Repeatable use of wood ash to remove lead from contaminated water

Abstract: The present study conducted lead sorption experiments using wood ash to elucidate its capacity and mechanisms of lead removal, to evaluate the recovery of lead removed by wood ash and the reuse of wood ash residue left after lead recovery. The maximum lead removal capacity of wood ash was 3.08 mmol g -1 , which was higher than previously reported values. An X-ray diffraction analysis showed that the lead phase removed by wood ash was mainly hydrocerussite probably resulting from the sequential reactions of woo… Show more

“…, the removal efficiency of manganese(II) ions increases slowly by increasing the initial pH of the water, from 91.5% (pH 2) to 98.3% (pH 6). At higher pH values it can be expected that the number of negatively charged sites increases on the surface of the wood ash, favoring the cationic metal ions adsorption process based on the electrostatic attraction …”

A green approach for treatment of wastewater with manganese using wood ash

“…, the removal efficiency of manganese(II) ions increases slowly by increasing the initial pH of the water, from 91.5% (pH 2) to 98.3% (pH 6). At higher pH values it can be expected that the number of negatively charged sites increases on the surface of the wood ash, favoring the cationic metal ions adsorption process based on the electrostatic attraction …”

A green approach for treatment of wastewater with manganese using wood ash

Applications of wood ash as a construction material in civil engineering: a review

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