Botanical and geographical origin identification of industrial ethanol by stable isotope analyses of C, H, and O
2005
Ishida Fujii, K.(New Energy and Industrial Technology Development Organization, Chiba (Japan)) | Goto, S. | Uemura, R. | Yamada, K. | Sato, M. | Yoshida, N.
The isotope ratios of carbon, hydrogen, and oxygen of rectified alcohols were determined to distinguish their botanical and geographical origins by continuous flowisotope ratio mass spectrometry (CF-IRMS). The sup(13)C/ sup(12)C and sup(18)O/sup(16)O ratios of 27 fermented alcohols with known origins showed clusters derived from each botanical origin, viz. corn, sugarcane, wheat, and tapioca. C3 and C4 plants were easily distinguishable by the sup(13)C/ sup(12)C ratio. Sugarcane and corn are both C4 plants, and they showed small differences in isotope ratios. The combination plots of the D/H and sup(18)O/sup(16)O ratios enabled us to designate the geographical origins of alcohol derived from the same kind of crop, such as Chinese or American corn. The chemically synthetic and fermented alcohols were clearly distinguished by D/H and sup(18)O/sup(16)O ratios. Isotope ratios were useful for origin identification of alcohol. We plan to construct a database of alcohol isotope ratios to determine the origins of raw materials in alcohol.
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