1. bookVolume 25 (2012): Edition 1 (February 2012)
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eISSN
2719-9509
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01 Jan 1992
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Headspace Volumetric Karl Fischer Titration for the Determination of Water Content in Finished Tobacco Products

Publié en ligne: 30 Dec 2014
Volume & Edition: Volume 25 (2012) - Edition 1 (February 2012)
Pages: 350 - 359
Reçu: 02 Mar 2011
Accepté: 22 Feb 2012
Détails du magazine
License
Format
Magazine
eISSN
2719-9509
Première parution
01 Jan 1992
Périodicité
4 fois par an
Langues
Anglais

1. Leffingwell, J.C.: Leaf Chemistry; in: Tobacco: Pro-duction, Chemistry and Technology; edited by D.L. Davis and M.T. Nielsen, Blackwell Science, World Agriculture Series, Oxford, 1999, pp. 265–284.Search in Google Scholar

2. Banyasz, J.L.: The Thermodynamics of Tobacco-Wa-ter Interactions; Beitr. Tabakforsch. Int. 18 (1999) 189–204.Search in Google Scholar

3. Walton, L.R., M.E. Casada, W.H. Henson, J.H. Casada, and L.D. Swetnam: Drying Rates of Intact Burley Tobacco Plant Components; Transactions of the ASAE (1984) 219–221.Search in Google Scholar

4. Babbitt, J.D.: Observation on the adsorption of water vapour by wheat; Can. J. Res. 27 (1949) 55–72.Search in Google Scholar

5. Miyauchi, M., A. Miyake, and Y. Nakanishi: Charac-teristics of water adsorption isotherms for materials contained in a box of a tobacco product; Dry. Technol. 13 (1995) 351–370.Search in Google Scholar

6. Menkov, N.D. and K.T. Dinkov: Moisture Sorption Isotherms of Tobacco Seeds at Three Temperatures; J. Agr. Eng. Res. 74 (1999) 261–266.Search in Google Scholar

7. Nakanishi, Y.: Physical Properties of Leaf Tobacco; in: Tobacco Production, Chemistry and Technology, edited by D.L. Davis and M.T. Nielsen, Blackwell Science, World Agriculture Series, Oxford, 1999, pp. 313–319.Search in Google Scholar

8. International Organisation for Standardization (ISO): ISO 6488:1981 Tobacco - Determination of water content (Reference method); ISO, Geneva, Switzer-land, 1981.Search in Google Scholar

9. Brunnemann, K.D., J. Qi., and D. Hoffmann: Chemical profile of two types of oral snuff tobacco; Food Chem. Toxicol. 40 (2002) 1699–1703.Search in Google Scholar

10. Arany, S. and G. Erdei: Applicability of standardized methods for the determination of moisture content, with particular respect to tobacco treated with moisturizing agents and tobacco foils; Elelmiszervizsgalati 29 (1983) 47–57.Search in Google Scholar

11. Djordjevic, M.V., D. Hoffmann, T. Glynn, and G.N. Connolly: US commercial brands of moist snuff, 1994. I. Assessment of nicotine, moisture, and pH; Tob. Control 4 (1995) 62–66.Search in Google Scholar

12. Waltz, P. and M. Haeusermann: Determination of the Tobacco Humidity Comparison of the Azeotropic Benzene Distillation with Oven Drying (Zur Bestimmung der Feuchtigkeit im Tabak: Vergleich zwischen der Azeotropen Destillation mit Benzol und der Trocknung im Ofen); Beitr. Tabakforsch. 1 (1962) 343–346.Search in Google Scholar

13. von Bethmann M., G. Lipp, and H. van Nooy: Estimation of Moisture Content of Tobacco (Feuchtigkeits-bestimmung im Tabak); Beitr. Tabakforsch. 1 (1961) 19–29.Search in Google Scholar

14. Results of a Collaborative Examination on the Water Content of Tobacco (Ergebnisse der Ringuntersuchung zur Feuchtigkeitsbestimmung); Beitr. Tabakforsch. 1 (1962) 337–341.Search in Google Scholar

15. Casada, M.E. and L.R. Walton: Tobacco Moisture Content Determination by Microwave Heating; Trans-actions of the ASAE (1985) 307–309.Search in Google Scholar

16. Fryd, C.F.M. and P.R. Kiff: The determination of moisture in tobacco; Analyst 76 (1951) 25–32.Search in Google Scholar

17. CORESTA Recommended Method 56: Determination of water in tobacco and tobacco products by Karl Fischer method; 2002.Search in Google Scholar

18. International Organisation for Standardization (ISO): ISO 6488:2004 Tobacco and tobacco products - Deter-mination of water content - Karl Fischer method; ISO, Geneva, Switzerland, 2004.Search in Google Scholar

19. CORESTA Recommended Method 57: Determination of Water in Tobacco and Tobacco Products by Gas Chromatographic Analysis; (2002).Search in Google Scholar

20. Kestens, V., P. Conneely, and A. Bernreuther: Vapori-sation coulometric Karl Fischer titration. A perfect tool for water content determination of difficult matrix reference materials; Food Chem. 106 (2008) 1454–1459.Search in Google Scholar

21. Barron, L.J.R., Y. Redondo, M. Ortigosa, M. Carbonell, S. Garcia, P. Torre, M. De Renobales, and E. Fernandez-Garcia: Comparison of dynamic headspace methods used for the analysis of the volatile composition of Spanish PDO ewe's raw milk cheeses; Lait 85 (2005) 491–513.Search in Google Scholar

22. Mehinagic, E., C. Prost, and M. Demaimay: Optimization of extraction of apple aroma by dynamic headspace and influence of saliva on extraction of volatiles; J. Agric. Food Chem. 52 (2004) 5175–5182.Search in Google Scholar

23. Hinz, D.C.: Evaluation of methods for the determination of water in substances with unknown chemical and thermal behavior; J. Pharmaceut. Biomed. 43 (2007) 779–783.Search in Google Scholar

24. Supartono, W. and H.D. Isengard: Combination of Karl Fischer titration with drying oven as an alternative method to determine the water content in corian-der; Adv. Food Sci. 19 (1997) 47–50.Search in Google Scholar

25. Schöffski, K.: New Karl Fischer reagents for the water determination in food; Food Control 12 (2001) 427–429.Search in Google Scholar

26. International Organisation for Standardization (ISO): ISO 5725-1:1994 Accuracy (trueness and precision) of measurement methods and results - Part 1: General principles and definitions; ISO, Gneneva, Switzerland, 1994.Search in Google Scholar

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