Papers by Author: Soo Ryong Kim

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Authors: Jong Heon Lee, Kang Sik Lee, Jae Suk Chang, Woo Shin Cho, Jong Kyu Lee, Soo Ryong Kim, Yung Tae Kim
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Authors: Soo Ryong Kim, J.H. Lee, Yung Tae Kim, S.J. Jung, Y.J. Lee, Hee Song, Y. Kim
969
Authors: Soo Ryong Kim, Y. Kim, W.T. Kwon, H.S. Kim, Y.M. Choi, Hae Jung Kim, S.M. Ha
Abstract: A porous silicon-containing hydroxyapatite has been prepared using natural coral as a calcium source to obtain a biomaterial having an improved biocompatibility. From the XRD analysis, it was confirmed that the single-phase hydroxyapatite containing silicon has formed without revealing the presence of extra phases related to silicon dioxide or other calcium phosphate species. Silicon content is ranged from 0.5wt% to 1wt% by weight. The porous silicon-containing hydroxyapatite blocks were inserted into the 5mm diameter of drill holes made through the lateral femoral condyles of New Zealand white rabbits. The new bony formation did not begin after 1 week. At 3 week, bony ongrowth to the inserted porous silicon-containing hydroxyapatite block could be found, and the new bone surrounded the inserted block entirely after 24weeks. Based on in-vivo test, Si-containing porous hydroxyapatite derived from coral possesses high biodegradability and can be considered a useful material for bone implants.
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Authors: Jong Heon Lee, Kang Sik Lee, Jae Suk Chang, Woo Shin Cho, Y. Kim, Soo Ryong Kim, Yung Tae Kim
135
Authors: Woo Teck Kwon, Soo Ryong Kim, Y. Kim, Jong Hee Hwang, Vikram V. Dabhade, Tae Wook Yoo, Seong Youl Bae
Abstract: The possible utilization of automobile shredder residue as a fuel in the cement kiln process was investigated. The detailed characteristics of the automobile shredder residues were investigated in terms of it’s chlorine content as a fuel feed and its circulation in cement kiln. For estimation of the chlorine content in the cement kiln system, the Weber model which is one of the circulation material’s forecast model was used. From the results, we estimated the chlorine by-pass rate should be 1 ~ 2 percent, for maintaining the present level of chlorine content’s on the hot-meal of the cement kiln system.
681
Authors: Woo Teck Kwon, Y. Kim, Soo Ryong Kim, Tae Yeoung Lim
176
Authors: Woo Teck Kwon, Byung Ik Kim, Y. Kim, Soo Ryong Kim, Sang Wook Ha
Abstract: In this work, the physical & chemical properties of bottom ash generated from power plant are analyzed. Characteristic mortar property and thermal conductivity for building material were investigated with content of added bottom ash. According to the analytic result of bottom ash, chemical compositions of bottom ash is similar to those of fly ash and compressive strength after 7days related to pozzolanic activity shows 2.5N/cm2 and it is confirmed that bottom ash possess a certain amount of moisture activity. Although the fluidity of cement mortar is rapidly decreased with increasing addition of bottom ash, compressive strength for 3 and 7days is increased. The thermal conductivity is not sensitive to the addition of bottom ash.
221
Authors: Woo Teck Kwon, Soo Ryong Kim, Y. Kim, Yoon Joo Lee, Ji Yeon Won, Tae Gyung Ko, Sea Cheon Oh
Abstract: Characterization of silicon kerf from photovoltaic silicon-wafer production was carried out. Also, SiC powder was synthesized using high purity silicon kerf by varying grinding conditions. With increase of grinding time, surface of the silicon was oxidized to form silicon oxide. Also, it was observed that the unreacted silicon oxide and free silicon amount in the SiC powder increases with an increasing grinding times, even though silicon particle size of the starting material is decreased.
69
Authors: Sea Cheon Oh, Y. Kim, Soo Ryong Kim
Abstract: In this work, the decomposition characteristics of wood using supercritical methanol have been studied. The kinetic analysis was carried out for three heating rates of 5.2, 11.6 and 16.3 oC/min. And the liquid products analysis has been performed for reaction temperatures of 300-320 oC and reaction times of 0-120 min, respectively. The activation energies of wood decomposition in supercritical methanol were 45.2-48.8 kJ/mol, depending on the heating rates. And the reaction orders were 0.25 for all heating rates. And the liquid product has been analyzed by GC-MS. From this work, the yields of liquid product increased as increasing of reaction temperature and reaction time. And it was also found that the components of liquid products were mainly acetic acid, latic acid, pentanol and phenol.
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