Enhanced Removal of Methylene Blue Dye by Sustainable Biochar Derived from Rice Straw Digestate

Abstract: The bioconversion of biomass-based feedstocks to carbonaceous adsorbents is considered a cost-effective and environmentally friendly route for pollutant removal from wastewater. This study focused on preparing biochar from the pyrolysis of digestate of anaerobically processed rice straw, namely digested rice straw biochar (DRSB). The DRSB material was employed as an adsorbent to eliminate methylene blue (MB) from aqueous solutions. The adsorption mechanism was illustrated regarding DRSB characterization via Sc… Show more

“…55 The interaction mechanisms reported previously between other digestate absorbents and methylene blue involve the formation of electrostatic bonds and various types of bonds, such as π–π interactions, n–π interactions, and hydrogen bonding, through the oxygen-containing functional groups present on the surface of the digestate. 47,56…”

“…55 The interaction mechanisms reported previously between other digestate absorbents and methylene blue involve the formation of electrostatic bonds and various types of bonds, such as p-p interactions, n-p interactions, and hydrogen bonding, through the oxygen-containing functional groups present on the surface of the digestate. 47,56 Fig. 6 The van't Hoff plot for MB adsorption onto (a) CM-HNO 3 and (b) CM-HNO 3 @Alginate; (c) the reusability study of CM-HNO 3 and CM-HNO 3 @Alginate.…”

“…8 Furthermore, value-added products, such as biochar-derived digestate, have been also developed as outstanding adsorbents and catalysts for pollutant removal from water. 9 Various kinds of solid digestate feedstocks may be used to prepare biochar materials, including municipal sludge, 10 rice straw, 11 and swine manure. 12 In addition, FWD is preferred for its lack of heavy metals and high nutrient content compared to other digestates.…”

Harnessing a carbon-based material from food waste digestate for dye adsorption: the role of hydrogel beads in enhancing the material stability and regenerative capacity

“…55 The interaction mechanisms reported previously between other digestate absorbents and methylene blue involve the formation of electrostatic bonds and various types of bonds, such as π–π interactions, n–π interactions, and hydrogen bonding, through the oxygen-containing functional groups present on the surface of the digestate. 47,56…”

“…55 The interaction mechanisms reported previously between other digestate absorbents and methylene blue involve the formation of electrostatic bonds and various types of bonds, such as p-p interactions, n-p interactions, and hydrogen bonding, through the oxygen-containing functional groups present on the surface of the digestate. 47,56 Fig. 6 The van't Hoff plot for MB adsorption onto (a) CM-HNO 3 and (b) CM-HNO 3 @Alginate; (c) the reusability study of CM-HNO 3 and CM-HNO 3 @Alginate.…”

“…8 Furthermore, value-added products, such as biochar-derived digestate, have been also developed as outstanding adsorbents and catalysts for pollutant removal from water. 9 Various kinds of solid digestate feedstocks may be used to prepare biochar materials, including municipal sludge, 10 rice straw, 11 and swine manure. 12 In addition, FWD is preferred for its lack of heavy metals and high nutrient content compared to other digestates.…”

Harnessing a carbon-based material from food waste digestate for dye adsorption: the role of hydrogel beads in enhancing the material stability and regenerative capacity

“…Many researchers indicate the need to develop research on the conditions of biochar production and its application in metal retention [33,72], because the raw material and the production method used have an impact on the adsorption properties of biochar [61,73]. Others indicate that the use of the solid digestate produced in the process of anaerobic fermentation of agricultural waste for the production of biochars may be used in the treatment of postproduction wastewater containing dyes [74,75]. Sawalha et al (2022) and Lu et al (2022) indicate the need to activate or modify such biochars in order to increase their sorption capacity [76,77].…”

Utilization of Digestate from Agricultural and Food Waste for the Production of Biochar Used to Remove Methylene Blue

Algae-Bacterial Aerobic Granular Sludge for Surfactant-Laden Saline Industrial Wastewater Treatment: A Sustainable Approach