岡山大学環境管理センターActa Medica Okayama0917-1533312009湿式ボールミル法を用いた無機性汚泥の再資源化技術の開発2631ENShinichiSakidaRyusukeKurodaYasuhikoBeninoTokuroNanbaThe possibility of material recycling of inorgamic sludge by wet ball milling with distrilled water and an ethylenediaminetetraacetic acid disodium salt dehydrate (EDTA・2Na・2H(2)O)reagent was investigated. The inorganic sludge consisted of 14.1mass% of the heat-treated sludge obtained after drying and heat treatment, 20.1mass% of active carbon, and 65.9mass% of water. The wet ball milling of the heat-treated sludge was performed using a ball pot and balls in air for 40 h at room temperature with the rotational speed fixed at 200rpm. The fractions of Mn, Fe, Ni, Cu, and Zr in the specimens obtained by wet-ball-milling the heat-treated sludge decreased and those of Si and Al increased. Appropriate content of distilled water and weight of the heat-treated sludge for wet ball milling were 150-250 ml and 4.5 g or less, respectively. When the wet ball milling of the heat-treated sludge was perfomed twice,the fractions of Mn, Fe, Ni, Cu, and Zr in the specimen obtained after repeated wet ball milling remarkably decreased and that of Si increased in comparison with those in the specimens wet-ball-milled once. This suggests that the repeat of wet ball milling of the heat-treated sludge leads to a colorless specimen without colored ions such as Mn, Fe, Ni, and Cu.No potential conflict of interest relevant to this article was reported.The Ceramic Society of JapanActa Medica Okayama1882-074311813792010Phase separation of borosilicate glass containing sulfur603607ENKeijiSaikiShinichiSakidaYasuhikoBeninoTokuroNanbaA 10Na(2)S·30B(2)O(3)·60SiO(2) (mol %) glass was prepared, and the changes in glass structure and chemical state of sulfur caused by phase separation were investigated. In the as-prepared and heat-treated glasses, sulfur was present as S(2)− anion and polysulfide S(2)− and S(3)− anions, and Si–S and B–S bonds were not confirmed. A phase separation by spinodal decomposition was observed after heat-treatment, where sulfur was preferentially distributed to borate-rich phase. Even after the phase separation, formation of non-bridging oxygen was not recognized. The preferential distribution of sulfur anions in the present glass was explainable on the basis of the change in population of sodium ions, which compensated the negatively-charged sulfur anions.No potential conflict of interest relevant to this article was reported.The Ceramic Society of JapanActa Medica Okayama1882-074311713712009Chemical recycling of municipal waste slag by using phase separation11951198ENTokuroNanbaYutaroKurodaShinichiSakidaYasuhikoBeninoA chemical recycling method by using phase separation was applied to municipal waste slags. Glasses were prepared from incineration ash and ash-melted slag, where B(2)O(3) was added to promote phase separation. The glasses were heat-treated at temperatures higher than their glass transition temperatures, and they were soaked in hydrochloric acid, leaching CaO, Fe(2)O(3), K(2)O, and S. Transparent and colorless solids containing ca. 80 mass% of SiO(2) were successfully obtained as residues. It was suggested that phase separation took place not in the heat-treatment but in the vitrification process, and further characterizations are however required to investigate the phenomena at microscopic levels in the recycling processes.No potential conflict of interest relevant to this article was reported.岡山大学環境管理センターActa Medica Okayama0917-1533332012湿式ボールミル法を用いた無機性産業廃棄物の再資源化技術の開発612ENShinichiSakidaYasuhikoBeninoTokuroNanbaThe possibility of material recycling of inorganic slag by wet ball milling with distilled water and an ethylenediaminetetraacetic acid disodium salt dehydrate (EDTA·2Na·2H2O) reagent was investigated. The wet ball milling of the simulated waste slag powder was performed using a ball mill pot and balls in air for 10 - 100 h at room temperature with the rotational speed fixed at 200 rpm. The fractions of CaO and Fe2O3 in the specimens obtained by wet-ball-milling the simulated waste slag powder decreased, that of SiO2 increased, and those of Al2O3 and Na2O hardly
changed. These specimens contained 0.1 – 0.8mass% ZrO2. Appropriate solution and time for wet ball milling were 300 ml distilled water and 20 h, respectively. When the wet ball milling of the simulated waste slag powder was performed twice, the fractions of CaO, Al2O3 and Fe2O3 in the specimen obtained after repeated wet ball milling decreased, those of SiO2 and ZrO2 increased and that of Na2O hardly changed in comparison with those in the specimen wet-ball-milled once. The insoluble end product obtained by soaking the specimen wet-ball-milled once in 6M HCl for 20 hours was composed of 98.5mass% SiO2 and 0.6mass% or less other oxides and is usable as glass material.No potential conflict of interest relevant to this article was reported.The Ceramic Society of Japan and the Korean Ceramic SocietyActa Medica Okayama2187-0764112013Distribution behavior of inorganic constituents in chemical recycling processes of a municipal waste slag108113ENKoheiOmuraShinichiSakidaYasuhikoBeninoTokuroNanbaNo potential conflict of interest relevant to this article was reported.岡山大学環境管理センターActa Medica Okayama0917-1533372016平成27 年度環境管理センター公開講演会「地球温暖化と気候変動が関わるリスク」315ENYasuhikoBeninoNo potential conflict of interest relevant to this article was reported.岡山大学環境理工学部Acta Medica Okayama2187-69401912014分子軌道計算による高い離型性を有するセラミックスコーティングの材料設計2225ENTokuroNanbaJiroFujiharaShinichiSakidaYasuhikoBenino10.18926/fest/52229 To explore the ceramic materials appropriate for the coatings with high mold releasability, molecular orbital (MO) calculations have been applied to the ceramics with NaCl structure, such as TiN, TiC, CrN, etc. Chemical bonding characters were evaluated based on the MO calculations, which were correlated to the experimental surface free energy. The dispersion and polar components of surface free energy indicated high correlation with the bond overlap population of the surface bonds and the net charge of inside atoms of the cluster models, respectively. Among the ceramic materials investigated, MoN had the lowest surface free energy, being expected to be most suitable as the ceramic coating material with high releasabilityNo potential conflict of interest relevant to this article was reported.