Curriculum Vitaes

Tsuno Hiroshi

  (津野 洋)

Profile Information

Affiliation
Professor,Kyoto University, Faculty of Human Environment Department of Culture and Communication, Osaka Sangyo University
Degree
Doctor of Engineering(Kyoto University)

J-GLOBAL ID
200901052306457428
researchmap Member ID
1000027856

Misc.

 233
  • Fijikawa Y, Kimura S, Kyoto University, Wei P, Fujinaga A. Tsuno H, Ozaki H
    Proc. of the 15th Interntional conference on environmental remediation and radioactive waste, 2013  
  • 高部佑剛, 津野 洋, 西村文武, 丸野紘史, 谷井信夫, 八十島誠, 鶴川正寛, 松村千里
    土木学会論文集G(環境), 69(2) 46-54, 2013  
  • Fijikawa Y, Kimura S, Kyoto University, Wei P, Fujinaga A. Tsuno H, Ozaki H
    Proc. of the 15th Interntional conference on environmental remediation and radioactive waste, 2013  
  • TSUNO Hiroshi, KAWAMURA Masasumi, NISHIMURA Fumitake, HIDAKA Taira, HONMA Yasuhiro, KAMACHI Kazumasa, WATANABE Norikazu
    Journal of Environmental Conservation Engineering, 41(4) 227-234, Apr 20, 2012  
    A biologically activated carbon anaerobic reactor was applied for treatment of two types of food industry wastewater : low soluble COD concentration wastewater of 1000-1500㎎/L with high suspended solid of 300㎎/L, and bean paste production process wastewater. Mean total COD removal efficiency of 86% and 89% were obtained for both wastewaters under the fluidized-bed-volume organic loading rate of 0.5-33㎏ COD/(m3・d) and 1.6-29㎏ COD/(m3・d) respectively. It was indicated that conversion efficiency of removed soluble COD to solid COD was 0.12㎏ COD/㎏ COD-removed and the solubilization ratio of solid-COD was 95% for the low soluble COD concentration wastewater.
  • Taira Hidaka, Hiroshi Tsuno, Haruka Yagi, Yusuke Kosaka
    BIOTECHNOLOGY AND BIOPROCESS ENGINEERING, 17(2) 290-297, Apr, 2012  
    Batch and semi-continuous thermophilic l-lactate fermentation experiments were performed using Bacillus coagulans and glucose as a substrate. Reactor performance and biomass concentrations were assessed using two methods: turbidity as a traditional biomass index and real-time polymerase chain reaction (PCR) quantification of 16S rRNA genes. In the batch experiment, although the relationship between turbidity and real-time PCR assay differed depending on the growth phase, a correlation was observed between both assay methods. In the semi-continuous experiment, real-time PCR measurement was well suited for use as an index for evaluating bacterial mass under different organic loading conditions. A mathematical model was applied to evaluate the real-time PCR quantification to long-term, semi-continuous lactate fermentation. Lactate fermentation was well suited since only B. coagulans was involved in the reactions. The results obtained revealed a fundamental relationship between real-time PCR and traditional biomass analyses.

Books and Other Publications

 29

Presentations

 25

Industrial Property Rights

 7