universities ›› 2016, Vol. 37 ›› Issue (9): 1716.doi: 10.7503/cjcu20160037
• Physical Chemistry • Previous Articles Next Articles
WEI Bing, CUI Yu, MA Shoutao, YANG Quanning, SUN Guoxin*()
Received:
2016-01-15
Online:
2016-09-10
Published:
2016-08-17
Contact:
SUN Guoxin
E-mail:chm_sungx@ujn.edu.cn
Supported by:
CLC Number:
TrendMD:
WEI Bing, CUI Yu, MA Shoutao, YANG Quanning, SUN Guoxin. Extraction Interfacial Properties of La3+ from HNO3 System with TODGA†[J]. Chem. J. Chinese Universities, 2016, 37(9): 1716.
Fig.1 Schematic diagram of drop volume device a. Drop volume tube; b. sample tube; c. rubber plug with a groove; d. sample tube rack; e. glass thermostatic water bath; f. injection line; g. syringe; h. trace injection pump; i. retort stand
Fig.2 Effect of droplet formation time on the interfacial tension c L a 3 + =1×10-3 mol/L; c HN O 3 =1 mol/L; c NaN O 3 =1 mol/L; T=298 K. c(TODGA)/(mol·L-1): a. 0; b. 0.01; c. 0.05; d. 0.10; e. 0.15; f. 0.20.
Fig.6 Effect of extractant concentration on the interfacial tension with different types of diluents c L a 3 + =1×10-3 mol/L; c HN O 3 =1 mol/L; c NaN O 3 =1 mol/L; T=298 K; t=150 s. a. TODGA/octane; b. TODGA/cyclohexane; c. TODGA/benzene;d. TODGA/toluene.
Fig.7 Effect of temperature on the interfacial tension c L a 3 + =1×10-3 mol/L; c HN O 3 =1 mol/L; c NaN O 3 =1 mol/L; t=150 s. (A) a. Octane; b. 0.01 mol/L TODGA/octane.(B) a. Benzene; b. 0.1 mol/L TODGA/benzene.
Fig.8 Effect of HNO3 concentration on the interfacial tension with 0.1 mol/L TODGA/octane c L a 3 + =1×10-3 mol/L; c NaN O 3 =1 mol/L; T=298 K; t=150 s.
Fig.9 Effect of NaNO3 concentration on the interfacial tension with 0.1 mol/L TODGA/octane c L a 3 + =1×10-3 mol/L; c HN O 3 =1 mol/L; T=298 K; t=150 s.
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