Hier werden die Unterschiede zwischen zwei Versionen angezeigt.
Beide Seiten der vorigen Revision Vorhergehende Überarbeitung Nächste Überarbeitung | Vorhergehende Überarbeitung Nächste Überarbeitung Beide Seiten der Revision | ||
citrus_latifolia_tanaka [2015/07/21 22:37] andreas |
citrus_latifolia_tanaka [2017/11/20 16:50] andreas |
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The major component of //lime peel oil// is limonene (40-45%), followed by [[http:// | The major component of //lime peel oil// is limonene (40-45%), followed by [[http:// | ||
- | [Volatile Components of Peel and Leaf Oils of Lemon and Lime Species. Marie-Laure Lota, Dominique de Rocca Serra, Felix Tomi, Camille Jaquemond, Joseph Casanova, J. Agric. Food Chem. 2002, 50, 796−805] | + | [Volatile Components of Peel and Leaf Oils of Lemon and Lime Species. Marie-Laure Lota, Dominique de Rocca Serra, Felix Tomi, Camille Jaquemond, Joseph Casanova, J. Agric. Food Chem. 2002, 50, 796−805] |
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CO2 extraction: d-limonene 48.9%, γ-terpinene 17.0%, β-pinene 14.5%, geranial 1.1%, neral 0.7%, α-terpineol 0.4%, β-bisabolene 3.3%, α-pinene 2.7%, sabinene 2.2%, myrcene 1.4%, cis-α-bergamotene 1.2% | CO2 extraction: d-limonene 48.9%, γ-terpinene 17.0%, β-pinene 14.5%, geranial 1.1%, neral 0.7%, α-terpineol 0.4%, β-bisabolene 3.3%, α-pinene 2.7%, sabinene 2.2%, myrcene 1.4%, cis-α-bergamotene 1.2% | ||
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- | Hydrodistillation gives fewer non-oxygenated compounds (81.2% vs. 93.3%) and more oxygenated (17.0% vs. 3.3%) and more citral (11.1% vs. 1.8%) than CO2 extraction (extracted from table)." | + | Hydrodistillation gives fewer non-oxygenated compounds (81.2% vs. 93.3%) and more oxygenated (17.0% vs. 3.3%) and more citral (11.1% vs. 1.8%) than CO2 extraction (extracted from table)." |
+ | [Extraction of Essential Oils from Lime (Citrus latifolia Tanaka) by Hydrodistillation and Supercritical Carbon Dioxide. Ana Cristina Atti-Santos, | ||
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