Bioprospecting microwave-alkaline hydrolysate cocktail of defatted soybean meal and jackfruit peel biomass as carrier additive of molasses-alginate-bead biofertilizer

The extraction of soluble hydrolysate protein and sugar from a biomass cocktail of defatted soybean meal (DSM) and jackfruit peel (JP) was examined using microwave-alkaline hydrolysis by varying the NaOH concentrations (0.04–0.11 M) and residence times (2–11 min). Based on the central composite design, the optimized parameters were achieved at 0.084 M NaOH concentration (100 mL), for 8.7 min at 300 W microwave power level to obtain the highest protein (5.31 mg/mL) and sugar concentrations (8.07 mg/mL) with > 75% recovery. Both raw and detoxified hydrolysate (using activated carbon) were correspondingly biocompatible with Enterobacter hormaechei strain 40a (P > 0.05) resulting in maximal cell counts of > 10 log CFU/mL. The optimized hydrolysate was prepared as an additive in molasses-alginate bead encapsulation of strain 40a. Further evaluation on phosphate and potassium solubilization performance of the encapsulated strain 40a exhibited comparable results with those of free cell counterpart (P > 0.05). The DSM-JP hydrolysate cocktail holds potential as a carrier additive of encapsulated-cell bead biofertilizers in order to sustain bacterial cell quality and consequently improve crop growth and productivity.

Photo-Fenton process of oxidative destruction of rice husk alkaline hydrolysates lignin

The present work studies the destruction of a silica-free solution of alkaline hydrolysate of rice husk (pH 7.25, COD = 22.8O g·L−1) using the photo-Fenton process in the UV layer at a wavelength of 365 nm. Oxidation of lignin was carried out at a constant mass ratio of COD:H2O2 = 1:2 in the solutions with different dilution times (1:10, 1:50) and with varying iron(II) concentrations in the range from 10 to 100 mg·L−1. It was established that the oxidative degradation of alkaline lignin effectively proceeds in the UV layer when the solution is diluted 50 times, at an iron(II) concentration from 50 to 70 mg·L−1. Color, the content of polyphenols and chemical oxygen demand in the silica-free solution with a dilution ratio of 1:50, after oxidation, is reduced by several tens of times. The products of lignin degradation were identified using gas chromatography.

Amorphous Silica Produced from Pulping of Rice Husk

This paper covers the results of the research devoted to characterize of silica dioxide samples obtained from alkaline hydrolysate or black liquor produced from pulping of rice husk. The paper discusses amorphous silica of various quality. Silica samples are characterized: crude (air-dried); burnt (no preliminary water treatment); washed in distilled water; washed in distilled water and burnt.