Tadashi Hibino

Last Updated :2022/12/01

Affiliations, Positions
Graduate School of Advanced Science and Engineering, Associate Professor
E-mail
hibinothiroshima-u.ac.jp

Basic Information

Academic Degrees

  • Doctor of Engineering, Chuo University

Educational Activity

  • [Bachelor Degree Program] School of Engineering : Cluster 4(Civil Engineering and Architecture) : Program of Civil and Environmental Engineering
  • [Master's Program] Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Civil and Environmental Engineering Program
  • [Doctoral Program] Graduate School of Advanced Science and Engineering : Division of Advanced Science and Engineering : Civil and Environmental Engineering Program

Research Fields

  • Engineering;Civil engineering;Hydraulic engineering

Research Keywords

  • Thermocline|Global Circulation
  • Oyashio|
  • Current fieald|Dispersion
  • sewage disposal|Busan Port
  • Sea level difference
  • Kuroshio
  • hydrophile
  • Water quality
  • sediment environment
  • Pressure Distribution

Educational Activity

Course in Charge

  1. 2022, Graduate Education (Master's Program) , 3Term, Academic approach to SDGs - B
  2. 2022, Graduate Education (Master's Program) , 4Term, Academic approach to SDGs - B[On-Demand]
  3. 2022, Undergraduate Education, 1Term, Environmental Hydraulics
  4. 2022, Undergraduate Education, 4Term, Coastal Engineering
  5. 2022, Undergraduate Education, 1Term, Meteorology
  6. 2022, Undergraduate Education, 3Term, Design of Infrastructures
  7. 2022, Graduate Education (Master's Program) , 1Term, Special Exercises on Civil and Environmental Engineering A
  8. 2022, Graduate Education (Master's Program) , 2Term, Special Exercises on Civil and Environmental Engineering A
  9. 2022, Graduate Education (Master's Program) , 3Term, Special Exercises on Civil and Environmental Engineering B
  10. 2022, Graduate Education (Master's Program) , 4Term, Special Exercises on Civil and Environmental Engineering B
  11. 2022, Graduate Education (Master's Program) , Academic Year, Special Study on Civil and Environmental Engineering
  12. 2022, Graduate Education (Master's Program) , 2Term, Advanced Environmental Coastal Engineering
  13. 2022, Graduate Education (Master's Program) , 1Term, Advanced Meteorology
  14. 2022, Graduate Education (Doctoral Program) , Academic Year, Special Study on Civil and Environmental Engineering

Research Activities

Academic Papers

  1. Removal of Ammonium from Aqueous Solution by Granulated Coal Ash, Journal of Water Chemistry and Technology, 43(4), 305-311, 20210928
  2. Effect of sediment deposition on phosphate and hydrogen sulfide removal by granulated coal ash in coastal sediments, MARINE POLLUTION BULLETIN, 179, 202206
  3. Enhancing pollutant removal and electricity generation in Sediment Microbial Fuel Cell with nano zero-valent iron, ENVIRONMENTAL TECHNOLOGY & INNOVATION, 24, 202111
  4. ★, MODELING OF SETTLING AND DEPOSITION OF SUSPENDED ORGANIC MATTER CONSIDERING BIODEGRADATION, COASTAL ENGINEERING JOURNAL, 53(3), 181-200, 201109
  5. A STUDY ON PORT PLANNING WITH BERTHING SHIP MOTIONS DUE TO STRONG TIDAL CURRENTS, COASTAL ENGINEERING JOURNAL, 53(4), 319-342, 201112
  6. Preliminary Use of Global Meteorological Information as an Indicator for Long Term Water Exchange in an Estuary-Development of Aleutian Low and Ocean Current-, Coastal Engineering= ASCE, 4, 3669-3682, 20000401
  7. Generation and Breakdown Mechanisms for Anoxic Layers in Ohfunato Bay, Asian and Pacific Engineering Conference 2001, 305-314, 20011001
  8. Estimation of Mean Sea Level in the Seto Inland Sea, Japan, Asian and Pacific Engineering Conference 2001, 294-304, 20011001
  9. Preliminary Use of Global Meteorological Information as an Indicator for Long Term Water Exchange in an Estuary - Development of Aleutian Low and Ocean Current -, ICCE2000, 4, 3669-3682, 20000701
  10. Application of discrete vortex method as turbulent modelling for studies of local eddy generation in coastal waters, ICCE2000, 4, 3767-3776, 20000701
  11. Simulation of Kanmon Strait; A channel between two seas, ICCE2000, 4, 3861-3869, 20000701
  12. The use of ground based high frequency radar techniques for the characterisation of river overflows in Tokyo Bay, CDROM, 19991101
  13. Consequence of ocean currents for estuary water quality along Sanriku shore, The 2nd Joint Meeting of the CEST Panel of the UJNR, 43-51, 19991101
  14. Application of discrete vortex method as turbulent modelling tool on local eddy generation in coastal waters, The first international conference on vortex methods, Cdrom, 19990901
  15. A study of anoxic water structures generated in deep bay enclosed by tsunami breakwaters, Environmental Coastal Regions= WITPRESS, 373-382, 19980901
  16. Water Circulation System in Enclosed Bay and its Utilization for Water Quality Management, The 1st Joint Meeting of the CEST Panel of the UJNR, 14.1-20, 19980301
  17. Estimation of Mean Sea Level in the Seto Inland Sea, Japan, Proc. of the 1st Asian and Pacific Coastal Eng. Conf., 297-304, 20010401
  18. Generation and Breakdown Mechanisms for Anoxic Layers in Ofunato Bay, Proc. of the 1st Asian and Pacific Coastal Eng. Conf., 305-314, 20010401
  19. Resuspension and physical properties of natural cohesive sediment in estuary, ESA 88th Annual Meeting Abstract (CD-ROM), 20030801
  20. Inter-Annual Fluctuation of Water Quality in Seto Inland Sea-Relationship with Sea Levels at the Entrances of the Inland Sea-,, Coastal Engineering Journal=JSCE, 45(2), 211-233, 20030401
  21. Consequences of North Pacific Sea-Level Oscillation and an Estimation of Density at Open Sea Boundaries, Coastal Engineering Journal=JSCE, 46(4), 441-468, 20040901
  22. An Analysis of Currents in the Seto Inland Sea, Proceedings of International Conference on Civil and Environmental Engineering 2004, 139-148, 20040901
  23. Effect of the Kuroshio Meandering on Sea Levels along the Pacfic Coast, Proceedings of the 29th International Conference on Coastal Engineering, 1650-1662, 20040901
  24. Mechanism of Seawater Exchange in Semi-Enclosed Bay with Sill and Its Modeling, Proceedings of the 29th International Conference on Coastal Engineering, 1160-1172, 20040901
  25. Seasonal Variation Characteristics of Current structure and Quantitative Analysis of Seawater Exchange in Ohfunato Bay, Coastal Engineering Journal, 47(2-3), 109-130, 20050901
  26. Effect of the Kuroshio meandering on sea levels along the Pacific coast, COASTAL ENGINEERING 2004 (Proceedings of the 29th International Conference), 2, 1650-1661, 20050401
  27. Pore Water Movement in the Consolidated Sediment at the Sea Bottom, Asian and Pacific Coasts 2005, pp.920-930, 20050901
  28. Study on the Transportation of Organic Mud in the Ohtagawa Estuary, Asian and Pacific Coasts 2005, pp.956-966, 20050901
  29. Estimation of Current with Considering the Density and Sea Level Pressure Distribution in the Seto Inland Sea, Asian and Pacific Coasts 2005, pp.190-199, 20050901
  30. Swelling Sediment by Pore Water Movement at the Bottom of the Sea, ICCEE-2005, 239-428, 20051001
  31. Nucleotide sequence of cDNA for the cytosolic Cu/Zn-superoxide dismutase from spinach (Spinacia oleracea L.), Nucleic Acids Research, 18(16), 4923-4923, 19900801
  32. cDNA cloning and expression of the plastidic copper/zinc-superoxide dismutase from spinach (Spinacia oleracea L.) leaves, Plant and Cell Physiology, 34(6), 965-968, 19930901
  33. Sea Level Relation at Two Open Sea Boundaries of The Seto Inland Sea, Proceedings of the Fourth International Conference on Asian and Pacific Coasts, 744-757, 20070901
  34. The Characteristics of Organic Matters Circulation in Hiroshima Bay, Proceedings of the Fourth International Conference on Asian and Pacific Coasts, 2051-2062, 20070901
  35. The Groundwater Flow Mechanism in The Ota River Estuary and The Formation of High Turbidity Layer in Hiroshima Bay, Proceedings of the Fourth International Conference on Asian and Pacific Coasts, 968-979, 20070901
  36. Influence of the Kuroshio stream path variation on current fields in the Seto Inland Sea, Proceedings of the 14th PAMS/JECSS Workshop, 244-247, 20070501
  37. Inter-annual fluctuation of water quality in Seto Inland Sea: Relationship with sea levels at the entrances of the inland sea, COASTAL ENGINEERING JOURNAL, 45(2), 211-233, 200306
  38. Consequences of North Pacific sea-level oscillation and an estimation of density at open sea boundaries, COASTAL ENGINEERING JOURNAL, 46(4), 441-468, 200412
  39. Seasonal variation characteristics of current structure and quantitative analysis of seawater exchange in Ohfunato Bay, COASTAL ENGINEERING JOURNAL, 47(2-3), 109-130, 2005
  40. Deposition Behavior of Mud in Sand Beds Under the Effects of Organic Properties, TRANSPORT IN POROUS MEDIA, 91(2), 531-546, 201201
  41. Remediation of muddy tidal flat sediments using hot air-dried crushed oyster shells, MARINE POLLUTION BULLETIN, 64(11), 2428-2434, 201211
  42. Permeability Reduction by Sediment Retention in Saturated Sand Columns, TRANSPORT IN POROUS MEDIA, 98(3), 615-630, 201307
  43. PREDICTION OF THE RETENTION VOLUME OF SEDIMENT DURING WATER-BASED SEDIMENT INJECTION, JOURNAL OF POROUS MEDIA, 16(6), 547-557, 2013
  44. Experimental investigation on effects of acid/base waters on the bottom sediment of Kaita Cove (Hiroshima, Japan), ESTUARINE COASTAL AND SHELF SCIENCE, 135, 18-23, 20131220
  45. Measurement of Sediment Retention in a Sandy Tidal Flat Based on Pressure Drop Model, TRANSPORT IN POROUS MEDIA, 102(1), 123-136, 201403
  46. MODELING THE SETTLING VELOCITY OF ORGANIC SETTLING MATTER WITH THE CONSIDERATION OF ORGANIC PROPERTIES, COASTAL ENGINEERING JOURNAL, 55(4), 201312
  47. ★, Characteristics of electricity generation and biodegradation in tidal river sludge-used microbial fuel cells, BIORESOURCE TECHNOLOGY, 158, 225-230, 201404
  48. Field experiments on remediation of coastal sediments using granulated coal ash, MARINE POLLUTION BULLETIN, 83(1), 132-137, 20140615
  49. MEASUREMENT OF MUD FLOC-SETTLING VELOCITY USING A LASER DIFFRACTION PARTICLE SIZE DISTRIBUTION ANALYZER, COASTAL ENGINEERING JOURNAL, 56(3), 201409
  50. A method for investigation of sediment retention in sandy tidal flats, Proceedings of the 7th International Conference on Asian for Coats, 254-260, 201309
  51. A method using granulated coal ash for disposal of the sludge carried by Tsunami,, Proceedings of the 7th International Conference on Asian for Coats, 341-352, 201309
  52. Application of Granulated Coal Ash for Remediation of Coastal Sedimentm,, Journal of the Korean Society for Marine Environment and Energy Vol. 17, 1-7, 201402
  53. Identification of the condition of sea bottom sediment based on ignition behavior, Proceedings of the 7th International Conference on Asian for Coats, 814-821, 201309
  54. Influenced distance of anode electrode on sediment remediation in a sediment microbial fuel cell, Proceedings of 'the 4th International MicrobialFuelCell Conference, 186-187, 201309
  55. Stabilization of the output voltage of sediment microbial fuel cell using alkaline material,, Proceedings of the 4th International MicrobialFuelCell Conference, 66-67, 201309
  56. Measurement of mud floc-settling velocity using a laser diffraction particle size distribution analyzer, Coastal Engineering Journal, Vol.56(No.3), 1450012-1-1450012-16, 201409
  57. Field experiments on remediation of coastal sediments using granulated coal ash,, Marine Pollution Bulletin 83, 132-137, 201407
  58. An Influence of Salinity on Resuspension of Cohesive Sediment, JOURNAL OF COASTAL RESEARCH, 68-72, 201603
  59. Temporal variations of groundwater salinity and temperature in a tidal flat in front of a tide pool, CONTINENTAL SHELF RESEARCH, 122, 29-35, 20160701
  60. Variation in properties of the sediment following electrokinetic treatments, ENVIRONMENTAL TECHNOLOGY, 38(3), 277-284, 201702
  61. A pilot study on remediation of muddy tidal flat using porous pile, MARINE POLLUTION BULLETIN, 114(2), 837-842, 20170130
  62. An Influence of Salinity on Resuspension of Cohesive Sediment, Journal of Coastal Research, 75(1), 68-72, 2016
  63. Variation in properties of the sediment following electrokinetic treatment, ENVIRNMENTAL TECHNOLOGY, 38(3), 277-287, 2017
  64. Evaluation of Granulated Coal Ash as Artificial Seabed for Eelgrass, JOURNAL OF COASTAL RESEARCH, 40-44, 2017
  65. Relaxing the formation of hypoxic bottom water with sediment microbial fuel cells, ENVIRONMENTAL TECHNOLOGY, 38(23), 3016-3025, 2017
  66. Loss on Ignition-Based Indices for Evaluating Organic Matter Characteristics of Littoral Sediments, PEDOSPHERE, 27(5), 978-984, 201710
  67. Exploratory study on improving the benthic environment in sediment by sediment microbial fuel cells, INTERNATIONAL JOURNAL OF ENVIRONMENTAL SCIENCE AND TECHNOLOGY, 15(3), 507-512, 201803
  68. Investigation on the function of GCA as a filter material, International Conference on Civil and Environmental Engineering(ICCEE2017), 133-134, 201711
  69. Improvement of Water Quality by Granulated Coal Ash in the Pasig River and Its Tributaries, Asian and Pacific Coasts 2017, 861-867, 201710
  70. Thermal Analysis (TG-DTA) for Identify Organic Matter Conditions in Sediment, Asian and Pacific Coasts 2017, 904-912, 201710
  71. Development of electrochemical method for improving water quality, Asian and Pacific Coasts 2017, 913-921, 201710
  72. Influence of Kuroshio Path on Salinity Distribution in Seto Inland Sea, JOURNAL OF COASTAL RESEARCH, 21-25, 201805
  73. ★, Dissolution characteristics of granulated coal ash in different saline water conditions, CHEMICAL ENGINEERING COMMUNICATIONS, 206(4), 535-540, 2019
  74. Suppression of nutrient release from freshwater lake sediments using granulated coal ash, WATER SCIENCE AND TECHNOLOGY-WATER SUPPLY, 18(5), 1810-1824, 201810
  75. ★, Improvement in benthic habitat environment via granulated coal ash in a water body exposed to wastewater discharge, INTERNATIONAL JOURNAL OF ENVIRONMENTAL SCIENCE AND TECHNOLOGY, 16(7), 3211-3220, 201907
  76. Suppression of nutrient release from freshwater lake sediments using granulated coal ash, Water Science & Technology: Water Supply, 18(5), 1810-1824, 201810
  77. ★, Improvement in benthic habitat environment via granulated coal ash in a water body exposed to wastewater discharge, International Journal of Environmental Science and Technology, 20180830
  78. Remediation of Sediment Deposited near Sewage Outlet with Solar Cell-Combined Sediment Microbial Fuel Cells, International Journal of Environmental Protection, 8(1), 18-24, 201812
  79. Improvement of Sediment and Water Quality with Solar Cell-Combined Sediment Microbial Fuel Cells in Oyster Farms, International Journal of Environmental Protection, 8(1), 32-37, 201812
  80. ★, Nutrient salt removal by steel-making slag in sediment microbial fuel cells, ENVIRONMENTAL TECHNOLOGY, 40(22), 2906-2912, 20191002
  81. Remediation of contaminated sediment originating from wastewater at harbor areas using slaked lime - fly ash - cement mixture, ESTUARINE COASTAL AND SHELF SCIENCE, 227, 20191031
  82. ★, Enhanced power performance of an in situ sediment microbial fuel cell with steel-slag as the redox catalyst: I. electricity generation, SUSTAINABLE ENERGY & FUELS, 4(3), 1363-1371, 20200301
  83. PREDICTION OF THE RETENTION VOLUME OF SEDIMENT DURING WATER-BASED SEDIMENT INJECTION, JOURNAL OF POROUS MEDIA, 16(6), 547-557, 2013
  84. CONSEQUENCES OF THE KUROSHIO PATH FOR HYDRAULIC PHENOMENA AROUND SETO INLAND SEA, Doboku Gakkai Ronbunshuu B, 46, 971-976, 2002

Publications such as books

  1. 2002/09, Coastal Environment , WIT Press, 2002, 09, Scholarly Book, Cocompilation, 453

Invited Lecture, Oral Presentation, Poster Presentation

  1. Seminar on the Use of Granulated Coal Ash (GCA) to Improve Water and Sediment Quality, 2017/02/24, With Invitation, English, UP Institute of Civil Engineering, UP Diliman
  2. Effective use of environmental resources for coexistence between human and nature, 2016/04/21, With Invitation, English