H.S. Kim scite author profile

This study was conducted to evaluate the galvanic enhancement of the pressure oxidation (POX) leaching of a chalcopyrite/chalcocite concentrate, which is believed to take place via a redox reaction. Cu recoveries of >90% could be achieved during POX leaching of this chalcopyrite/chalcocite concentrate at 200?C and 0.7 MPa initial oxygen pressure within 2h in a pressure reactor lined with titanium, which were 18-28% higher than for the same leaching using the teflon liner. A slow heating time seems to produce more sulphur coating, reducing the leaching performance, yielding much lower Cu recovery when the teflon lining was used, although this does not greatly affect the other case when the reactor was lined with titanium. The introduction of an electronic conductor, in this case the titanium surface, is believed to enhance this redox process, in which the oxidation of copper minerals and sulphur to sulphate at the anodic sites (mineral surface) encountered during POX leaching takes place simultaneously with the reversible oxidation/reduction of the Fe2+/Fe3+couple and oxygen reduction on titanium.

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Contact laser turbinate surgery for the treatment of idiopathic rhinitis

Min

Kim

Yun

et al. 1996

Clin Otolaryngol

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To evaluate the value of contact laser turbinate surgery using a diode laser in the treatment of idiopathic rhinitis. 53 patients were examined before and after surgery. Six months following surgery, nasal obstruction was significantly improved and a significant decrease in nasal airway resistance was noted on active rhinomanometric measurements (P < 0.05). There were no significant post-operative changes in olfactory acuity using the butanol threshold test and in mucociliary transport using the saccharin transit time. The results of this study suggest that contact laser turbinate surgery may be a valuable alternative form of surgical treatments for patients with idiopathic rhinitis.

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Manipulation of adipic acid application on the electrochemical properties of LiFePO4 at high rate performance

Son

Yang

Lee

et al. 2011

Journal of Alloys and Compounds

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Copper-substituted, lithium rich iron phosphate as cathode material for lithium secondary batteries

Lee

Cho

Heo

et al. 2009

Journal of Alloys and Compounds

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H.S. Kim

Preparation and electrochemical characterization of LiFePO4 nanoparticles with high rate capability by a sol–gel method

Galvanic enhancement for high pressure leaching of chalcopyrite

Contact laser turbinate surgery for the treatment of idiopathic rhinitis

Manipulation of adipic acid application on the electrochemical properties of LiFePO4 at high rate performance

Copper-substituted, lithium rich iron phosphate as cathode material for lithium secondary batteries

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