Purpose: To optimize the extraction process of vitamin C from durian endocarp, and to determine the content of vitamin C in durian endocarp with high performance liquid chromatography (HPLC). Method: Optimize ultrason...Purpose: To optimize the extraction process of vitamin C from durian endocarp, and to determine the content of vitamin C in durian endocarp with high performance liquid chromatography (HPLC). Method: Optimize ultrasonic extraction conditions by L9 (4<sup>3</sup>) orthogonal experiment by using octadecylsilane chemically bonded silica as the stationary phase, using methanol (A): 0.1% oxalic acid (B) = 5:95 (V/V) as the mobile phase, setting the flow rate as 1.0 mL/min, and setting the wavelength as 254 nm for assay. Result: The optimal extraction process is as follows: the material-liquid ratio is 1:12, the extraction solvent is 2% oxalic acid aqueous solution, and the extraction time is 30 min;Vitamin C has a good linearity within the concentration range of 5.4 - 108.0 mg·mL<sup>-1</sup>, and the regression equation is y = 37698x - 61035 (R<sup>2</sup> = 0.9996);the average recovery rate is 99.03%, the instruments are of high precision with good stability. Conclusion: This extraction process performs well in simplicity, costs and extraction efficiency, which may accelerate the development and utilization of vitamin C extraction from durian endocarp, and provide references to relevant studies and practices.展开更多
The exponential growth of agricultural wastes such as Balanite seed pod has resulted in waste management issues and finding alternatives through waste recycling is an interesting area of research.Balanite seed pods we...The exponential growth of agricultural wastes such as Balanite seed pod has resulted in waste management issues and finding alternatives through waste recycling is an interesting area of research.Balanite seed pods were collected in Yobe state,washed,dried,crushed.Balanite endocarp pod ash(BEPA)was calcined at 600°C for 3 hours in a muffle furnace and the biomass was characterized with X-ray fluorescence spectrometer to determine its chemical composition.The analysis showed that the ash composed of silica,alumina and ferric oxide(74.24 wt.%)indicated a strong pozzolan based on American Standard.The BEPA possessed a high loss on ignition of 8.24 wt.%owing to the presence of unburnt carbon in the ash.The ash obtained was sieved with 75µm sieve and cement was replaced with ash between 2.5 wt.%~12.5 wt.%at interval of 2.5 wt.%to assess its impact on cement properties such as setting time,consistence,mortar strength and water absorption.Results showed that as percentage replacement increases,the water absorption increased while the mortar strength diminished whereas as the curing days progressed its strength improved despite clinker diminution due to cement hydration.60 days strength for below 10 wt.%BEPA cement blend produced enhanced strength compared with control which is evidence of slow pozzolanic reactions.The optimum percentage replacement with BEPA was obtained at 7.5 wt.%replacement beyond which significantly affected the cement properties especially its strength.It could be agreed that BEPA has potentials to be considered and employed as a cement replacement material.展开更多
文摘Purpose: To optimize the extraction process of vitamin C from durian endocarp, and to determine the content of vitamin C in durian endocarp with high performance liquid chromatography (HPLC). Method: Optimize ultrasonic extraction conditions by L9 (4<sup>3</sup>) orthogonal experiment by using octadecylsilane chemically bonded silica as the stationary phase, using methanol (A): 0.1% oxalic acid (B) = 5:95 (V/V) as the mobile phase, setting the flow rate as 1.0 mL/min, and setting the wavelength as 254 nm for assay. Result: The optimal extraction process is as follows: the material-liquid ratio is 1:12, the extraction solvent is 2% oxalic acid aqueous solution, and the extraction time is 30 min;Vitamin C has a good linearity within the concentration range of 5.4 - 108.0 mg·mL<sup>-1</sup>, and the regression equation is y = 37698x - 61035 (R<sup>2</sup> = 0.9996);the average recovery rate is 99.03%, the instruments are of high precision with good stability. Conclusion: This extraction process performs well in simplicity, costs and extraction efficiency, which may accelerate the development and utilization of vitamin C extraction from durian endocarp, and provide references to relevant studies and practices.
文摘The exponential growth of agricultural wastes such as Balanite seed pod has resulted in waste management issues and finding alternatives through waste recycling is an interesting area of research.Balanite seed pods were collected in Yobe state,washed,dried,crushed.Balanite endocarp pod ash(BEPA)was calcined at 600°C for 3 hours in a muffle furnace and the biomass was characterized with X-ray fluorescence spectrometer to determine its chemical composition.The analysis showed that the ash composed of silica,alumina and ferric oxide(74.24 wt.%)indicated a strong pozzolan based on American Standard.The BEPA possessed a high loss on ignition of 8.24 wt.%owing to the presence of unburnt carbon in the ash.The ash obtained was sieved with 75µm sieve and cement was replaced with ash between 2.5 wt.%~12.5 wt.%at interval of 2.5 wt.%to assess its impact on cement properties such as setting time,consistence,mortar strength and water absorption.Results showed that as percentage replacement increases,the water absorption increased while the mortar strength diminished whereas as the curing days progressed its strength improved despite clinker diminution due to cement hydration.60 days strength for below 10 wt.%BEPA cement blend produced enhanced strength compared with control which is evidence of slow pozzolanic reactions.The optimum percentage replacement with BEPA was obtained at 7.5 wt.%replacement beyond which significantly affected the cement properties especially its strength.It could be agreed that BEPA has potentials to be considered and employed as a cement replacement material.