Antioxidant Potential of Zingiber officinale Rhizome and Fagara zanthoxyloides Root Extracts and their Application in Soybean oil During Accelerated Storage

implication of synthetic antioxidants is the reason for the current intensive search for safer natural antioxidants. Hence, the total phenolic content and 2,2-diphenyl-1-picryhydrazyl (DPPH) radical scavenging activity of Fagara zanthoxyloides root and Zingiber officinale rhizome have been comparatively evaluated. Zingiber officinale cold extract (GC) exhibited highest DPPH scavenging activity as well as the highest TPC while the hot extract from Fagara zanthoxyloides root (FH) had more phenolic content than its cold counterpart. Consequently, the anti-oxidative potential of refined soybean oil fortified with GC and FH was investigated at 65˚C (accelerated storage temperature) for a lenght of 24 days. Established indicators such as peroxide, p-anisidine and total oxidation value (TOTOX) were used to monitor the extent of lipid deterioration with butylated hydroxyanisole (BHA) as the positive control. Generally, GC was more effective in stabilizing the soybean oil. After 24 days of storage, soybean oil fortified with GC, FH and BHA achieved 68.58%, 57.50% and 67.56% retardation in the formation of primary oxidation products respectively. The lowest TOTOX (146.38) value was also observed in GC supplemented oil, suggesting that GC could be effectively employed as a replacement for BHA in soybean oil preservation. Hence, extracts from Zingiber officinale rhizome and Fagara zanthoxyloides roots can be explored as sources of natural antioxidants for application in the food industry. Keywords: Ginger, Fagara zanthoxyloides, Soybean oil, Antioxidants, Preservation

Novel acid treated biomass: Applications in Cu2+ scavenging, Rhodamine B/Cu binary solution and real textile effluent treatment

A novel adsorbent prepared from the waste of Irvingia gabonensis nut (ADN) was used for scavenging of Cu2+ from aqueous solution. Various adsorption operational parameters were investigated in order to establish the behavior of ADN before further studies. The efficacy of ADN in concurrent removal of rhodamine B (RhB) dye and Cu in a binary solution of RhB/Cu2+ was also investigated. Finally the potency of ADN in the treatment of real textile effluent was ascertained. Optimum adsorption of Cu2+ occurred at pH of 5.5 and high temperature favoured Cu removal. Pseudo second order kinetic best described the uptake of Cu2+ onto ADN. Maximum monolayer adsorption capacity was obtained to be 103.09 mg/g. The Dubinin Radushkevich (D-R) isotherm as well as thermodynamic parameter suggests that adsorption of Cu2+ onto ADN was chemical in nature. Percentage removal of Cu2+ in single solution at optimum time was 94.70 % while synergistic effect of RhB moved this to 99.54 % removal in the binary solution. ADN was highly efficient for the removal of dye and other organic pollutants in the real textile effluent with 100 % removal of some organic pollutant

Novel acid treated biomass: Applications in Cu2+ scavenging, Rhodamine B/Cu2+ binary solution and real textile effluent treatment

A novel adsorbent prepared from the waste of Irvingia gabonensis nut (ADN) was used for scavenging of Cu2+ from aqueous solution. Various adsorption operational parameters were investigated in order to establish the behavior of ADN before further studies. The efficacy of ADN in concurrent removal of rhodamine B (RhB) dye and Cu2+ in a binary solution of RhB/Cu2+ was also investigated. Finally the potency of ADN in the treatment of real textile effluent was ascertained. Optimum adsorption of Cu2+ occurred at pH of 5.5 and high temperature favored Cu2+ removal. Pseudo second order kinetic best described the uptake of Cu2+ onto ADN. Maximum monolayer adsorption capacity was obtained to be 103.09 mg/g. The Dubinin Radushkevich (D-R) isotherm as well as thermodynamic parameter suggests that adsorption of Cu2+ onto ADN was chemical in nature. Percentage removal of Cu2+ in single solution at optimum time was 94.70 % while synergistic effect of RhB moved this to 99.54 % removal in the binary solution. ADN was highly efficient for the removal of dye and other organic pollutants in the real textile effluent with 100 % removal of some organic pollutant