2016年 環境デザイン工学科 学術論文等

ᵐᵎᵏᵔ ࠰ᴾ ࿢ؾἙἈỶὅ߻ܖᅹᴾ

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ⴭ  ᭩ 1. 㰻⸨ග௦, ௚ 2 ྡ㸭㝣ᇦࡢᆅᙧ࣭ᆅୗỈὶື࡟ᇶ࡙ࡃᾏᗏ‪Ỉࡢホ౯㸪ᑠ㊰῟㸪ᮡ ᮏு㸪ᐩỌಟ㸦⦅㸧㸪ᆅୗỈ࣭‪Ỉࢆ௓ࡋࡓ㝣̿ᾏࡢࡘ࡞ࡀࡾ㸸ἢᓊᇦ࡟࠾ࡅࡿỈ⏘ ㈨※ࡢᣢ⥆ⓗ฼⏝࡜ᆅᇦ♫఍㸭᪥ᮏỈ⏘Ꮫ఍㸭ฟ∧࣭ᥖ㍕☜ᐃ 2. ᕝᮏඞஓ㸭බᐖ㜵Ṇࡢᢏ⾡࡜ἲつ ⦅㞟ጤဨ఍⦅㸸᪂࣭බᐖ㜵Ṇࡢᢏ⾡࡜ἲつ 2016 ࢲ࢖࢜࢟ࢩࣥ㢮⦅ ศᢸᇳ➹㸦Ϫ.1.4 ྾╔ฎ⌮㸧, pp.403-438㸭㸦♫㸧⏘ᴗ⎔ቃ⟶⌮ ༠఍㸭2016 ᖺ 1 ᭶ ཎⴭㄽᩥ 1. ᳜ᮧ㇦, ⴠྜㆡྖ, Ἑᮧ㞝⾜, ᖹ஭⚽୍㑻㸭㧗㟁ሙ୰࡟࠾ࡅࡿࣜࢳ࣒࢘✵Ẽ㟁ụ㟁 ゎᾮࡢศᏊືຊᏛゎᯒ㸭DOI:10.1299/transjisme.15-00643㸭᪥ᮏᶵᲔᏛ఍㸭2016 ᖺ 2. Y. Hatano, S. Nishiyama㸭Study on Application of MEMS Sensor Network to Monitoring

Method of Slope Behavior㸭Proceedings of the 16th International Conference on Computing in Civil and Building Engineering㸭ICCCBE2016 Organizing Committee㸭2016 ᖺ 3. Ỉཱྀᑦྖ㸪኱す᭷୕㸪ᚨ⏣ᾈ୍㑻㸪すᒣဴ㸪▼ᮧ຾ఙ㸭㐨㊰ࢺࣥࢿࣝ㉮⾜ᆺィ ㌴ ୧࡟࠾ࡅࡿࡦࡧ๭ࢀ⢭ᗘ᳨ドࡢሗ࿌㸭ᅵᮌᏛ఍ㄽᩥ㞟 F2(ᆅୗ✵㛫◊✲)㸭ᅵᮌᏛ ఍㸭2016 ᖺ 4. ᘅ⏣ᙲஂ㸪すᒣဴ㸪Ỉཱྀᑦྖ㸪▼ᮧ຾ఙ㸭ࢺࣥࢿࣝ⥔ᣢ⟶⌮ࡢࡓࡵࡢࡦࡧ๭ࢀᖜࡢ ⏬ീィ ᡭἲࡢ◊✲㸭ᅵᮌᏛ఍ㄽᩥ㞟 F1(ࢺࣥࢿࣝᕤᏛ)㸭ᅵᮌᏛ఍㸭2016 ᖺ 5. ⳥ᆅ㍤⾜㸪⛙㔝㍤൤㸪༓⏣Ⰻ㐨㸪すᒣဴ㸭D-DEM ࢹ࣮ࢱࢆ฼⏝ࡋࡓᆅࡍ࡭ࡾᆅ࡟ ࠾ࡅࡿኚື࣋ࢡࢺࣝゎᯒᢏ⾡ࡢ㛤Ⓨ㸭ᛂ⏝ᆅ㉁㸭ᛂ⏝ᆅ㉁Ꮫ఍㸭2016 ᖺ 6. ⸨ᮌ୕ᬛᡂ㸪すᒣဴ㸪஭ୖᾈ୍㸪ᇼᕝẎಙ㸪኱▼ဴ㸪ᓥ⏣ⱥྖ㸪㜿㒊ு࿃㸪ᚨᒸᮭ 㤶㸭㌴୧⛣ືィ ᡭἲࡢἙᕝሐ㜵Ⅼ᳨࡬ࡢ㐺⏝࡟㛵ࡍࡿ◊✲㸭ᆅ┙࡜ᘓタ㸭ᆅ┙ ᕤᏛ఍୰ᅜᨭ㒊㸭2016 ᖺ 7. ᘅ⏣ᙲஂ㸪すᒣဴ㸪Ỉཱྀᑦྖ㸪▼ᮧ຾ఙ㸭ࢺࣥࢿࣝ⥔ᣢ⟶⌮ࡢࡓࡵࡢࡦࡧ๭ࢀᖜࡢ ⏬ീィ ᡭἲࡢ◊✲㸭ᅵᮌᏛ఍ ➨ 26 ᅇࢺࣥࢿࣝᕤᏛ◊✲Ⓨ⾲఍ㄽᩥ㞟㸭ᅵᮌᏛ ఍㸭2016 ᖺ 8. ᘅ⏣ᙲஂ㸪すᒣဴ㸪⳥ᆅ㍤⾜㸭ᵓ㐀≀ࣔࢽࢱࣜࣥࢢࡢࡓࡵࡢ⏬ീィ ἲࡢ◊✲㸭ᅵ ᮌ᝟ሗᏛࢩ࣏ࣥࢪ࣒࢘ㅮ₇㞟㸭ᅵᮌᏛ఍㸭2016 ᖺ

9. ᆏ⏣㐩ἲ㸪෠஭㝯᫓㸪すᒣဴ㸭ᒾ┙ᕤᏛ࡟࠾ࡅࡿ 3 ḟඖィ ࡢᛂ⏝࡜ᒎᮃ㸭᪥ᮏᮦ ᩱᏛ఍➨ 65 ᮇᏛ⾡ㅮ₇఍ㅮ₇ㄽᩥ㞟㸭᪥ᮏᮦᩱᏛ఍㸭2016 ᖺ 10. ᒾᓮె௓, ᮌᮏ࿴ᚿ㸭඘ሸᵓ㐀ࢆ⪃៖ࡋࡓ୙㣬࿴◁ࡢ⇕ఏᑟ⋡Ⓨ⌧ᶵᵓ࡟㛵ࡍࡿ ◊✲㸭ᅵᮌᏛ఍ㄽᩥ㞟 A2㸦ᛂ⏝ຊᏛ p.I_595-I_604.㸭ᅵᮌᏛ఍㸭2016 ᖺ 11. ẚỤᓥៅ஧, ኱⇃ᗈᶞ㸭᣺ࡾᏊᘧ₻ὶⓎ㟁ᶵࡢ෇ᰕ᣺ࡾᏊ࡟స⏝ࡍࡿὶయຊ≉ᛶ 㸭ᅵᮌᏛ఍ㄽᩥ㞟 A1(ᵓ㐀࣭ᆅ㟈ᕤᏛ)㸪Vol.72, No.2㸭ᅵᮌᏛ఍㸭2016 ᖺ

12. M. A. Farooq, Y. Sato, T. Ayano, T. Fuiji㸭Static and Fatigue Behavior of Mortar using Blast Furnace Slag Fine Aggregates in Water㸭Proceedings of the fourteenth East Asia - Pacific Conference on Structural Engineering and Construction㸭EASEC-14㸭2016 ᖺ

13. ᒣෆᏲ, ୰⁁⩧, ⸨஭㝯ྐ, ⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ ࢫࢣ࣮ࣜࣥࢢ࡟୚࠼ࡿ⢏ᗘศᕸࡢᙳ㡪㸭ࢥࣥࢡ࣮ࣜࢺᕤᏛᖺḟㄽᩥ㞟㸪Vol.38㸪No.1 㸭᪥ᮏࢥࣥࢡ࣮ࣜࢺᕤᏛ఍㸭2016 ᖺ 14. ᮡ⏣⠜ᙪ, ⓑᕝ㍤, ⸨஭㝯ྐ, ⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺ ࡢ෾⤖⼥ゎ᢬ᢠᛶ࡟୚࠼ࡿ⤖ྜᮦ࠾ࡼࡧ㣴⏕ࡢᙳ㡪㸭ࢥࣥࢡ࣮ࣜࢺᕤᏛᖺḟㄽᩥ 㞟㸪Vol.38㸪No.1㸭᪥ᮏࢥࣥࢡ࣮ࣜࢺᕤᏛ఍㸭2016 ᖺ

15. T. Fujii, A. Sugita, T. Ayano㸭Improvement of Durability of Concrete by Granulated Blast Furnace Slag Sand㸭Proceedings of SCMT4㸭SCMT4㸭2016 ᖺ

16. ⸨஭㝯ྐ, ᇼỈ⣖, ⸨ཎᩧ, ⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ୰ᛶ໬㸪 ሷ໬≀࢖࢜ࣥᾐ㏱ᛶ࠾ࡼࡧ㟁Ẽ᢬ᢠᛶ࡟㛵ࡍࡿ◊✲㸭ࢥࣥࢡ࣮ࣜࢺᵓ㐀≀ࡢ⿵ಟ㸪 ⿵ᙉ㸪࢔ࢵࣉࢢ࣮ࣞࢻㄽᩥሗ࿌㞟㸪Vol. 16㸭᪥ᮏᮦᩱᏛ఍㸭2016 ᖺ 17. ᮡ⏣⠜ᙪ, ஧஭㇂ᩍ἞, ⸨஭㝯ྐ, ⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡࣜ ࣮ࢺᗋ∧ࡢ㍯Ⲵ㔜㉮⾜⑂ປヨ㦂㸭➨ 25 ᅇࣉࣞࢫࢺࣞࢫࢺࢥࣥࢡ࣮ࣜࢺࡢⓎᒎ࡟㛵 ࡍࡿࢩ࣏ࣥࢪ࣒࢘ㄽᩥ㞟㸭ࣉࣞࢫࢺࣞࢫࢺࢥࣥࢡ࣮ࣜࢺᕤᏛ఍㸭2016 ᖺ 18. ᑠᯘோ, Ἑ୰ᾴ୍, ⸨஭㝯ྐ, ⥤㔝ඞ⣖㸭5 ᖺ㛫ᐇ⎔ቃ࡟᭚㟢ࡋࡓ PC ୖ㒊ᕤࡢᐇ≀ ኱౪ヨయ࡟࠾ࡅࡿ஝⇱཰⦰ࡦࡎࡳ㸭➨ 25 ᅇࣉࣞࢫࢺࣞࢫࢺࢥࣥࢡ࣮ࣜࢺࡢⓎᒎ࡟ 㛵ࡍࡿࢩ࣏ࣥࢪ࣒࢘ㄽᩥ㞟㸭ࣉࣞࢫࢺࣞࢫࢺࢥࣥࢡ࣮ࣜࢺᕤᏛ఍㸭2016 ᖺ 19. ᑠᯇ‶㸭࣋ࣥࢺࢼ࢖ࢺ⣔ᮦᩱ࡟㛵ࡍࡿᐊෆ㏱Ỉヨ㦂ࡢ୍౛㸭➨ 60 ᅇᆅ┙ᕤᏛࢩࣥ ࣏ࢪ࣒࢘㸭ᆅ┙ᕤᏛ఍㸭2016 ᖺ

20. T. Sakaki, M. Komatsu, R. Takeuchi 㸭 Extending Water Retention Curves to a Quasi-Saturated Zone Subjected to a High Water Pressure up to 1.5 Megapascals㸭Vadose Zone J., doi:10.2136/vzj2015.12.0165㸭Soil Science Society of America㸭2016 ᖺ

21. J.H. Kim, H.G. Kim, B.S. Kim, S.W. Park㸭Impacts of rainfall events and distribution on unsaturated soil slope analysis㸭Journal of Korean Geotechnical Society, Vol.32, No.1, pp.35-43(in Korean)㸭2016 ᖺ

22. B.S. Kim, Y. Takeshita, S.W. Park, S. Kato㸭Study on opening between shear boxes using DEM simulation㸭Japanese Geotechnical Society Special Publication, Vol.2, No.18, pp.681-684㸭2016 ᖺ

23. 㔠⛃὚, ຍ⸨ṇྖ, S.W. Park, ➉ୗ♸஧㸭DEM ࢩ࣑࣮ࣗࣞࢩࣙࣥ࡟ࡼࡿ୍㠃ࡏࢇ᩿ ヨ㦂ࡢ㝽㛫ᖜ࡟㛵ࡍࡿ᳨ウ㸭ᆅ┙ᕤᏛࢪ࣮ࣕࢼࣝ, Vol.11,No.1,pp.21-31㸭2016 ᖺ 24. B.S. Kim, S.W. Park, Y. Takeshita, S. Kato㸭Effect of suction stress on the critical state of

ASCE, D4016010-1-11㸭DOI:10.1061/(ASCE)GM.1943-5622.0000665㸭2016 ᖺ

25. B.S. Kim, S. Kato, S.W. Park, Y. Takeshita㸭Effect of fine grain content on unsaturated shear strength of embankment material㸭Japanese Geotechnical Society Special Publication, Vol.4, No.4, pp. 60-63㸭2016 ᖺ

26. Y.H. Kim, H.S. Park, B.S. Kim, S.W. Park㸭Condition Assessment of Various Types of Road Cavities Using DEM㸭International Journal of Highway Engineering. Vol.18,No.5, pp.39-47 (in Korean)㸭2016 ᖺ

27. 㔠⛃὚, Ώඃᶞ, ຍ⸨ṇྖ, ➉ୗ♸஧㸭Ἑᕝሐ㜵ᮦᩱࡢ⣽⢏ศྵ᭷⋡ࡀᾐ㏱≉ᛶ࡟ ཬࡰࡍᙳ㡪㸭ᆅ┙ᕤᏛ఍୰ᅜᨭ㒊ㄽᩥሗ࿌㞟(ᆅ┙࡜ᘓタ) (ᥖ㍕ணᐃ)㸭2016 ᖺ 28. A. Rifa’i, Y. Takeshita, M. Komatsu㸭Characterization of Soil Permeability in Prambanan

Temple Yard Based on Development of In Situ Test㸭International Journal of GEOMATE, Vol.11, Issue 26, pp.2620-2625㸭Geotechnique, Construction Materials and Environment㸭 2016 ᖺ

29. A. Rifa’i, Y. Takeshita, M. Komatsu㸭Determination of Unsaturated Soil Permeability Based on Geometric Factor Development of Constant Discharge Model㸭International Journal of Environmental, Chemical, Ecological, Geological and Geophysical Engineering Vol.10, No.9, pp.867-872㸭World Academy of Science, Engineering and Technology㸭2016 ᖺ 30. ᕤ௦೺ኴ, ๓㔝リᮁ, ㉥✠Ⰻ㍜, ྜྷ⏣ᆂ௓㸭༡ᾏࢺࣛࣇᆅ㟈ୗࡢ㬆㛛࣭᫂▼ᾏᓙ㒊 ࡢὠἼἼᙧࢆ⏝࠸ࡓᒸᒣᕷ࡟く᮶ࡍࡿὠἼࡢண ࣔࢹࣝࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ), Vol.72, No.4㸭ᅵᮌᏛ఍㸭2016 ᖺ 31. ᖹ஭ᗣ㝯, ๓㔝リᮁ, ྜྷ⏣ᆂ௓, ⸨⏣㥴భ, ㉥✠Ⰻ㍜㸭᳜⏕ᾘ㛗ࣔࢹࣝࢆ⏝࠸ࡓ♟ Ἑཎ෌⏕ᚋࡢ≀⌮⎔ቃኚ໬ࡢ᳨ド㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ), Vol.72, No.4㸭ᅵᮌ Ꮫ఍㸭2016 ᖺ 32. ๓㔝リᮁ, ྜྷ⏣ᆂ௓, ᖹ஭ᗣ㝯, ᒾᇛᬛ኱, ᒣཱྀ⳹✑, ⸨⏣㥴భ㸭᪫ᕝ䬹ᅬᆅ༊࡟ ࠾ࡅࡿ⤒ᖺኚ໬ࢆ⪃៖ࡋࡓ♟Ἑཎ෌⏕ຠᯝࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ), Vol.72, No.4㸭ᅵᮌᏛ఍㸭2016 ᖺ 33. ྜྷ⏣ᆂ௓, ๓㔝リᮁ㸭ὥỈ᫬ࡢἙ㐨ෆ᳜⏕࡟ࡼࡿὶỈ᢬ᢠࡢ㏫᥎ᐃᡭἲࡢ᳨ウ㸭 ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ), Vol.72, No.4㸭ᅵᮌᏛ఍㸭2016 ᖺ

34. K. Kudai, S. Maeno, K. Yoshida, R. Akoh㸭Study of tidal effect on tsunami 8 behavior striking offshore of Okayama city, japan㸭Proc.20th IAHR-APD Congress㸭IAHR㸭2016 ᖺ

35. T. Iiboshi, S. Maeno, K. Yoshida, Y. Tai, A. Takeuchi, R. Akoh㸭Dam break experiment to characterize landward bed scouring for coastal dikes㸭Proc.20th IAHR-APD Congress㸭 IAHR㸭2016 ᖺ

36. K. Yoshida, S. Maeno, R. Akoh, K. Yamaguchi, T. Iwaki, S. Fujita, Y. Hirai㸭Improvement of diversion weir and surrounding vegetation condition effects on diversion discharge in the Asahi River㸭Proc.20th IAHR-APD Congress㸭IAHR㸭2016 ᖺ

37. K. Yoshida, S. Maeno, K. Yamaguchi, T. Iwaki, S. Fujita, Y. Hirai㸭Forestation control works: secular change at the Gion area in the Asahi River㸭Proc.20th IAHR-APD Congress 㸭IAHR㸭2016 ᖺ

vegetated flooded rivers㸭Proc.20th IAHR-APD Congress㸭IAHR㸭2016 ᖺ

39. M. Fujikane, T. Chino, S. Maeno㸭Flood control plan for the Asahi river bifurcation point using a fixed weir constructed in the Edo period㸭Proc.20th IAHR-APD Congress㸭IAHR 㸭2016 ᖺ

40. R. Akoh, S. Maeno, S. Hirashita, K. Yoshida, T. Matsumoto㸭Two-dimensional river bed configuration analysis of the Hii River and diversion channel flood in September 2013㸭 Proc. River Sedimentation㸭ISRS㸭2016 ᖺ

41. ๓㔝リᮁ, ྜྷ⏣ᆂ௓, Ⲩᮌ኱㍜, ⏣஭♸௓, 㣤ᖸᐩᗈ, ㉥✠Ⰻ㍜㸭ὠἼ㉺ὶ࡟ࡼࡿ ᾏᓊሐ㜵⿬ἲᑼಖㆤᕤࡢ⾪ᧁ᫬ࡢ⿕⅏≉ᛶ࡟㛵ࡍࡿᐇ㦂ⓗ◊✲㸭ᅵᮌᏛ఍ㄽᩥ㞟 B2㸦ᾏᓊᕤᏛ㸧㸪Vol.72, No. 2㸭ᅵᮌᏛ఍㸭2016 ᖺ 42. ㉥✠Ⰻ㍜, ๓㔝リᮁ, 㧗ᶫᕦṊ, ᕤ௦೺ኴ, ྜྷ⏣ᆂ௓㸭ᕷ⾤ᆅࣞ࢖࢔࢘ࢺࢆ⪃៖ࡋ ࡓᒸᒣᕷ࡟࠾ࡅࡿὠἼ฿㐩๓ᚋࡢᾐỈ⠊ᅖண ࠾ࡼࡧ㑊㞴᫬㛫ࡢ᳨ウ㸭ᅵᮌᏛ఍ ㄽᩥ㞟 B2㸦ᾏᓊᕤᏛ㸧㸪Vol.72, No. 2㸭ᅵᮌᏛ఍㸭2016 ᖺ 43. ㉥✠Ⰻ㍜, ๓㔝リᮁ, ྜྷ⏣ᆂ௓㸭‽୕ḟඖὥỈὶゎᯒࣔࢹࣝࢆ⏝࠸ࡓᾋᏊほ ὶ㔞 ࡢ㧗⢭ᗘ໬ᡭἲࡢᵓ⠏㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.73, No.4㸭ᅵᮌᏛ఍㸭༳ๅ ୰ 44. ྜྷ⏣ᆂ௓, ๓㔝リᮁ, 㛫㔝⪔ྖ, ᒣཱྀ⳹✑, ㉥✠Ⰻ㍜㸭ALB ࢆ⏝࠸ࡓἙ㐨ᆅᙧィ  ࡢ⢭ᗘ᳨ド࡜ὶἣゎᯒࡢᨵၿຠᯝࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.73, No.4 㸭ᅵᮌᏛ఍㸭༳ๅ୰ 45. ᕤ௦೺ኴ, ๓㔝リᮁ, ㉥✠Ⰻ㍜, ྜྷ⏣ᆂ௓㸭ࣇ࣮࢚ࣜゎᯒࢆ⏝࠸ࡓᒸᒣᕷἢᓊ࡟࠾ ࡅࡿὠἼࣆ࣮ࢡࡢࣜ࢔ࣝࢱ࢖࣒ண ἲࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.73, No.4㸭ᅵᮌᏛ఍㸭༳ๅ୰ 46. ྜྷ⏣ᆂ௓, ๓㔝リᮁ, ➉ෆ❶ே, ㉥✠Ⰻ㍜, 㣤ᖸᐩᗈ, Ⲩᮌ኱㍜㸭ὠἼ㉺ὶ᫬࡟࠾ ࡅࡿᾏᓊሐ㜵ࡢࣈࣟࢵࢡࢆ⏝࠸ࡓ⿬ἲᑼಖㆤᕤ࡟స⏝ࡍࡿὶయຊࡢᩘ್ィ⟬㸭ᅵ ᮌᏛ఍ㄽᩥ㞟 A2 ศ෉(ᛂ⏝ຊᏛ)㸪≉㞟ྕ㸭ᅵᮌᏛ఍㸭༳ๅ୰

47. Q. Lin, T. Ishikawa, R. Akoh, F. Yang, S. Zhang㸭Soil salinity reduction by river water irrigation in a reed field: A case study in Shuangtai Estuary Wetland, Northeast China㸭 Ecological Engineering㸪Vol.89㸭The Journal of Ecosystem Restoration㸭2016 ᖺ

48. ▼ᕝᛅᬕ, ㉥✠Ⰻ㍜㸭ᩘ್ࢩ࣑࣮ࣗࣞࢩࣙࣥ࡟ࡼࡿỤᡞᮇⓒ㛫ᕝᨺỈ㊰ࡢὥỈㄪ ᩚᶵ⬟ࡢホ౯㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.72, No.4㸭ᅵᮌᏛ఍㸭2016 ᖺ 49. ▼ᕝᛅᬕ, ㉥✠Ⰻ㍜, ᪂஭ዉࠎ⤮, ⏣₶㸭」᩿㠃Ἑ㐨ྜὶ㒊࡟࠾ࡅࡿὥỈὶࡢ⌧ᆅ ◊✲㸫฼᰿ᕝ࣭ΏⰋ℩ᕝྜὶ㒊ࢆ౛࡜ࡋ࡚㸫㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ)㸪Vol.72, No.4㸭ᅵᮌᏛ఍㸭2016 ᖺ 50. すᮧఙ୍, ྜྷ⏣⯙Ꮚ, ኱ஂಖ㈼἞, ௚ 2 ྡ㸭஝‵⧞ࡾ㏉ࡋ࡟ࡼࡿᗏἾࡢ≀⌮໬Ꮫ≉ ᛶࡢኚ໬㸭㎰ᴗ㎰ᮧᕤᏛ఍ㄽᩥ㞟, 303(84-3), II_45-II_50㸭㎰ᴗ㎰ᮧᕤᏛ఍㸭2016 ᖺ 51. ᑠ㔝ᑎ┿୍, 㰻⸨ග௦, ௚ 1 ྡ㸭ἢᓊᕧ኱㒔ᕷ࡟࠾ࡅࡿᆅୗỈỈ㉁ởᰁࡢഴྥ࡟ࡘ ࠸࡚㸭Kansai Geo-Symposium 2016 ㄽᩥ㞟, 3-4㸭ᆅ┙ᕤᏛ఍㛵すᨭ㒊㸪ᆅୗỈᆅ┙⎔ ቃ࡟㛵ࡍࡿ◊✲༠㆟఍㸭2016 ᖺ 52. ΎỈ⿱ኴ, ᑠ㔝ᑎ┿୍, 㰻⸨ග௦, ௚ 2 ྡ㸭኱㜰ᖹ㔝ࡢὸᒙᆅୗỈ⎔ቃ࡟ཬࡰࡍᆅ ୗỈᾰ㣴࡜ୗỈ㐨ࡢᙳ㡪㸭Kansai Geo-Symposium 2016 ㄽᩥ㞟, 3-5㸭ᆅ┙ᕤᏛ఍㛵 すᨭ㒊㸪ᆅୗỈᆅ┙⎔ቃ࡟㛵ࡍࡿ◊✲༠㆟఍㸭2016 ᖺ

53. Do Thi Thu Trang, Nguyen Phuc Thanh, Y. Matsui 㸭 An Estimation of Solid Waste Generation and Recycling and Composting Potential at Educational Facilities: A Case Study in Hue City, Vietnam 㸭 J Environ Soc Sci. 2016;3(1)ISSN:2454-5953 㸭 Open Science Publications㸭2016 ᖺ

54. K. Kawamoto, B. Lu㸭Gasification and reforming of biomass and waste samples by means of a novel catalyst㸭J Mater Cycles Waste Manag, Vol.18, No.4, pp.646-654 (2016), DOI 10.1007/s10163-016-0533-9㸭ᗫᲠ≀㈨※ᚠ⎔Ꮫ఍㸭2016 ᖺ

55. ⚟Ọ⩧ኴ, ⏣ෆ⿱ே, Ụ✀ఙஅ, ᖹ⏣೺ṇ, ᕝᮏඞஓ㸭ከ✀㢮ࡢ᥹Ⓨᛶ᭷ᶵ໬ྜ≀ ࡟ởᰁࡉࢀࡓᖏỈᒙ࡟࠾ࡅࡿཎ఩⨨ࣂ࢖࣓࢜ࣞࢹ࢕࢚࣮ࢩࣙࣥࡢί໬ຠᯝ㸭ᅵᮌ Ꮫ఍ㄽᩥ㞟 B(ỈᕤᏛ)㸭ᅵᮌᏛ఍㸭༳ๅ୰

56. B. Lu, Y. Jub, T. Abe, K. Kawamoto㸭Hydrogen-enriched producer gas production and chemical conversion to useable gas product through biomass gasification using nano NiO particle dispersed on SBA-15㸭Journal of Nanoscience and Nanotechnology㸭American Scientific Publishers㸭༳ๅ୰

57. B. Lu, Y. Jub, T. Abe, K. Kawamoto㸭Direct SEM observation of the dispersion of transition metal ion on mesoporous silica support㸭Journal of Nanoscience and Nanotechnology㸭 American Scientific Publishers㸭༳ๅ୰

58. M. Matsuoka, H. Nagare, T. Fujiwara㸭Simulation of the Collection of Catch Crops for the Recovery of Agricultural Resources using Geographic and Statistical Data㸭Transactions in Gis, 20(2), 221-239㸭2016 ᖺ

59. S. Akao, H. Nagare, M. Maeda, K. Kondo, T. Fujiwara 㸭 Non-sterile simultaneous saccharification and fermentation of corn leaves and stalks to L-lactic acid without external nutrient addition㸭Journal of Material Cycles and Waste Management, 18(2), 208-214㸭 2016 ᖺ

60. T.K.T. Ha, M. Maeda, T. Fujiwara, H. Nagare, S. Akao, Q. T. Tran㸭Nitrous oxide and carbon dioxide emissions from paddy soil treated with rice husk products at different moisture contents in a short-term experiment 㸭 Journal of Environmental Science for Sustainable Society, 7, 9-15㸭2016 ᖺ

61. Ọ⚰ⱥ᫂, Ώ㎶ㄹ, ⸨ཎᣅ, ㉥ᑿ⪽ྐ, ๓⏣Ᏺᘯ㸭኱ᆺỈ⏕᳜≀࠿ࡽࡢࣜࣥᅇ཰㸭 ᅵᮌᏛ఍ㄽᩥ㞟 G(⎔ቃ), 72(8), III_249-III_254㸭2016 ᖺ

62. H. Watanabe, I. Tamura, R. Abe, H. Takanobu, A. Nakamura, T. Suzuki, A. Hirose, T. Nishimura, N. Tatarazako㸭Chronic toxicity of an environmentally relevant mixture of pharmaceuticals to three aquatic organisms (alga, daphnid, and fish) 㸭 Environmental Toxicology and Chemistry, 35(4)㸭SETAC㸭2016 ᖺ

63. ᶫᮏᡂோ, ᾏ㔝㐶㤶㸭RR 㛫㝸ࢆ⏝࠸ࡓ⏕ά㐨㊰ෆ㉮⾜᫬ࡢࢻࣛ࢖ࣂ࣮ࡢࢫࢺࣞࢫ ཯ᛂ࡟㛵ࡍࡿ◊✲㸭㒔ᕷィ⏬ㄽᩥ㞟, Vol.51, No.3㸭᪥ᮏ㒔ᕷィ⏬Ꮫ఍㸭2016 ᖺ 64. ᒸᮧ⠜, ᶫᮏᡂோ, ᯇᮧ༤ᩥ㸭୰ᒣ㛫㞟ⴠ࡟࠾ࡅࡿ⌧ᅾ୪ࡧ࡟ᑗ᮶ࡢࣂࢫࡢ฼⏝ព ྥ࡟㛵ࡍࡿᇶ♏ⓗ◊✲㸭㒔ᕷィ⏬ㄽᩥ㞟, Vol.51, No.3㸭᪥ᮏ㒔ᕷィ⏬Ꮫ఍㸭2016 ᖺ 65. ᶫᮏᡂோ, すᾆဴဢ㸭⏕ά㐨㊰ࡢ࣮࢝ࣛ⯒⿦ࡢᑟධ࡟ᑐࡍࡿᆅᇦఫẸࡢ㈶ྠព㆑ ࡟㛵ࡍࡿ◊✲㸭ᅵᮌᏛ఍ㄽᩥ㞟 D3㸭ᅵᮌᏛ఍㸭2016 ᖺ

application of traffic accident density estimation models using Kernel Density Estimation㸭 Journal of Traffic and Transportation Engineering (English Edition) 㸭 10.1016/j.jtte.2016.01.005㸭2016 ᖺ 67. Ặཎᓅே, 㜿㒊ᏹྐ, ᮧ⏣┤㍤, 㮖ᑿ┤⣫㸭ᆅ᪉㒔ᕷ࡟࠾ࡅࡿ㒔ᕷࢫ࣏ࣥࢪ໬ࡢᐇ ドⓗ◊✲̿ᘓ≀㛤Ⓨ࣭⁛ኻ࣭✵ࡁᐙ≧ἣࡢどⅬ࠿ࡽ̿㸭ᅵᮌᏛ఍ㄽᩥ㞟㸪Vol.72㸪 No.1㸪pp.62-72㸭ᅵᮌᏛ఍㸭2016 ᖺ 68. Ặཎᓅே, 㜿㒊ᏹྐ, 㔝୰ᤩ㸭ఫᏯᆅࡢ┒⾶ࢡࣛࢫࢱ࣮࠿ࡽࡳࡓ㒔ᕷࢫ࣏ࣥࢪ໬ࡢ ᐇែ㸭㒔ᕷィ⏬ㄽᩥ㞟㸪Vol.51-3㸪pp.466-473㸭㒔ᕷィ⏬Ꮫ఍㸭2016 ᖺ 69. ⏣㑓ಙ⏨, Ặཎᓅே, 㜿㒊ᏹྐ㸭⥅⥆ⓗ࡞ࡲࡕ࡙ࡃࡾάື࡟ྥࡅࡓ⤌⧊㐠Ⴀࡢㄢ㢟 ࡜࣐ࢿࢪ࣓ࣥࢺࡢ᪉⟇࡟㛵ࡍࡿ⪃ᐹ̿άື⪅ࡢほⅬ࡟ᇶ࡙ࡃศᯒ̿㸭㒔ᕷィ⏬ㄽ ᩥ㞟㸪Vol.51-3㸪pp.553-559㸭㒔ᕷィ⏬Ꮫ఍㸭2016 ᖺ 70. Ỉ㔝ᙬຍ, Ặཎᓅே, 㜿㒊ᏹྐ㸭ࢃࡀᅜࡢ✵ࡁᐙཬࡧ✵ࡁᆅᑐ⟇ࡢ⌧≧࡜ࢥࣥࣃࢡ ࢺࢩࢸ࢕ᨻ⟇࡜ࡢ㐃ᦠᡭἲࡢᥦ᱌㸭㒔ᕷィ⏬ㄽᩥ㞟㸪Vol.51-3㸪pp.1101-1108㸭㒔ᕷ ィ⏬Ꮫ఍㸭2016 ᖺ 71. 䬢ཱྀ㍤ஂ, ᡞ㇂ᐋ㈗, ᒣ⛉┤⏕㸭㏆ୡ᭱኱ࡢ◁㜵᪋タ⩌ู͆ᡤ◁␃͇̿ࡑࡢᐇែ࡜ ᆅᇦఫẸ࡟ࡼࡿಖᏑᩚഛάື㸦➨୍ሗ㸧̿㸭ᅵᮌྐ◊✲㸪Vol.36㸭ᅵᮌᏛ఍㸭2016 ᖺ ⥲ㄝ➼ 1. ᯇ஭ᗣᘯ㸭3R ᨻ⟇ࡢࡈࡳῶ㔞࣭㈨※໬ಁ㐍ຠᯝ࡟㛵ࡍࡿศᯒ㸭⏕ά࡜⎔ቃ, Vol.61, No.10㸭㸦୍㈈㸧᪥ᮏ⎔ቃ⾨⏕ࢭࣥࢱ࣮㸭2016 ᖺ 2. ᯇ஭ᗣᘯ㸭ᒸᒣ┴⏘ΎỈⓑ᱈ᯝỒࢆ⏝࠸ࡓ࣮ࣜࣘࢫࡧࢇධࡾ㣧ᩱࡢ㛤Ⓨཬࡧࡑࡢ ᬑཬၨⓎ࡟ྥࡅࡓㄢ㢟㸭㒔ᕷΎᤲ, ➨ 69 ᕳ➨ 331 ྕ㸭㸦බ♫㸧඲ᅜ㒔ᕷΎᤲ఍㆟ 㸭2016 ᖺ 3. ᶫᮏᡂோ㸭㐠㌿ࡋ࡞࠸ᬽࡽࡋࡢᐇ⌧࡟ྥࡅ࡚㸭ࡑࢇࡱண㜵᫬ሗ Vol.265㸭᪥ᮏᦆᐖ ಖ㝤༠఍㸭2016 ᖺ 4. 䬢ཱྀ㍤ஂ㸭ࠕᅵᮌࢥࣞࢡࢩࣙࣥ 2015 in ᒸᒣࠖ㛤ദሗ࿌㸭ᅵᮌྐ◊✲㸪Vol.36㸭ᅵᮌ Ꮫ఍㸭2016 ᖺ ᣍᚅㅮ₇ࡲࡓࡣᇶㄪㅮ₇

1. K. Kawamura㸭Keynote: Molecular simulations of mineral-water/solution systems㸭Gold schmidt Conference㸭2016 ᖺ 7 ᭶ 2. すᒣဴ㸭ICT ᢏ⾡ࡢά⏝࡟ࡼࡿᩳ㠃㜵⅏㸦ῶ⅏㸧ࡣ࡝ࡇࡲ࡛㐍ࡴࡢ࠿㸭࣮ࣝࣉࣇ࢙ ࣥࢫ◊✲఍㸭2016 ᖺ 5 ᭶ 3. すᒣဴ㸭⏘ᐁᏛࡢ㐃ᦠ࡛❧ࡕୖࡆࡿࢻ࣮ࣟࣥ 20 ඙෇ᕷሙࡢ୰㌟㸭JMSA ࢻ࣮ࣟࣥ ά⏝ࢭ࣑ࢼ࣮㸭2016 ᖺ 5 ᭶ 4. ẚỤᓥៅ஧㸭᣺ࡾᏊᘧ₻ὶⓎ㟁 Hydro-VENUS ࡟ࡼࡿ㔛ᾏ࢚ࢿࣝࢠ࣮ࡢ㛤Ⓨ㸭᪥ᮏ ⯪⯧ᾏὒᕤᏛ఍㸭2016 ᖺ 11 ᭶ 5. ➉ୗ♸஧㸭୙㣬࿴ᅵࡢᾐ㏱≉ᛶࡢᇶ♏⌮ㄽ㸭ᆅ┙ᕤᏛ఍㸭2016 ᖺ 8 ᭶

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4. 䬢ཱྀ㍤ஂ㸭㏆ୡ⚟ᒣ⸬࡟ࡼࡗ࡚⠏㐀ࡉࢀࡓูᡤ◁␃ࡢಖᏑ࣭ά⏝࡟ྥࡅࡓᐇែㄪᰝ 㸭◊✲࣏࣮ࣞࢺ➨ 17 ྕ㸭㸦බ㈈㸧ඵ㞼⎔ቃ⛉Ꮫ᣺⯆㈈ᅋ㸭2016 ᖺ 10 ᭶

ҡಅᛯ૨ᴾ

⎔ቃࢩࢫࢸ࣒ゎᯒᏛ㸦ᣦᑟᩍဨ㸸Ἑᮧ㞝⾜࣭すᒣဴ࣭ᮌᮏ࿴ᚿ㸧 1. ᗈᇦᆅୗỈࡢ࣮࢜ࣉࣥࢱ࢖ࣉ⇕฼⏝࡟࠾ࡅࡿ┠ワࡲࡾ⌧㇟ࡢᅇ㑊᪉ἲ 2. 㧗㧗ᗘ 3D ࣮ࣞࢨ࣮ࢫ࢟ࣕࢼࢆ⏝࠸ࡓἙᕝሐ㜵ࣔࢽࢱࣜࣥࢢᡭἲࡢ◊✲ 3. ศᏊࢩ࣑࣮ࣗࣞࢩࣙࣥࢆ⏝࠸ࡓỈ࿴ࣔࣥࣔࣜࣟࢼ࢖ࢺࡢᙎᛶಀᩘࡢ᥎ᐃ 4. ࢹࢪࢱࣝ⏬ീࢆ⏝࠸ࡓࡦࡧ๭ࢀᖜࡢ㐲㊥㞳ィ ࡟㛵ࡍࡿ◊✲ 5. ㉸㡢Ἴ࡟ࡼࡿ࣋ࣥࢺࢼ࢖ࢺỈศ㔞ࡢ᥎ᐃ࡟㛵ࡍࡿᇶ♏ⓗ◊✲ 6. ⰼᓵᒾ࡟࠾ࡅࡿ㉸㡢Ἴࡢศᩓᛶホ౯ 7. ࢹࢪࢱࣝ⏬ീィ ࢆ⏝࠸ࡓษ⩚ኚ≧ࣔࢽࢱࣜࣥࢢࡢ◊✲ ⎔ቃ᣺ື࢚ࢿࣝࢠ࣮Ꮫ㸦ᣦᑟᩍဨ㸸ẚỤᓥៅ஧㸧 8. ≉Ṧ᩿㠃ᙧ≧᣺ࡾᏊࢆ⏝࠸ࡓ Hydro-VENUS ࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟࡟ཬࡰࡍὶ㏿ ࡜᣺ࡾᏊ㛗ࡉࡢᙳ㡪 9. ≉Ṧ᩿㠃ᙧ≧᣺ࡾᏊࢆ⏝࠸ࡓ Hydro-VENUS ࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟࡟ཬࡰࡍ᩿ 㠃࢔ࢫ࣌ࢡࢺẚࡢᙳ㡪 10. 2 㐃ྠᮇ࣭㠀ྠᮇࡢ≉Ṧ᩿㠃ᙧ≧᣺ࡾᏊࢆ⏝࠸ࡓ Hydro-VENUS ࡢ࢚ࢿࣝࢠ࣮ྲྀ ᚓᛶ⬟ ✵㛫ࢹࢨ࢖ࣥᏛ㸦ᣦᑟᩍဨ㸸⥤㔝ඞ⣖࣭⸨஭㝯ྐ㸧 11. 㧗⅔Ỉ○ࢫࣛࢢࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ⪏㕲➽⭉㣗ᛶ࡟㛵ࡍࡿ◊✲ 12. ෾⤖⼥ゎస⏝࡜⧞㏉ࡋⲴ㔜ࢆཷࡅࡿࢥࣥࢡ࣮ࣜࢺࡢ◚ቯタィ࡟㛵ࡍࡿ◊✲ 13. ⤖ྜᮦ࠾ࡼࡧ㣴⏕ࡀ㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ෾⤖⼥ゎ᢬ᢠᛶ࡟ ୚࠼ࡿᙳ㡪 14. 㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢࢫࢣ࣮ࣜࣥࢢ࡟୚࠼ࡿ⢏ᗘศᕸࡢᙳ㡪 ᆅୗỈᏛ㸦ᣦᑟᩍဨ㸸ᑠᯇ‶㸧 15.  ᗘኚ໬ࢆ⪃៖ࡋࡓ⢏≧࣋ࣥࢺࢼ࢖ࢺࡢỈศ㔞ィ ࡟㛵ࡍࡿ◊✲ 16. ᅵ୰Ỉศィࢆ⏝࠸ࡓ⮬↛ᆅ┙࡟࠾ࡅࡿ᭷ຠ㛫㝽⋡ࡢ ᐃ᪉ἲ࡟㛵ࡍࡿᇶ♏ⓗ◊✲ 17. 㖄┤୍ḟඖ࣒࢝ࣛ࡟ࡼࡿ㠀ᐃᖖ㏱Ẽヨ㦂ἲࡢ㐺⏝ᛶ࡟㛵ࡍࡿ◊✲ ᆅ┙ᕤᏛ㸦ᣦᑟᩍဨ㸸➉ୗ♸஧࣭㔠⛃὚㸧 18. DEM ࢩ࣑࣮ࣗࣞࢩࣙࣥࢆ⏝࠸ࡓ୍㠃ࡏࢇ᩿ヨ㦂࡛ࡢ㝽㛫ᖜ࡟㛵ࡍࡿ◊✲ 19. Ἑᕝሐ㜵ෆࡢ⣽⢏ศྵ᭷⋡࡟ࡼࡿ୙㣬࿴ᅵࡏࢇ᩿ᙉᗘ≉ᛶ࡟㛵ࡍࡿ◊✲ 20. Ἑᕝሐ㜵࡟࠾ࡅࡿ㝆㞵ᾐ㏱࡟ࡼࡿᅵ୰Ỉศືែ࡟㛵ࡍࡿ◊✲ 21. ࣉࣞࢵࢩ࣮ࣕ࢖ࣥࣇ࢕ࣝࢺ࣓࣮ࣟࢱ࣮ἲࢆ⏝࠸ࡓ⌧ሙ㣬࿴㏱Ỉಀᩘࡢ ᐃ᪉ἲ࡟ 㛵ࡍࡿ◊✲  22. Ἑᕝሐ㜵ෆࡢ⣽⢏ศྵ᭷⋡࡟ࡼࡿ㇦㞵ᾐ㏱≉ᛶ࡟㛵ࡍࡿ◊✲

㝣Ỉᚠ⎔ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸኱ஂಖ㈼἞࣭㰻⸨ග௦㸧 23. ඣᓥ†ࡢᡂᒙᵓ㐀࡟㛵ࡍࡿ◊✲ 24. Ỉ ኚ໬࡟ᇶ࡙ࡃᾏᗏ‪Ỉࡢホ౯࡟㛵ࡍࡿ◊✲ 25. ࡓࡵụ࡟࠾ࡅࡿᏘ⠇ᡂᒙࡢᾘ㛗㐣⛬࡟㛵ࡍࡿ◊✲ 26. ⍇⍈†࡟࠾ࡅࡿᰤ㣴ሷ㈇Ⲵ㔞࡟㛵ࡍࡿ◊✲ Ỉᇦ⎔ቃタィᏛ㸦ᣦᑟᩍဨ㸸๓㔝リᮁ࣭ྜྷ⏣ᆂ௓࣭㉥✑Ⰻ㍜㸧 27. ‴᭤Ỉ㊰࡟࠾ࡅࡿᶓ㉺ὶ㔞⟬ᐃබᘧ࡟㛵ࡍࡿᐇ㦂ⓗ◊✲ 28. ὠἼ㉺ὶ࡟ࡼࡿᾏᓊሐ㜵⿬ἲᑼಖㆤᕤࡢ⿕⅏≉ᛶ࡟㛵ࡍࡿᐇ㦂ⓗ◊✲ 29. ᛴᩳ㠃ୖࡢᕷ⾤ᆅࢆᑐ㇟࡜ࡋࡓỏ℃ゎᯒࣔࢹࣝࡢ㐺⏝ᛶࡢᶍᆺᐇ㦂࡟ࡼࡿ᳨ド 30. ᕷ⾤ᆅࣞ࢖࢔࢘ࢺࢆ⪃៖ࡋࡓᒸᒣᕷ࡟࠾ࡅࡿὠἼ฿㐩๓ᚋࡢᾐỈ⠊ᅖண ࠾ࡼࡧ 㑊㞴᫬㛫ࡢ᳨ウ 31. ‽୕ḟඖὶἣゎᯒࢆ⏝࠸ࡓỤࡢᕝ࡟࠾ࡅࡿほ ὶ㔞ࡢ᳨ド 32. ᪫ᕝ䬹ᅬᆅ༊࡟࠾ࡅࡿษࡾୗࡆ࣭ᇙᡠࡋ࡟ࡼࡿ⤒ᖺኚ໬ࢆ⪃៖ࡋࡓᶞᯘ໬ᢚไຠᯝ ࡢ᳨ウ ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸⸨ཎ೺ྐ㸧 33. ⅏ᐖᗫᲠ≀ฎ⌮࢚࢟ࢫࣃ࣮ࢺࢩࢫࢸ࣒ࡢᵓ⠏࡟㛵ࡍࡿ◊✲  ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸ᯇ஭ᗣᘯ㸧 34. 3R ྲྀ⤌ୖ఩ᕷ⏫ᮧཬࡧᒸᒣᕷ࡟࠾ࡅࡿ 3R ⾜ື࣭ព㆑ࡢᆅᇦ㛫ẚ㍑ 35. ᒸᒣᕷ࡟࠾ࡅࡿᐙᗞࡈࡳⓎ⏕ཎ༢఩ࡢᙳ㡪せᅉ࡜ண ࣔࢹࣝࡢᵓ⠏  Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸ᕝᮏඞஓ࣭⏣ᮧ⏕ᘺ㸧 36. ࣂ࢖࣐࢜ࢫ࢞ࢫ໬࢞ࢫࡢゐ፹ኚ᥮࡟㛵ࡍࡿ◊✲ 37. ᗫࢱ࢖ࣖࡢⅣ໬ฎ⌮࡜⏕ᡂⅣ໬≀࡟㛵ࡍࡿᇶ♏◊✲ 38. 㜵⳦๣ࢺࣜࢡࣟࢧࣥࡢἙᕝᗏ㉁࡬ࡢ྾╔ᛶ࡟㛵ࡍࡿᇶ♏◊✲ Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸Ọ⚰ⱥ᫂㸧 39. ࢩࣥࢢ࣮ࣝ࣎ࢻࢥࣥࣆ࣮ࣗࢱࢆ⏝࠸ࡓᚤ⏕≀཯ᛂᵴไᚚࢩࢫࢸ࣒ࣉࣟࢺࢱ࢖ࣉࡢ ᵓ⠏ 40. ᳜≀ࣂ࢖࣐࢜ࢫ࠿ࡽࡢࣄࢻࣟ࢟ࢩ࢔ࣃࢱ࢖ࢺᅇ཰ 41. Chlorella zofingiensis ࡟ࡼࡿୗỈ୰᭷ᶵ≀ศゎ࡜࢜ࢰࣥฎ⌮ࡀศゎᛶ࡟ཬࡰࡍᙳ㡪 ⎔ቃ≀⌮Ꮫ㸦ᣦᑟᩍဨ㸸ᒾ⏣ᚭ㸧 42. Ỉ✄⪔సᆅ࠿ࡽࡢ ᐊຠᯝ࢞ࢫᨺฟ࡟㛵ࡍࡿ◊✲ 43. ࿘ᮇ℺₅Ỉ⏣࡟࠾ࡅࡿ ᣑᩓಀᩘࡢ᳨ウ࡜ㄢ㢟࡟㛵ࡍࡿ◊✲ 44. ṧ´↝༷ࡀỈ✄༢స⏣ࡢ஧㓟໬Ⅳ⣲཰ᨭ࡟୚࠼ࡿᙳ㡪࡟㛵ࡍࡿ◊✲ ᆅᇦ⎔ቃィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸㜿㒊ᏹྐ࣭Ặཎᓅே㸧 45. ⮬ື㌴౫Ꮡᆺ㒔ᕷᵓ㐀ࡀ⛣ື฼౽ᛶホ౯࡟ཬࡰࡋࡓᙳ㡪

46. 㒔ᕷࢫ࣏ࣥࢪ໬ࡢࣃࢱ࣮ࣥศᯒ࠿ࡽࡳࡓఫᏯᆅࡢ┒⾶≧ែ 47. ඲ᅜㄪᰝ࡟ᇶ࡙࠸ࡓ⮬἞య࡟ࡼࡿ✵ࡁᐙཬࡧ✵ࡁᆅᑐ⟇ࡢᐇែ࡜ㄢ㢟 48. බඹ஺㏻ࡢᩚഛ≧ἣࡢᕪ␗ࡀ஺㏻⾜ື࡟ཬࡰࡍᙳ㡪࣏࣮̿ࢺࣛࣥࢻ㒔ᕷᅪ࡜ᒸᒣ 㒔ᕷᅪࡢẚ㍑ࢆ㏻ࡌ࡚̿ ⎔ቃࢩࢫࢸ࣒ィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸ᶫᮏᡂோ㸧 49. ⏕ά㐨㊰㉮⾜᫬ࡢࢻࣛ࢖ࣂ࣮ࡢ⏕య཯ᛂ࡟㛵ࡍࡿ◊✲ 50. ஺㏻ࣅࢵࢢࢹ࣮ࢱࢆ⏝࠸ࡓᢤࡅ㐨㐨㊰ࡢ≉ᛶ࡜஦ᨾ࡟㛵ࡍࡿ⪃ᐹ 51. ࢥ࣑ࣗࢽࢸ࢕ࢧ࢖ࢡࣝࡢホ౯࡜ࡲࡕࡢ㨩ຊ࡟㛵ࡍࡿ◊✲ 52. ஺ᕪⅬ࡟࠾ࡅࡿ⮬㌿㌴฼⏝⪅ࡢ␃≉ᛶཬࡧᶓ᩿ᣲື࡟㛵ࡍࡿ◊✲ ᬒほᕤᏛ㸦ᣦᑟᩍဨ㸸噮ཱྀ㍤ஂ㸧 53. ᮾす⏝Ỉ㊰࡟௜㝶ࡍࡿᵓ㐀≀ࡢᅗ㠃ࡢᩚ⌮࣭ศᯒ࠾ࡼࡧ⌧ἣㄪᰝ 54. ᓥཎᕷෆࡢ‪Ỉ࣭⏝Ỉ㊰࡟௜ᖏࡍࡿ▼㐀ᵓ㐀≀࡟㛵ࡍࡿᐇែㄪᰝ 55. ಴ᩜ➇㤿ሙ㊧ᆅ࡟࠾ࡅࡿ㉮㊰ᙧ≧ࡢṧᏑせᅉ 56. ᭶ぢᶫࡢᙧᘧ㑅ᐃ࡟㛵ࡍࡿ◊✲

̲ٟᛯ૨

⎔ቃࢩࢫࢸ࣒ゎᯒᏛ㸦ᣦᑟᩍဨ㸸すᒣဴ࣭ᮌᮏ࿴ᚿ㸧㻌 1. ᵓ㐀≀࣊ࣝࢫࣔࢽࢱࣜࣥࢢࡢࡓࡵࡢ⏬ീィ ἲࡢ◊✲ ⎔ቃ᣺ື࢚ࢿࣝࢠ࣮Ꮫ㸦ᣦᑟᩍဨ㸸ẚỤᓥៅ஧㸧 2. ≉Ṧ᩿㠃ᙧ≧᣺ࡾᏊࢆ⏝࠸ࡓ Hydro-VENUS ࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟࡟ཬࡰࡍ᩿㠃࢔ ࢫ࣌ࢡࢺẚ࡜↓ḟඖὶ㏿ࡢᙳ㡪 3. ᰕ≧᣺ࡾᏊࡢὶయບ㉳᣺ືࡢࣇ࢕࣮ࢻࣂࢵࢡไᚚ  ✵㛫ࢹࢨ࢖ࣥᏛ㸦ᣦᑟᩍဨ㸸⥤㔝ඞ⣖࣭⸨஭㝯ྐ㸧㻌 4. 㧗⅔ࢫࣛࢢ㦵ᮦࢆ⏝࠸ࡓ㧗⪏ஂࢥࣥࢡ࣮ࣜࢺ࡟㛵ࡍࡿ◊✲ ᆅୗỈᏛ㸦ᣦᑟᩍဨ㸸ᑠᯇ‶㸧 5. ࣋ࣥࢺࢼ࢖ࢺ⣔ᮦᩱࡢ㏱Ỉ≉ᛶཬࡧỈศ㔞ィ ࡟㛵ࡍࡿ◊✲ ᆅ┙ᕤᏛ㸦ᣦᑟᩍဨ㸸➉ୗ♸஧࣭㔠⛃὚㸧 6. Ἑᕝሐ㜵ෆࡢ⣽⢏ศྵ᭷⋡࡟ࡼࡿ୙㣬࿴ᅵᆅ┙ᣢᛶ࡟㛵ࡍࡿ◊✲ 㝣Ỉᚠ⎔ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸኱ஂಖ㈼἞࣭㰻⸨ග௦㸧 7. ₻ὶ࡟ࡼࡿᾋ㐟◁㍺㏦㔞ࡢホ౯࡟㛵ࡍࡿ◊✲ Ỉᇦ⎔ቃタィᏛ㸦ᣦᑟᩍဨ㸸๓㔝リᮁ࣭ྜྷ⏣ᆂ௓࣭㉥✑Ⰻ㍜㸧 8. 㸱ḟඖᩘ್ゎᯒࢆ⏝࠸ࡓὠἼ㉺ὶ᫬ࡢᾏᓊሐ㜵⿬ἲᑼಖㆤᕤ࡟స⏝ࡍࡿὶయຊࡢ᳨ ウ 9. 㖄┤㸰ḟඖゎᯒࣔࢹࣝࢆ⏝࠸ࡓὠἼ㉺ὶ᫬ࡢሐ㜵⿬ἲᑼ࡟࠾ࡅࡿᒁᡤὙ᥀࡟㛵ࡍࡿ ◊✲ 10. ᪫ᕝ䬹ᅬᆅ༊࡟࠾ࡅࡿ◁ᕞࡢษୗࡆ࡟ࡼࡿ⤒ᖺⓗ࡞≀⌮⎔ቃኚ໬࡜ࡑࡢせᅉ࡟㛵ࡍ ࡿ◊✲ ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸⸨ཎ೺ྐ㸧

11. Design of Integrated Solid Waste Management System and Scenarios-based Estimates of GHG Emissions in Phnom Penh City

12. ᒸᒣ኱Ꮫ࢟ࣕࣥࣃࢫ࡛Ⓨ⏕ࡍࡿ᭷ᶵᛶᗫᲠ≀ࢆᑐ㇟࡜ࡋࡓᣢ⥆ྍ⬟࡞㈨※ᚠ⎔ࢩࢫ ࢸ࣒ࡢ᭷ຠᛶホ౯

⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸ᯇ஭ᗣᘯ㸧

13. 㸱R࣭㸲R య㦂࢖࣋ࣥࢺ࡟ࡼࡿᬑཬၨⓎຠᯝ࡜ࡑࡢ㛵㐃せᅉࡢ᳨ウ

Nang city,Vietnam

Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸ᕝᮏඞஓ࣭⏣ᮧ⏕ᘺ㸧

15. ᗫᲠ≀⣔ࣂ࢖࣐࢜ࢫࡢ⏕≀࠾ࡼࡧ⇕໬Ꮫฎ⌮࡟ࡼࡿ」ྜฎ⌮ࡢᇶ♏ⓗ◊✲ Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸Ọ⚰ⱥ᫂㸧

16. Chlorella zofingiensis ࢆ⏝࠸ࡓ࢔ࢫࢱ࢟ࢧࣥࢳࣥ⏕⏘ࢆక࠺ᗫᲠஙฎ⌮

17. Recovery of phosphorus and astaxanthin from Haematococcus pluvialis in domestic wastewater  ⎔ቃ≀⌮Ꮫ㸦ᣦᑟᩍဨ㸸ᒾ⏣ᚭ㸧 18. Ỉ⏣ᅵተ୰ࡢ᭷ᶵ≀ศゎ㐣⛬࡜Ⅳ⣲཰ᨭ࡟㛵ࡍࡿ◊✲ 19. ࿘ᮇ℺₅Ỉ⏣࡟࠾ࡅࡿᅵተ㟁఩ኚ໬ࡢ≉ᚩ࡜࣓ࢱࣥᨺฟ࡟୚࠼ࡿᙳ㡪࡟㛵ࡍࡿ◊✲  ⎔ቃࢩࢫࢸ࣒ィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸ᶫᮏᡂோ㸧 20. ⛣ື⎔ቃࢆ⪃៖ࡋࡓ㧗㱋⪅ࡢ୺ほⓗᖾ⚟ឤ࡟㛵ࡍࡿ◊✲㸫వᬤάືࡢ㔜せᛶ࡟╔┠ ࡋ࡚㸫 21. ⏕ά㐨㊰࡟࠾ࡅࡿ஺㏻஦ᨾ༴㝤⟠ᡤண ࣔࢹࣝ࡟㛵ࡍࡿ◊✲  ᬒほᕤᏛ㸦ᣦᑟᩍဨ㸸噮ཱྀ㍤ஂ㸧 22. ୰ᅜྂ㙠࡟࠾ࡅࡿධᅬᩱᚩ཰࡟ࡘ࠸࡚ࡢ⪃ᐹ