Effect of Fermentation on Cyanide and Ethyl Carbamate Contents in Cassava Flour and Evaluation of Their Mass Balance during Lab-Scale Continuous Distillation

• Main Authors: Yan Qin, Beibei Duan, Jung-Ah Shin, Hee-Jin So, Eun-Sik Hong, Hee-Gon Jeong, Jeung-Hee Lee, Ki-Teak Lee
• Format: Article
• Language: English
• Published: MDPI AG 2021-05-01
• Series: Foods
• Subjects: cassava flour; cyanide; ethyl carbamate; distillation; copper chips; mass balance
• Online Access: https://www.mdpi.com/2304-8158/10/5/1089
• ISSN: 2304-8158

When cassava is used for the production of distilled spirits through fermentation and distillation, toxic hydrogen cyanide (<i>HCN</i>) is released from linamarin and carcinogenic ethyl carbamate is produced. Herein, cyanide and ethyl carbamate contents were monitored during the fermentation and lab-scale continuous distillation processes. Thereafter, mass balance and the influence of copper chips were evaluated. Results showed that 81.5% of cyanide was removed after fermentation. Use of copper chips completely prevented the migration of cyanide into the distilled spirits, while 88.3% of cyanide migrated from the fermented liquid in the absence of copper chips. Formation of ethyl carbamate was significantly promoted during distillation. Most of the produced ethyl carbamate (73.2%) was transferred into the distilled spirits in the absence of copper chips, only 9.6% of the ethyl carbamate was transferred when copper chips were used. Thus, copper chips effectively prevented the migration of cyanide and ethyl carbamate into the distilled spirts during continuous distillation.