Suji (.) leaves are a prominent source of chlorophyll and well-known for their ability to produce green color for food ingredients. However, chlorophyll is suspectible to color degradation at high temperature. Color degradation occurred because loses magnesium in its ring and it can be avoided by adding zinc. The aim of this work was to investigate the combined effect of independent variables on chlorophyll extraction process using ZnCl as a stabilizer. Suji leaves were blanched with boiling water for 2 min, Zn-chlorophyll synthesis was done by varying concentration of ZnCl, Zn-chlorophyll extraction with ethanol, and UV-Vis spectrophotometry analysis of the final extracted solutions. A full three-level factorial design under response surface methodology was used to obtain the optimum condition of extraction process. The experimental data were analyzed by analysis of variance and fitted with second order polynomial equation. The coefficient of determination (R) was found to be 81.99%. The optimum operating conditions were obtained at pH 7, ZnCl concentration of 700 ppm and temperature of 85 °C with desirability value of 1.0000. At the optimum conditions, the total chlorophyll content (TCC) was found to be 47.2975 mg/100 g fresh weight.
In facing the scarcity of sulfide nickel ore, processing nickel laterite to form nickel pig iron becomes an important issue. Also, Indonesia inherits 10% of nickel laterite in the world, assigning as the third biggest country of nickel laterite possession in the world. Nickel pig iron is one of nickel products involving massive high-grade metallurgical coke consumption that is commonly being used as stainless steels. Consequently, high amount of carbon dioxide is also produced in this process. And so, substituting of the coke using bioreductor material – in this study, Coconut Shell Charcoal – is important.
The study is done by conducting several variables. The reductors used were Coconut Shell Charcoal and Anthracite Coal. The process was conducted in 800°C and 1000°C, in a muffle furnace, and between 15 to 240 minutes of reduction time.
Results from all reductors show that higher temperature indicates a better reduction process. Moreover, X-Ray Powder Diffraction (XRD) analysis data shows that there is no significant difference in the final product between two reductors. By replacing metallurgical coke using bioreductor, the carbon emission in the process can be reduced. Hence, providing a better process and environment to the next generation.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.