Abstract
Blends of rice waste streams were submitted to co-gasification assays. The resulting chars (G1C and G2C) were characterized and used in Cr(III) removal assays from a synthetic solution. A Commercial Activated Carbon (CAC) was used for comparison purposes. The chars were non-porous materials mainly composed by ashes (68.3–92.6% w/w). The influences of adsorbent loading (solid/liquid ratio – S/L) and initial pH in Cr(III) removal were tested. G2C at a S/L of 5 mg L−1 and an initial pH of 4.50 presented an uptake capacity significantly higher than CAC (7.29 and 2.59 mg g−1, respectively). G2C was used in Cr(III) removal assays from an industrial wastewater with Cr(III) concentrations of 50, 100 and 200 mg L−1. Cr(III) removal by precipitation (uptake capacity ranging from 11.1 to 14.9 mg g−1) was more effective in G2C, while adsorption (uptake capacity of 16.1 mg g−1) was the main removal mechanism in CAC.
Highlights
Rice is the second most produced cereal in the world after maize
Blends of rice waste streams were submitted to co-gasification assays
The chars were non-porous materials mainly composed by ashes (68.3–92.6% w/w)
Summary
Rice is the second most produced cereal in the world after maize. In 2017, 756.7 million tonnes of paddy rice were produced worldwide (FAO, 2017a). Cr(III) removal from synthetic and industrial wastewaters by using cogasification chars of rice waste streams Pintoc a LAQV/REQUIMTE, Departamento de Ciências e Tecnologia da Biomassa (DCTB), Faculdade de Ciências e Tecnologia (FCT), Universidade Nova de Lisboa (UNL), 2829516 Caparica, Portugal b LAQV/REQUIMTE, Departamento de Química (DQ), Faculdade de Ciências e Tecnologia (FCT), Universidade Nova de Lisboa (UNL), 2829-516 Caparica, Portugal c Unidade de Bioenergia (UB), Laboratório Nacional de Energia e Geologia (LNEG), Estrada do Paço do Lumiar, Ed. J, 1649-038 Lisboa, Portugal
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