Abstract
Atmospheric pressure plasma jet (APPJ) was investigated as an alternative to chemical and thermal treatments for reducing aflatoxin (AFT) levels on peanuts. Kernels were inoculated with Aspergillus flavus to produce AFTs. They were then treated using two APPJ treatment regimens; constant exposure (for 1 and 2 min), and pneumatically agitated exposure in a conveyored channel for up to 5 min. Quality was assessed via, peroxide value, free fatty acid content, acidity value, oxidative stability index, and through sensory panel evaluation. After 2 min of constant APPJ treatment, AFTs were reduced from 62.3 to 48.2 ppb (23% reduction), with a corresponding change in temperature (ΔT −24 to 92°C) of treated sample. After 5 min of agitated treatment, AFT concentration was reduced from 64.14 to 39.6 ppb (38% reduction) with a ΔT (24–78°C) of treated sample. APPJ compares favorably to other AFTs reduction techniques in time and product quality. Few changes were observed in all quality indices, this suggests Atmospheric pressure plasma jet (APPJ) was investigated as an alternative to chemical and thermal treatments for reducing aflatoxin (AFT) levels on peanuts. Kernels were inoculated with Aspergillus flavus to produce AFTs. They were then treated using two APPJ treatment regimens; constant exposure (for 1 and 2 min), and pneumatically agitated exposure in a conveyored channel for up to 5 min. Quality was assessed via, peroxide value, free fatty acid content, acidity value, oxidative stability index, and through sensory panel evaluation. After 2 min of constant APPJ treatment, AFTs were reduced from 62.3 to 48.2 ppb (23% reduction), with a corresponding change in temperature (ΔT −24 to 92°C) of treated sample. After 5 min of agitated treatment, AFT concentration was reduced from 64.14 to 39.6 ppb (38% reduction) with a ΔT (24–78°C) of treated sample. APPJ compares favorably to other AFTs reduction techniques in time and product quality. Few changes were observed in all quality indices, this suggests APPJ is a viable approach Atmospheric pressure plasma jet (APPJ) was investigated as an alternative to chemical and thermal treatments for reducing aflatoxin (AFT) levels on peanuts. Kernels were inoculated with Aspergillus flavus to produce AFTs. They were then treated using two APPJ treatment regimens; constant exposure (for 1 and 2 min), and pneumatically agitated exposure in a conveyored channel for up to 5 min. Quality was assessed via, peroxide value, free fatty acid content, acidity value, oxidative stability index, and through sensory panel evaluation. After 2 min of constant APPJ treatment, AFTs were reduced from 62.3 to 48.2 ppb (23% reduction), with a corresponding change in temperature (ΔT −24 to 92°C) of treated sample. After 5 min of agitated treatment, AFT concentration was reduced from 64.14 to 39.6 ppb (38% reduction) with a ΔT (24–78°C) of treated sample. APPJ compares favorably to other AFTs reduction techniques in time and product quality. Few changes were observed in all quality indices, this suggests APPJ is a viable approach for peanut aflatoxin treatment. peanut aflatoxin treatment.APPJ is a viable approach for peanut aflatoxin treatment.