K. K. Wong scite author profile

A study on the modification of rice husk by various carboxylic acids showed that tartaric acid modified rice husk (TARH) had the highest binding capacities for Cu and Pb. The carboxyl groups on the surface of the modified rice husk were primarily responsible for the sorption of metal ions. A series of batch experiments using TARH as the sorbent for the removal of Cu and Pb showed that the sorption process was pH dependent, rapid and exothermic. The sorption process conformed to the Langmuir isotherm with maximum sorption capacities of 29 and 108 mg/g at 27 +/- 2 degrees C for Cu and Pb, respectively. The uptake increased with agitation rate. Decrease in sorbent particle size led to an increase in the sorption of metal ions and this could be explained by an increase in surface area and hence binding sites. Metal uptake was reduced in the presence of competitive cations and chelators. The affinity of TARH for Pb is greater than Cu.

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Removal of Cu and Pb from electroplating wastewater using tartaric acid modified rice husk

Wong

Lee

Low

et al. 2003

Process Biochemistry

153

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On the particle size effect in slurry erosion

Lynn

Wong

Clark

1991

Wear

111

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Impact angle, particle energy and mass loss in erosion by dilute slurries

Clark

Wong

1995

Wear

107

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Measurements of specific energies for erosive wear using a Coriolis erosion tester

Clark¹,

Tuzson²,

Wong³

2000

Wear

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K. K. Wong

Removal of Cu and Pb by tartaric acid modified rice husk from aqueous solutions

Removal of Cu and Pb from electroplating wastewater using tartaric acid modified rice husk

On the particle size effect in slurry erosion

Impact angle, particle energy and mass loss in erosion by dilute slurries

Measurements of specific energies for erosive wear using a Coriolis erosion tester

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