US EPA

1113092 

Journal Article 

Determination of Inorganic Salt Solubility at a Temperature above the Boiling Point of Water by Multiple Headspace Extraction Gas Chromatography 

Chai, XS; Verrill, CL 

2011 

Yes 

Industrial and Engineering Chemistry Research
ISSN: 0888-5885
EISSN: 1520-5045 

50 

10 

6413-6417 

English 

10.1021/ie1015816 

WOS:000290373200056 

https://www.scopus.com/inward/record.uri?eid=2-s2.0-79955900114&doi=10.1021%2fie1015816&partnerID=40&md5=c20159e1731b5e6da9c2dfdf022d968c
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This paper describes a novel method for the determination of the solubility of sodium carbonate and sodium sulfate in single- and bisalt aqueous solutions at 110 degrees C, using multiple headspace extraction gas chromatography (MHE-GC). Both benzene alcohol and methanol were used as the tracer compounds whose vapor-liquid equilibrium (VLE) partition coefficients (C-V/C-L) are related to the concentration of salt in the studied solution, thereby indirectly providing solubility data. During the MHE process, small amounts of water are removed stepwise by a series of headspace vapor extractions, which simulates the evaporation process, resulting in an increase in the salt concentration in the solution and a decrease in the amount of tracer in the headspace vapor. Eventually, the salt concentration reaches saturation (the limit of solubility), a transition point that can be identified experimentally via GC, because of the different behaviors of the tracer loss before and after the salt saturation point. Knowing the salt concentration in the initial solution and gathering data on the amount of water lost in reaching the transition point, we calculated the solubilities of sodium sulfate and sodium carbonate at 110 degrees C as 30.6 and 31.9 wt %, respectively, which are in good agreement with data reported previously, using more-complex conventional methods. The method reported here has several advantages, including its simplicity and ease of automation.