Sunita Adhikari scite author profile

The study was conducted on lotus rhizomes to find the kinetics of drying and ultrasound‐assisted extraction process of antioxidant, energy‐economic, quality parameters, and phytochemicals, under different drying processes. Midlli et al. model was found the best‐fitted drying model with a low SSerror (0.0145–0.0088), RMSE (0.02 to 0.005), and highest R2 (0.999 to 0.992) value. The energy consumption cost (1518.33 Rs) is high in tray dryers and low in microwave dryers (28.68 Rs). The vacuum‐dried lotus rhizomes had a high content of total phenolics of 78.364 mg/g, flavonoids of 10.819 mg/g (dm) content, DPPH of 74.621 μmol/g, ABTS of 104.36 μmol/g, and FRAP of 108.312 μmol/g. Low hardness (12.642 N), resilience (0.468), and high whiteness (61.158) were observed in freeze‐dried rhizomes. Microwave and vacuum drying were showing a short time drying process with better energy economy as well as higher antioxidant content, but quality parameters are best for a freeze‐drying product. Novelty impact statement The use of waste parts of plants as a source of functional food requires intensive study. Lotus rhizomes are edible and can have a vast range of applications in the food and pharmaceutical industries. The novelty of this study is that it explores different drying methods of lotus rhizomes and makes a comparative analysis of these methods based on their costs and effects. In addition, it also discusses the extraction of both free and bound phenolic compounds. The extraction of bound phenolic compounds increases the antioxidant content of the samples. Physicochemical properties (texture and color) of lotus rhizomes are also discussed in detail.

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Biosorption of Malathion by dry cells of an isolated Bacillus sp. S₁₄

Adhikari

Chattopadhyay

Ray

2010

Chemical Speciation & Bioavailability

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The removal of Malathion, a moderately toxic organophosphate pesticide causing environmental pollution, from dilute aqueous solutions was studied. The experimental results showed that the dry cells of Bacillus sp. S 14 were effective in removing Malathion from solution. Biosorption equilibrium was attained within 6 h. Maximum biosorption of Malathion (81.4%) was observed under the following environmental conditions, pH 6.5, temperature 25 C, dry biomass concentration 1 g L À 1 at 6 h. Both Langmuir and Freundlich isotherms were tested and the latter had a better fit with the data. The dried powdered cells of Bacillus sp. S 14 can be safely stored for 60 days at room temperature without any loss of biosorption efficiency. The results suggest that the dry cells of the isolated Bacillus sp. S 14 can be used as a biosorbent for an efficient removal of Malathion from aqueous solutions.

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Biosorption of an azo dye Reactive Blue 4 from aqueous solution using dead and CMC immobilized biomass of Rhizopus oryzae (MTCC 262)

Bagchi

Bera

Adhikari

2021

Bioremediation Journal

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Application of Immobilized Enzymes in the Food Industry

Adhikari

2019

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Bioremediation of Wastewater Using Microalgae

Das

Adhikari

Kundu³

2019

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Sunita Adhikari

Effect of different drying methods on drying kinetics, modeling, energy‐economic, texture profile, color, and antioxidant of lotus rhizomes ( Nelumbo nucifera )

Biosorption of Malathion by dry cells of an isolated Bacillus sp. S₁₄

Biosorption of an azo dye Reactive Blue 4 from aqueous solution using dead and CMC immobilized biomass of Rhizopus oryzae (MTCC 262)

Application of Immobilized Enzymes in the Food Industry

Bioremediation of Wastewater Using Microalgae

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About

Sunita Adhikari

Effect of different drying methods on drying kinetics, modeling, energy‐economic, texture profile, color, and antioxidant of lotus rhizomes ( Nelumbo nucifera )

Biosorption of Malathion by dry cells of an isolated Bacillus sp. S14

Biosorption of an azo dye Reactive Blue 4 from aqueous solution using dead and CMC immobilized biomass of Rhizopus oryzae (MTCC 262)

Application of Immobilized Enzymes in the Food Industry

Bioremediation of Wastewater Using Microalgae

Contact Info

Product

Resources

About

Biosorption of Malathion by dry cells of an isolated Bacillus sp. S₁₄