Yukitaka Matsumoto scite author profile

To develop a practical method of treating boron-containing wastewater, we custom designed two laboratory-scale continuousflow-type hydrothermal mineralization apparatuses. We carried out a hydrothermal treatment using a continuous-flow apparatus, using Ca(OH) 2 , CaCl 2 , and both Ca(OH) 2 and CaCl 2 as mineralizers, under various pH conditions. Our results show that using CaCl 2 under optimal pH conditions (pH = approximately 12) allowed for the stable removal of boron from wastewater. One of the precipitates obtained in this process was parasibirskite, which is a natural boron mineral. Finally, because the residual concentration of boron could not be reduced below 10 mg/dm 3 , we propose a realistic boron removal wastewater treatment system incorporating the hydrothermal mineralization method.

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Yukitaka Matsumoto

Nitrate-ion-selective exchange ability of layered double hydroxide consisting of MgII and FeIII

Continuous-flow detoxification treatment of boron-containing wastewater under hydrothermal conditions

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