2018年 環境デザイン工学科 学術論文等

ᵐᵎᵏᵖ ࠰ᴾ ࿢ؾἙἈỶὅ߻ܖᅹᴾ

ܖᘐᛯ૨ሁᴾ

ⴭ ⴭ  ᭩ 1. ᑠ㔝ᑎ┿୍㸪㰻⸨ග௦㸪໭ᒸ㇦୍㸭℩ᡞෆᾏὶᇦࡢỈ⎔ቃ̿㔛Ỉ̿㸭ྜྷഛேฟ∧㸭 2018 ᖺ 5 ᭶ 2. ᕝᮏඞஓ㸭බᐖ㜵Ṇࡢᢏ⾡࡜ἲつ⦅㞟ጤဨ఍⦅ࠗ᪂࣭බᐖ㜵Ṇࡢᢏ⾡࡜ἲつ 2018 ࢲ࢖࢜࢟ࢩࣥ㢮⦅࠘㸪ศᢸᇳ➹㸸Ϫ.1.4 ྾╔ฎ⌮, pp.397-417㸭㸦୍♫㸧⏘ᴗ⎔ቃ⟶ ⌮༠఍, ୸ၿฟ∧㸦ᰴ㸧㸭2018 ᖺ 2 ᭶ 3. 䬢ཱྀ㍤ஂ㸭ᅵᮌᏛ఍ᅵᮌྐ◊✲ጤဨ఍⦅ࠗᅗㄝ㏆௦᪥ᮏᅵᮌྐ࠘㸪ศᢸᇳ➹㸭㮵ᓥ ฟ∧఍㸭2018 ᖺ 7 ᭶ ཎⴭㄽᩥ㸦ᰝㄞ࠶ࡾ㸧 1. ẚỤᓥៅ஧㸪㧗ᯇᏹᙲ㸪኱⇃ᗈᶞ㸪ୖ⏣๛ឿ㸭ὶయບ㉳᣺ືࡢບ᣺ᶵᵓࢆ฼⏝ࡋࡓ 㠉᪂ⓗ࡞ỈὶⓎ㟁⏝ࢱ࣮ࣅࣥࣈ࣮ࣞࢻ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B3(ᾏὒ㛤Ⓨ)㸪Vol.74, No.1 㸭ᅵᮌᏛ఍㸭2018 ᖺ 2. ẚỤᓥៅ஧㸪ఀ⸨㞙㸪ᰩᒸ኱⁠㸪ᆏᖹ⸄ᚿ㸪ⰼᡣኤ㔛Ꮚ㸪ୖ⏣๛ឿ㸭⩼➃ ᢚไ࡟ ࡼࡿ VENUS ࣈ࣮ࣞࢻࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟ࡢྥୖ㸭➨ 25 ᅇ㢼ᕤᏛࢩ࣏ࣥࢪ࣒࢘ ㄽᩥ㞟㸭㢼ᕤᏛࢩ࣏ࣥࢪ࣒࢘㸭2018 ᖺ 3. ኱▼ᖾ⣖㸪⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗 ࡛㣴⏕ࡋࡓࢥࣥࢡ࣮ࣜࢺࡢ஝⇱཰⦰ࡦࡎࡳ࡜ ⣽Ꮝᚄศᕸ࡟㛵ࡍࡿ◊✲㸭ࢭ࣓ࣥࢺ࣭ࢥࣥࢡ࣮ࣜࢺㄽᩥ㞟㸪Vol.71㸭ࢭ࣓ࣥࢺ༠఍ 㸭2018 ᖺ 4. ⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢᙉᗘ㸪཰⦰㸪ࢡࣜ ࣮ࣉ࠾ࡼࡧ࢔ࣝ࢝ࣜࢩࣜ࢝཯ᛂᢚไຠᯝ࡟㛵ࡍࡿ◊✲㸭ࢥࣥࢡ࣮ࣜࢺᕤᏛᖺḟㄽ ᩥ㞟㸪Vol.40㸪No.1㸭᪥ᮏࢥࣥࢡ࣮ࣜࢺᕤᏛ఍㸭2018 ᖺ 5. ⸨஭㝯ྐ㸪୰ᒣᩔ㑻㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢሷศᾐ ㏱ᛶ࡜㗰ᮦ⭉㣗࡟㛵ࡍࡿ◊✲㸭ࢥࣥࢡ࣮ࣜࢺᵓ㐀≀ࡢ⿵ಟ㸪⿵ᙉ㸪࢔ࢵࣉࢢ࣮ࣞࢻ ㄽᩥሗ࿌㞟㸪Vol. 18㸭᪥ᮏᮦᩱᏛ఍㸭2018 ᖺ

6. M. Futagawa, S. Ogasahara, T. Ito, M. Komatsu, Y. Fuwa, H. Hirano, I. Akita, K. Kusano, M. Watanabe㸭Fabrication of a low leakage current type impedance sensor with shielding structures to detect a low water content of soil for slope failure prognostics 㸭

https://doi.org/10.1016/j.sna.2017.12.022㸭ELSEVIER㸭2018 ᖺ 7. Ḉ㇂៞἞㸪ᑠἨᆂ࿃㸪ᑠ⏣࿴ᗈ㸪ఀ⸨┿୍㸪ᑠᯇ‶㸭ᶍᆺᩳ㠃ࢆ⏝࠸ࡓᨃఝ㣬࿴య ✚ྵỈ⋡࡜ᩳ㠃ኚᙧ࡟㛵ࡍࡿ◊✲㸭https://doi.org/10.3208/jgs.13.183㸭ᆅ┙ᕤᏛ఍ 㸭2018 ᖺ 8. ᑠᯇ‶㸪ቑᒣ༤அ㸪᪂ᮧ༟ஓ㸪⯓ᕝ㐓ᮁ㸭㏱Ỉᛶᇶ♏ᆅ┙࡟㉳ᅉࡍࡿἙᕝሐ㜵ࡢࣃ ࢖ࣆࣥࢢ㐍⾜ᛶ◚ቯ࡟㛵ࡍࡿᶍᆺᐇ㦂㸭ᆅ┙࡜ᘓタ㸪Vol.36㸪No.1㸭ᆅ┙ᕤᏛ఍୰ ᅜᨭ㒊㸭2018 ᖺ 9. すཎ┤ஓ㸪ᑠᯇ‶㸭✵Ẽᅽࢆ⏝࠸ࡓ㐃㏻ヨ㦂࡟㛵ࡍࡿỈᖹ୍ḟඖせ⣲⤖ᯝࡢホ౯㸭 ᆅ┙࡜ᘓタ㸪Vol.36㸪No.1㸭ᆅ┙ᕤᏛ఍୰ᅜᨭ㒊㸭2018 ᖺ 10. 㧗ᶫၨ௓㸪ගቑᮅஂ㸪ྜྷᮏ἞᠇㸪኱㔠㝯ᏹ㸪ᑠᯇ‶㸭㒔ᕷᇦᒣᓅ NATM ᪋ᕤ᫬࡟ ࠾ࡅࡿ㌾ᙅᆅᒣ࡟ᑐࡍࡿ⿵ຓἲࡢ᥇⏝஦౛㸭ᆅ┙࡜ᘓタ㸪Vol.36㸪No.1㸭ᆅ┙ᕤᏛ ఍୰ᅜᨭ㒊㸭2018 ᖺ 11. ᪂ᮧ༟ஓ㸪⸨ྜྷ⚽ᙲ㸪⯓ᕝ㐓ᮁ㸪㰻⸨㞞ᙪ㸪⌔⋪㝯⾜㸪ᑠᯇ‶㸪すᮧఙ୍㸪すᇉㄔ 㸭Ἑᕝሐ㜵ࡢᙅⅬ⟠ᡤࢆᢳฟࡍࡿ✵Ẽᅽ࡟ࡼࡿ㐃㏻ヨ㦂ᡭἲࡢ㛤Ⓨ㸭ᆅ┙࡜ᘓタ㸪 Vol.36㸪No.1㸭ᆅ┙ᕤᏛ఍୰ᅜᨭ㒊㸭2018 ᖺ 12. ➉ୗ♸஧㸪∦ᒣ㡴ᔞ㸪ὠᅧ㑈ኴ㑻㸪ඣᏊ┿ஓ㸭₃ỈࡀⓎ⏕ࡋ࡚࠸ࡿἙᕝሐ㜵࡟࠾ࡅ ࡿᾐ㏱ᣲືࡢィ ஦౛㸭ᆅ┙ᕤᏛࢪ࣮ࣕࢼࣝ,Vol.13,No.1㸭ᆅ┙ᕤᏛ఍㸭2018 ᖺ 13. ᳃஭ಇᗈ㸪⸨ᕳᬕ⾜㸪ᑠᯘ⸅㸪ᯇᮏ࿴ఙ㸪➉ୗ♸஧㸭ᅵࡢ࢟ࣕࣆ࣮ࣛࣜࣂࣜ࢔ᶵ⬟ ࢆ฼⏝ࡋࡓᑠつᶍ㞵Ỉࣁ࣮࣋ࢫࢸ࢕ࣥࢢࢩࢫࢸ࣒ࡢ㛤Ⓨ㸭ᆅ┙ᕤᏛ఍ㄅ㸪Vol.66, No.4㸭ᆅ┙ᕤᏛ఍㸭2018 ᖺ 14. ᕤ௦೺ኴ㸪๓㔝リᮁ㸪㉥✠Ⰻ㍜㸪ྜྷ⏣ᆂ௓㸭⏝Ỉ㊰⥙ࡀ༡ᾏࢺࣛࣇᆅ㟈ୗࡢὠἼỏ ℃࡟୚࠼ࡿᙳ㡪ࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ), 74(4)㸭ᅵᮌᏛ఍㸭2018 ᖺ 15. ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸪ᑠᕝಟᖹ㸪஭㛵⚞அ㸪㉥✠Ⰻ㍜㸭ALB Ⅼ⩌ࢆ⏝࠸ࡓᶞᮌ⩌ࡢ ᐦ⏕ᗘ⟬ᐃἲࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ), 74(4)㸭ᅵᮌᏛ఍㸭2018 ᖺ 16. ㉥✠Ⰻ㍜㸪๓㔝リᮁ㸪㧗ᶫᕦṊ㸪ྜྷ⏣ᆂ௓㸪▼ᕝᛅᬕ㸭ᚤᆅᙧࢆ⪃៖ࡋࡓỏ℃ゎᯒ ᡭἲࡢ᳨ウ࡜㨣ᛣᕝὥỈỏ℃ᇦࢆᑐ㇟࡜ࡋࡓᩘ್ᐇ㦂㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(Ỉᕤ Ꮫ), 74(4)㸭ᅵᮌᏛ఍㸭2018 ᖺ 17. ୰ᒣᙲே㸪㉥✠Ⰻ㍜㸪๓㔝リᮁ㸪ྜྷ⏣ᆂ௓㸭Ἑᗋ㧗ࢹ࣮ࢱࡢゎീᗘ࡜ィ⟬᱁Ꮚࢧ࢖ ࢬࡀἙᗋኚືゎᯒ࡟ཬࡰࡍᙳ㡪࡟㛵ࡍࡿ᳨ウ㸭Ἑᕝᢏ⾡ㄽᩥ㞟, 24㸭ᅵᮌᏛ఍㸭 2018 ᖺ 18. ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸪㧘ᶫᖾ⏕㸪ඣᏊ┿ஓ㸪ᑠᕝಟᖹ㸪㉥✠Ⰻ㍜㸭ALB ィ ࢹ࣮ࢱ ࢆ⏝࠸ࡓὶἣゎᯒ࡟ᇶ࡙ࡃ᪫ᕝୗὶ㒊࡟࠾ࡅࡿ࢔ࣘࡢ⏘༸ሙࡢ≀⌮⎔ቃホ౯㸭ᅵ ᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ), 74(5)㸭ᅵᮌᏛ఍㸭2018 ᖺ 19. ▼ཎṇ⩏㸪㉥✑Ⰻ㍜㸪๓㔝リᮁ㸪ྜྷ⏣ᆂ௓㸭Ỉ㊰‴᭤㒊࡟タ⨨ࡉࢀࡿᶓ㉺ὶሐࡢὶ 㔞බᘧࡢ᳨ウ㸭ᅵᮌᏛ఍ㄽᩥ㞟 B1(ỈᕤᏛ), 74(5)㸭ᅵᮌᏛ఍㸭2018 ᖺ

20. K. Yoshida, S. Maeno, T. Iiboshi, D. Araki㸭Estimation of hydrodynamic forces acting on concrete blocks of toe protection works for coastal dikes by tsunami overflow㸭Applied Ocean Research, 80㸭Elsevier㸭2018 ᖺ

21. K. Yoshida, S. Maeno, K. Mano, S. Ogawa, R. Akoh 㸭 Estimating flow resistance by vegetation in rivers using high-resolution airborne laser bathymetry㸭Proc. 12th Int. Symp. on Ecohydraulics 2018㸭IAHR㸭2018 ᖺ

22. K. Yoshida, S. Maeno, S. Nigo, K. Mano, S. Takahashi, R. Akoh 㸭Remote sensing of morphodynamics and habitats in rivers using airborne LiDAR bathymetry㸭Proc. 12th Int. Symp. on Ecohydraulics 2018㸭IAHR㸭2018 ᖺ

23. P.T. Ho, N.X. Tien, H. Chikamori, K. Okubo㸭A Hydrological Tank Model Assessing Historical Runoff Variation in the Hieu River Basin㸭Asian Journal of Water, Environment and Pollution㸭IOS Press㸭2018 ᖺ

24. M. Saito, S. Onodera, G. Jin, Y. Shimizu, M. Taniguchi㸭Nitrogen dynamics in a highly urbanized coastal area of western Japan: impact of sewage-derived loads㸭Progress in Earth and Planetary Science, 5(17)㸭Springer㸭2018 ᖺ

25. Bandith Seng, T. Fujiwara, Vin Spoann㸭Households’ knowledge, attitudes, and practices toward solid waste management in suburbs of Phnom Penh, Cambodia㸭Waste Management & Research, 36(10)㸭SAGE㸭2018 ᖺ

26. Vin Spoann, T. Fujiwara, Bandith Seng, Chanthy Lay㸭Municipal solid waste management: Constraints and opportunities to improve capacity of local government authorities of Phnom Penh Capital㸭Waste Management & Research, 36(10)㸭SAGE㸭2018 ᖺ

27. D. Pham Van, G. Hoang Minh, S. T. Pham Phu, T. Fujiwara㸭A new kinetic model for biogas production from co-digestion by batch mode㸭Global Journal of Environmental Science and Management, 4(3)㸭GJESM journal㸭2018 ᖺ

28. D. Pham Van, G. M. Hoang, S. T. Pham Phu, T. Fujiwara㸭Kinetics of carbon dioxide, methane and hydrolysis in co-digestion of food and vegetable wastes㸭Global Journal of Environmental Science and Management, 4(4)㸭GJESM journal㸭2018 ᖺ

29. P. V. Dinh, T. Fujiwara, S. T. Pham Phu, M. G. Hoang㸭Kinetic of Biogas Production in Co-Digestion of Vegetable Waste, Horse Dung, and Sludge by Batch Reactors㸭Earth and Environmental Science,59㸭IOP publishing㸭2018 ᖺ

30. H. Fujiwara, H. Kuramochi, T. Maeseto, K. Nomura, Y. Takeuchi, K. Kawamoto, S. Yamasaki, K. Kokubun, M. Osako 㸭 Influence of the type of furnace on behavior of radioactive cesium in municipal solid waste thermal treatment㸭Waste Management, Vol.81 㸭ELSEVIER㸭2018 ᖺ 31. ᶫᮏᡂோ, ᜏ⸨భ㍜㸭ఫẸ୺యࡢ⏕ά஺㏻ᨭ᥼ព㆑࡜୺ほⓗᖾ⚟ឤ࡜ࡢ㛵ಀ࡟㛵 ࡍࡿ◊✲ -㐠㌿චチ㏉⣡ពྥ࡟╔┠ࡋ࡚-㸭https://doi.org/10.2208/jscejipm.74.I_1291 㸭ᅵᮌᏛ఍㸭2018 ᖺ 32. ᾏ㔝㐶㤶, ᶫᮏᡂோ㸭⏕ά㐨㊰㉮⾜᫬ࡢࢻࣛ࢖ࣂ࣮ࡢṌ⾜⪅࡟ᑐࡍࡿࢫࢺࣞࢫព ㆑࡟㛵ࡍࡿ◊✲㸭https://doi.org/10.11361/journalcpij.53.1355㸭᪥ᮏ㒔ᕷィ⏬Ꮫ఍㸭 2018 ᖺ 33. すᾆဴဢ, ᶫᮏᡂோ㸭⏕ά㐨㊰࡟࠾ࡅࡿ㊰ഃᖏ࣮࢝ࣛ⯒⿦ᩚഛ࡟ᑐࡍࡿ⮬἞యព ㆑࡟㛵ࡍࡿ◊✲㸭https://doi.org/10.11361/journalcpij.53.1362㸭᪥ᮏ㒔ᕷィ⏬Ꮫ఍㸭 2018 ᖺ 34. ᶫᮏᡂோ, ᜏ⸨భ㍜㸭ఫẸ୺య࡟ࡼࡿ⏕ά஺㏻㐠Ⴀάື࡬ࡢཧຍព㆑࡜ఫẸࡢ୺ ほⓗᖾ⚟ឤ࡜ࡢ㛵ಀ࡟㛵ࡍࡿ◊✲㸭https://doi.org/10.11361/journalcpij.53.124㸭᪥ᮏ 㒔ᕷィ⏬Ꮫ఍㸭2018 ᖺ 35. ᾏ㔝㐶㤶, ᙇᏱ㝧, ᶫᮏᡂோ㸭ࢻࣛ࢖ࣂ࣮ࡢ⮬ື㌴㐠㌿ព㆑ഴྥ࡟㛵ࡍࡿせᅉศᯒ

㸭https://doi.org/10.14954/jste.4.1_A_280㸭஺㏻ᕤᏛ◊✲఍㸭2018 ᖺ 36. ᶫᮏᡂோ, ᜏ⸨భ㍜㸭ఫẸ୺యࡢ⏕ά஺㏻ᑟධᆅ༊࡟࠾ࡅࡿࠕᨭ࠼ࡿഃࡢព㆑ࠖ࡜ ୺ほⓗᖾ⚟ឤ࡜ࡢ㛵ಀ࡟㛵ࡍࡿ◊✲㸭https://doi.org/10.14954/jste.4.1_A_113㸭஺㏻ ᕤᏛ◊✲఍㸭2018 ᖺ 37. Ᏻ⸨ு௓㸪Ặཎᓅே㸭ࣉ࣮ࣟࣈࣃ࣮ࢯࣥࢹ࣮ࢱࢆ⏝࠸ࡓ୰ᚰᕷ⾤ᆅ࡟࠾ࡅࡿṌ⾜⪅ ୰ᚰࡢ㒔ᕷ✵㛫๰ฟࡢᙳ㡪ศᯒ㸫᮶ゼ⪅ࡢ஺㏻⾜ື࡜ᒃఫᆅ≉ᛶ࡟╔┠ࡋ࡚㸫㸭 10.11361/journalcpij.53.161㸭㒔ᕷィ⏬Ꮫ఍㸭2018 ᖺ 38. ⏣㑓ಙ⏨㸪Ặཎᓅே㸪㜿㒊ᏹྐ㸭ᕷẸ୺యࡢᕷẸࣇ࢓ࣥࢻ⤌⧊㐠Ⴀୖࡢㄢ㢟࡜ࡑࡢ ゎỴ⟇࡟㛵ࡍࡿ⪃ᐹ㸭10.11361/journalcpij.53.466㸭㒔ᕷィ⏬Ꮫ఍㸭2018 ᖺ 39. ྜྷᯇࡦ࠿ࡿ㸪Ặཎᓅே㸪㜿㒊ᏹྐ㸭බඹ஺㏻ࢩࢫࢸ࣒ࡢᩚഛỈ‽࡜ࣔࣅࣜࢸ࢕࣭ ࢹ ࢕ࣂ࢖ࢻࡢⓎ⏕≧ἣ࡟㛵ࡍࡿ◊✲㸫࣏࣮ࢺࣛࣥࢻཬࡧᒸᒣ㒔ᕷᅪࢆᑐ㇟࡟ࡋ࡚㸫 㸭10.14954/jste.4.2_1㸭஺㏻ᕤᏛ◊✲఍㸭2018 ᖺ ཎ ཎⴭㄽᩥ㸦ᰝㄞ࡞ࡋ㸧

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10. 㧘ᶫᖾ⏕㸪ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸪㉥✑Ⰻ㍜㸭ALB ィ ࢹ࣮ࢱࢆ⏝࠸ࡓὶἣゎᯒ࡟ᇶ ࡙ࡃ PHABSIM ࡟ࡼࡿ࢔ࣘࡢ⏘༸ሙࡢ≀⌮⎔ቃࡢホ౯㸭➨ 70 ᅇᅵᮌᏛ఍୰ᅜᨭ㒊 ◊✲Ⓨ⾲఍ㅮ₇ᴫせ㞟㸭ᅵᮌᏛ఍㸭2018 ᖺ 11. ⏣୰㱟஧㸪㉥✑Ⰻ㍜㸪ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸭◁ᕞ⦕㒊࡟࠾ࡅࡿἙᓊᾐ㣗≉ᛶࡢᐇ㦂 ⓗ᳨ウ࠾ࡼࡧᩘ್ゎᯒࡢ㐺⏝ᛶ࡟㛵ࡍࡿ◊✲㸭➨ 70 ᅇᅵᮌᏛ఍୰ᅜᨭ㒊◊✲Ⓨ⾲ ఍ㅮ₇ᴫせ㞟㸭ᅵᮌᏛ఍㸭2018 ᖺ 12. ᒣཱྀ⳹✑㸪ྜྷ⏣ᆂ௓㸪๓㔝リᮁ㸪㛫㔝⪔ྖ㸪㉥✠Ⰻ㍜㸪すᒣဴ㸭ALB ࡟ࡼࡿἙ㐨 ᆅᙧࡢ෌⌧ᛶྥୖ࡟క࠺Ἑᗋኚືゎᯒࡢᨵၿຠᯝࡢ᳨ウ㸭➨ 21 ᅇᛂ⏝ຊᏛࢩ࣏ࣥ ࢪ࣒࢘ㅮ₇ᴫせ㞟㸭ᅵᮌᏛ఍㸭2018 ᖺ 13. ᜏ⸨భ㍜, ᶫᮏᡂோ㸭㧗㱋⪅࡟࠾ࡅࡿ஌ྜ஺㏻ࡢ฼⏝࡜୺ほⓗᖾ⚟ឤࡢ㛵㐃ᛶᢕ ᥱ㸭ᅵᮌィ⏬Ꮫ◊✲Ⓨ⾲఍㸦⛅኱఍㸧 58, CD-ROM㸭ᅵᮌᏛ఍㸭2018 ᖺ 14. ᾏ㔝㐶㤶, ᶫᮏᡂோ㸭⏕ά㐨㊰ෆࡢᏊ࡝ࡶࡢṌ⾜⪅࡟ᑐࡍࡿࢻࣛ࢖ࣂ࣮ࡢࢫࢺࣞ ࢫព㆑࡟㛵ࡍࡿ⪃ᐹ㸭஺㏻ᕤᏛ◊✲Ⓨ⾲఍ 38, CD-ROM㸭஺㏻ᕤᏛ◊✲఍㸭2018 ᖺ 15. 䬢ཱྀ㍤ஂ㸪ᶓᒣள⨾㸭㧗ᱱᕝᮾす⏝Ỉᕤ஦ࡢ஦ᴗ㈝࡟㛵ࡍࡿ◊✲㸭ᅵᮌྐ◊✲㸦ㅮ ₇㞟㸧㸪Vol.38㸭ᅵᮌᏛ఍㸭2018 ᖺ 16. 䬢ཱྀ㍤ஂ㸪ぢᑿᣅᾏ㸭⤮ᅗ㠃ࡢศᯒ࡟ᇶ࡙ࡃ㘊ᖏᶫࡢኚ㑄㸭ᅵᮌྐ◊✲㸦ㅮ₇㞟㸧㸪 Vol.38㸭ᅵᮌᏛ఍㸭2018 ᖺ 17. 䬢ཱྀ㍤ஂ㸪ගᡂⰋ⚽㸭㏆ୡ᭱኱ࡢ◁㜵᪋タ⩌ู͆ᡤ◁␃͇㸦➨୕ሗ㸧㸫ಖᏑά⏝࡟ 㛵ࢃࡿ⾜ᨻࡢᨭ᥼㸫㸭ᅵᮌྐ◊✲㸦ㅮ₇㞟㸧㸪Vol.38㸭ᅵᮌᏛ఍㸭2018 ᖺ ⥲ ⥲ㄝ➼ 1. ⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢᚤ⢊ᮎ࠾ࡼࡧࣇࣛ࢖࢔ࢵࢩࣗࡀ㧗⅔ࢫࣛࢢ⣽㦵ᮦ ࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ෾⤖⼥ゎ᢬ᢠᛶ࡟୚࠼ࡿᙳ㡪㸭ࢭ࣓ࣥࢺ࣭ࢥࣥࢡ࣮ࣜࢺ㸪 No.852㸭ࢭ࣓ࣥࢺ༠఍㸭2018 ᖺ 2. ⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࡢά⏝࡟ࡼࡿࢥࣥࢡ࣮ࣜࢺࡢ⪏ஂᛶྥୖ㸭 ࢥࣥࢡ࣮ࣜࢺࢸࢡࣀ㸪Vol.37㸪No.3㸭ࢭ࣓ࣥࢺ᪂⪺♫㸭2018 ᖺ 3. ᑠᯇ‶㸭ᇶ♏ᕤ࡜ᆅୗỈฎ⌮࣭ᑐ⟇㸫ᆅୗỈὶືࡢㄪᰝᢏ⾡࡜␃ពⅬ㸭ᇶ♏ᕤ㸪 Vol.46㸪No.6㸭⥲ྜᅵᮌ◊✲ᡤ㸭2018 ᖺ 4. ᕝᮏඞஓ㸭1980 ᖺ௦࠿ࡽ 2018 ᖺࡲ࡛ࠊࡑࡋ࡚ࡇࡢᚋ࣭࣭㹼⚾ࡢᩍ⫱࡜◊✲㸭JWMCA ᗫࢥࣥ༠, No.80㸭᪥ᮏᗫᲠ≀ࢥࣥࢧࣝࢱࣥࢺ༠఍㸭2018 ᖺ 5. 䬢ཱྀ㍤ஂ㸭ᐊᡞྎ㢼ࡢ⅏ᐖ᚟ᪧᶫᱱ⩌ 㹼ᶫࡢぢᮏᕷ㹼㸭ᅵᮌᢏ⾡㸪Vol.73 No.8㸭 ⌮ᕤᅗ᭩㸭2018 ᖺ ᣍᚅㅮ₇ࡲࡓࡣᇶㄪㅮ₇

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workshop of͆Vulnerabilities of Water environment in Coastal Cities͇㸭Bandung, Indonesia 㸭2018 ᖺ 8 ᭶

3. M. Saito, S. Onodera, G. Jin, Y. Shimizu, Y. Tomozawa 㸭 Radon tracer approach for groundwater-surface water interaction in the coastal area of Qi’ao island and Asahi River㸭 3rd Sino-Japan seminar 㸭Guangzhou, China㸭2018 ᖺ 8 ᭶

4. T. Fujiwara㸭Choose your sustainable society in terms of solid waste management㸭ATiGB 2018㸭Da Nang, Vietnam㸭2018 ᖺ 11 ᭶

5. T. Fujiwara㸭Disaster Waste Treatment in Japan: Damage from Disaster and its Impact to the Environment㸭ICLCA 2018㸭Johor Bahru, Malaysia㸭2018 ᖺ 10 ᭶

6. K. Kawamoto㸭Waste-to-energy status in Japan㸭Expert Group Meeting on Sustainable Application of Waste-to-Energy in Asian Region㸭Busan, Korea㸭2018 ᖺ 2 ᭶

7. K. Kawamoto 㸭 Formation and degradation of dioxins in an incineration process and emission to the environment㸭The 2018 International Conference on Nanogeosciences in conjunction with the 3rd Chinese Academic Conference of Nanogeosciences㸭Guiyang, China㸭2018 ᖺ 6 ᭶ 8. ᕝᮏඞஓ㸭ᗫᲠ≀⣔ࣂ࢖࣐࢜ࢫࡢ᪂つ࢞ࢫ໬࠾ࡼࡧᨵ㉁ᢏ⾡㛤Ⓨ㸭኱㜰⛉Ꮫᢏ⾡ ࢭࣥࢱ࣮ᆅ⌫⎔ቃᢏ⾡᥎㐍᠓ㄯ఍ㅮ₇఍㸭኱㜰ᕷ㸭2018 ᖺ 7 ᭶ 9. ᕝᮏඞஓ㸭ᗫᲠ≀୙ἲᢞᲠ࡟ࡼࡿᅵተởᰁ࡜ࡑࡢಟ᚟㸭➨ 24 ᅇᆅୗỈ࣭ᅵተởᰁ ࡜ࡑࡢ㜵Ṇᑐ⟇࡟㛵ࡍࡿ◊✲㞟఍≉ูㅮ₇㸭⚟ᓥᕷ㸭2018 ᖺ 10 ᭶ 10. 䬢ཱྀ㍤ஂ㸭඲ᅜ࡟㄂ࡿ⚟ᒣࡢᆅᇦ㈨⏘͆◁␃͇㸫ูᡤ◁␃ࡢ≉ᚩ࡜ࡑࡢ౯್ࢆ୰ᚰ ࡟㸫㸭⚟ᒣᕷᩍ⫱ጤဨ఍ᩥ໬㈈ㄢ㸭ᗈᓥ┴⚟ᒣᕷ㸭2018 ᖺ 3 ᭶ 11. 䬢ཱྀ㍤ஂ㸭Ṕྐⓗᅵᮌᵓ㐀≀ࡢ஦౛⤂௓࡜ࡑࡢ౯್࡟ࡘ࠸࡚㸫ูᡤ◁␃ࡢಖᏑά ⏝࡜ᆅᇦࡢάᛶ໬㸫㸭Ỉࡢᅵᮌྐ◊✲఍㸭⚟ᒸ┴ᮅ಴ᕷ㸭2018 ᖺ 5 ᭶ ◊ ◊✲ㅮ₇࣭Ⓨ⾲ 1. ⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢࣇࣞࢵࢩࣗᛶ≧ࠊ ᙉᗘ࠾ࡼࡧ෾⤖⼥ゎ᢬ᢠᛶ࡟ཬࡰࡍᅇ཰Ỉࡢᙳ㡪㸭➨ 72 ᅇࢭ࣓ࣥࢺᢏ⾡኱఍㸭ᮾ ி㒔㸭2018 ᖺ 5 ᭶ 2. ⸨஭㝯ྐ㸪㧗ᶫඞ๎㸪⥤㔝ඞ⣖㸭〇㐀ᕤሙࡢ␗࡞ࡿ㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥ ࢡ࣮ࣜࢺࡢᙉᗘ࠾ࡼࡧ⪏ஂᛶ࡟㛵ࡍࡿ◊✲㸭ᅵᮌᏛ఍඲ᅜ኱఍➨ 73 ᅇᖺḟᏛ⾡ㅮ ₇఍㸭ᮐᖠᕷ㸭2018 ᖺ 8 ᭶ 3. ᾆ㔝┿ḟ㸪㧘ᶫᆂ୍㸪⸨஭㝯ྐ㸪⥤㔝ඞ⣖㸭⌧ሙ࡛ࡢᡴ㎸ࡳࢆ┠ⓗ࡜ࡋࡓ㧗⅔ࢫࣛ ࢢ⣽㦵ᮦ౑⏝ࢥࣥࢡ࣮ࣜࢺࡢᐇᶵ〇㐀ᐇ㦂㸭ᅵᮌᏛ఍඲ᅜ኱఍➨ 73 ᅇᖺḟᏛ⾡ㅮ ₇఍㸭ᮐᖠᕷ㸭2018 ᖺ 8 ᭶ 4. ➉ୗ♸஧, ∦ᒣ㡴ᔞ, ὠᅧ㑈ኴ㑻, 㔠⛃὚, ᪂㛤❳኱, ඣᏊ┿ஓ㸭୰࣮ࣞࢲ࡟ࡼࡿ Ἑᕝሐ㜵⾲ᒙ࡟࠾ࡅࡿᾐ㏱ᣲືࡢㄪᰝ஦౛㸭➨ 53 ᅇᆅ┙ᕤᏛ◊✲Ⓨ⾲఍㸭㧗ᯇ㸭 2018 ᖺ 7 ᭶ 5. 㔠⛃὚, ᑠᯘᘯᫀ, 㯮ᮌඃ, ➉ୗ♸஧, ຍ⸨ṇྖ㸭࢟ࣕࣆ࣮ࣛࣜࣂࣜ࢔ࡢ⿕そᒙ࡟ ࠾ࡅࡿ␯Ỉᮦࡢ㐺⏝ᛶࡢ᳨ウ 㸫ࡑࡢ 1: ␯Ỉᮦࡢ≀⌮࣭ಖỈ≉ᛶ㸫㸭➨ 53 ᅇᆅ┙ ᕤᏛ◊✲Ⓨ⾲఍㸭㧗ᯇ㸭2018 ᖺ 7 ᭶

6. 㔠⛃὚, ᑠᯘᘯᫀ, 㯮ᮌඃ, ➉ୗ♸஧, ຍ⸨ṇྖ㸭࢟ࣕࣆ࣮ࣛࣜࣂࣜ࢔ࡢ⿕そᒙ࡟ ࠾ࡅࡿ␯Ỉᮦࡢ㐺⏝ᛶࡢ᳨ウ 㸫ࡑࡢ 2: ᐊෆᶍᆺᐇ㦂ࡢᐇ᪋㸫㸭➨ 53 ᅇᆅ┙ᕤᏛ ◊✲Ⓨ⾲఍㸭㧗ᯇ㸭2018 ᖺ 7 ᭶ 7. ຍ⸨ṇྖ, ࣟࣁࢽ ࢱࣛࢹ࢕, 㔠⛃὚, ➉ୗ♸஧㸭୙㣬࿴ᅵࡢ୍㍈ᅽ⦰ヨ㦂࠾ࡼࡧ ᐃྵỈẚࡏࢇ᩿ヨ㦂ࡢᙉᗘ≉ᛶ࡬ࡢࢧࢡࢩࣙࣥᛂຊࡢᙳ㡪࡜ SSM ࡢ㐺⏝ᛶ㸭➨ 53 ᅇᆅ┙ᕤᏛ◊✲Ⓨ⾲఍㸭㧗ᯇ㸭2018 ᖺ 7 ᭶ 8. ➉ୗ♸஧, ∦ᒣ㡴ᔞ, ᚋ⸨❳஧, ඣᏊ┿ஓ㸭Ἑᕝሐ㜵⾲ᒙ࡟࠾ࡅࡿᅵ୰Ỉศ㔞ィ  ࢆ⏝࠸ࡓ୙㣬࿴ᾐ㏱≉ᛶ್ࡢ᥎ᐃ᪉ἲ࡟㛵ࡍࡿ⪃ᐹ㸭ᅵᮌᏛ఍➨ 73 ᅇᖺḟᏛ⾡ㅮ ₇఍㸭ᮐᖠ㸭2018 ᖺ 8 ᭶ 9. 㔠⛃὚, ᑠᯘᘯᫀ, ➉ୗ♸஧, ຍ⸨ṇྖ㸭࢟ࣕࣆ࣮ࣛࣜࣂࣜ࢔ࡢ◁ᒙ࡟࠾ࡅࡿᾐ㏱ Ỉࡢ㠀ഃ᪉ὶືᛶࢆ⪃៖ࡋࡓゎᯒⓗ◊✲㸭ᅵᮌᏛ఍➨ 73 ᅇᖺḟᏛ⾡ㅮ₇఍㸭ᮐᖠ 㸭2018 ᖺ 8 ᭶ 10. ຍ⸨ṇྖ, ⸨ᮏᾴᖹ, 㔠⛃὚㸭ࢩࣛࣥฎ⌮࡟ࡼࡿᅵ㉁ᮦᩱࡢ␯Ỉᛶ࡟㛵ࡍࡿᇶ♏ⓗ ◊✲㸭ᅵᮌᏛ఍➨ 73 ᅇᖺḟᏛ⾡ㅮ₇఍㸭ᮐᖠ㸭2018 ᖺ 8 ᭶ 11. 㔠⛃὚, ᑠᯘᘯᫀ, ➉ୗ♸஧㸭࢟ࣕࣆ࣮ࣛࣜࣂࣜ࢔┒ᅵ࡟࠾ࡅࡿ␯Ỉᛶᆅ┙ᮦᩱࡢ 㐺⏝ᛶࡢ᳨ウ㸭➨ 44 ᅇᆅ┙ᕤᏛࢭ࣑ࢼ࣮ሗ࿌఍㸪ᆅ┙ᕤᏛ఍୰ᅜᨭ㒊㸭ᒸᒣ㸭 2018 ᖺ 7 ᭶

12. Y. Takeshita, N. Katayama, T. Morii㸭Filed measurement of unsaturated soil hydraulic properties in unsaturated soils by using soil water contents㸭5th KOREA-JAPAN Joint Workshop on Unsaturated Soils㸭ࢯ࢘ࣝ㸭2018 ᖺ 5 ᭶

13. H. Kobayashi, B.S. Kim, Y. Takeshita, S. Kato㸭Applicability evaluation of water repellent soil to the sand layer of capillary barrier 㸭 5th KOREA-JAPAN Joint Workshop on Unsaturated Soils㸭ࢯ࢘ࣝ㸭2018 ᖺ 5 ᭶

14. B.S. Kim, S. Kato, S.W. Park, Y. Takeshita㸭Characterizing water retention capacity of non-wettable soils using contin-uous pressurization method㸭7th International Conference on Unsaturated Soils㸭Hong Kong㸭2018 ᖺ 8 ᭶

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ҡಅᛯ૨ᴾ

⎔ቃࢩࢫࢸ࣒ゎᯒᏛ㸦ᣦᑟᩍဨ㸸すᒣဴ࣭ᮌᮏ࿴ᚿ㸧 1. ⴠ▼ᑐ⟇஦ᴗຠ⋡໬ࡢࡓࡵࡢ⯟✵࣮ࣞࢨࢹ࣮ࢱࢆ⏝࠸ࡓⴠ▼Ⓨ⏕※ᢳฟࡢ◊✲ 2. 㠀ᆒ㉁␗᪉ᛶᮦ࡟࠾ࡅࡿᣑᩓゎᯒ࡟㐺ࡋࡓ᭷㝈せ⣲ࣉࣟࢢ࣒ࣛࡢ㛤Ⓨ 3. i-Construction ࡢࡓࡵࡢ UAV ෗┿ 㔞ᡭἲࡢ◊✲ 4. ⇞ᩱࢹࣈࣜࡢᙧ≧ࢆホ౯ࡍࡿࡓࡵࡢ㉸㡢Ἴྍど໬ᢏ⾡ࡢ㛤Ⓨ ⎔ቃ᣺ື࢚ࢿࣝࢠ࣮Ꮫ㸦ᣦᑟᩍဨ㸸ẚỤᓥៅ஧㸧 5. ༙ᴃ෇ᰕ VENUS ࣈ࣮ࣞࢻࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟࡟ཬࡰࡍࣆࢵࢳゅࡢຠᯝ 6. ࢘࢕ࣥࢢࣞࢵࢺ࡟ࡼࡿ VENUS ࣈ࣮ࣞࢻࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟ࡢᨵၿ 7. ୖὶ᪉ྥ࡟‴᭤ࡋࡓ VENUS ࣈ࣮ࣞࢻࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟ ✵㛫ࢹࢨ࢖ࣥᏛ㸦ᣦᑟᩍဨ㸸⥤㔝ඞ⣖࣭⸨஭㝯ྐ㸧 8. 㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢຊᏛⓗᛶ㉁࡟㛵ࡍࡿ◊✲ 9. 㧗⅔ࢫࣛࢢ⣽㦵ᮦࡢ࢔ࣝ࢝ࣜࢩࣜ࢝཯ᛂᢚไຠᯝ࡟㛵ࡍࡿ◊✲ 10. 㧗⅔ࢫࣛࢢࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢሷศᾐ㏱ᛶ࡜㗰ᮦ⭉㣗࡟㛵ࡍࡿ◊✲ 11. 〇㐀ᕤሙࡢ␗࡞ࡿ㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ≀ᛶ࡟㛵ࡍࡿ◊✲ 12. ࣉࣛࣥࢺ࣑࢟ࢧ࡛〇㐀ࡋࡓ㧗⅔ࢫࣛࢢࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺࡢ⪏෾ᐖᛶ࡜ࡑࡢᨵ ၿ࡟㛵ࡍࡿ◊✲ ᆅୗỈᏛ㸦ᣦᑟᩍဨ㸸ᑠᯇ‶㸧 13. Ἑᕝሐ㜵ࡢᙅⅬ⟠ᡤࢆㄪᰝࡍࡿ✵Ẽᅽ㐃㏻ヨ㦂࡟࠾ࡅࡿᐊෆせ⣲ᐇ㦂⤖ᯝࡢホ౯ ࡟㛵ࡍࡿ◊✲ 14. ᅵ୰Ỉศ㔞࡟╔┠ࡋࡓᩳ㠃ᔂቯ㆙ᡄ᝟ሗ࡟⏝࠸ࡿ㜈್ࡢᐇ㦂ⓗỴᐃἲ࡟㛵ࡍࡿ◊ ✲ ᆅ┙ᕤᏛ㸦ᣦᑟᩍဨ㸸➉ୗ♸஧࣭㔠⛃὚㸧 15. ࢟ࣕࣆ࣮ࣛࣜࣂࣜ࢔࣮ࡢ⿕そᒙ࡟࠾ࡅࡿᆅ┙ᮦᩱࡢᨵⰋ࡟㛵ࡍࡿ◊✲ 16. ᐊෆᶍᆺᐇ㦂࡟ࡼࡿ࢟ࣕࣆ࣮ࣛࣜࣂࣜ࢔࣮ࡢ⿕そᒙ࡟࠾ࡅࡿ␯Ỉᮦࡢ㐺⏝ᛶ࡟㛵 ࡍࡿ◊✲ 17. ᆅ୰࣮ࣞࢲ࡟ࡼࡿἙᕝሐ㜵⾲ᒙ࡟࠾ࡅࡿᾐ㏱ᣲືࡢㄪᰝ᪉ἲ࡟㛵ࡍࡿ◊✲ 18. ᅵ୰Ỉศ㔞ィ ࢹ࣮ࢱࢆ⏝࠸ࡓἙᕝሐ㜵⾲ᒙ࡟࠾ࡅࡿᾐ㏱≉ᛶ್ࡢཎ఩⨨ ᐃ᪉ ἲ࡟㛵ࡍࡿ◊✲ 㝣Ỉᚠ⎔ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸኱ஂಖ㈼἞࣭㰻⸨ග௦㸧 19. ⍇⍈†࡟࠾ࡅࡿࣜࣥ㓟࡜ࢩࣜ࢝ࡢ㛗ᮇኚ㑄㐣⛬ 20. ᮾ㒓ụ࡟࠾ࡅࡿᾏᇦ࠿ࡽࡢሷศ౵ධ࣭᤼ฟᶵᵓ 21. ὸᾏᗏ࡟ࡳࡽࢀࡿ஧㔜ᣑᩓᑐὶࡢᏘ⠇≉ᛶ

Ỉᇦ⎔ቃタィᏛ㸦ᣦᑟᩍဨ㸸๓㔝リᮁ࣭ྜྷ⏣ᆂ௓࣭㉥✑Ⰻ㍜㸧 22. ⾲㠃⢒ᗘࡢ㐪࠸ࡀὠἼ㉺ὶ᫬ࡢ⿬ἲ㠃⿕そࣈࣟࢵࢡࡢᏳᐃᛶ࡟ཬࡰࡍ᳨ウ 23. ‽୕ḟඖࣔࢹࣝࢆ⏝࠸ࡓ‴᭤㒊࡟࠾ࡅࡿᶓ㉺ὶ㔞⟬ᐃᘧࡢ᭷⏝ᛶࡢ᳨ウ  24. ALB ィ ࢹ࣮ࢱࢆ⏝࠸ࡓὶἣゎᯒ࡟ᇶ࡙ࡃ PHABSIM ࡟ࡼࡿ࢔ࣘࡢ⏘༸ሙࡢ≀⌮ ⎔ቃࡢホ౯ 25. ◁ᕞ⦕㒊࡟࠾ࡅࡿἙᓊᾐ㣗≉ᛶࡢᐇ㦂ⓗ᳨ウ࠾ࡼࡧᩘ್ゎᯒࡢ㐺⏝ᛶ࡟㛵ࡍࡿ◊ ✲   26. ỏ℃ᙧែ࠾ࡼࡧᩳ㠃໙㓄ࡢᙳ㡪ࢆ⪃៖ࡋࡓ㑊㞴⤒㊰⟇ᐃࣔࢹࣝࡢᥦ᱌࡜⌧ᆅ㐺⏝ 27. ᘓ≀⩌✵㝽⋡ࢆ⏝࠸ࡓỏ℃ゎᯒࡢ෌⌧ᛶ࡟ཬࡰࡍὶධ᪉ྥ࠾ࡼࡧᘓ≀㓄⨨ࡢᙳ㡪 ࡟㛵ࡍࡿ᳨ウ ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸⸨ཎ೺ྐ㸧 28. ࢺࣥࣞࢧࢵࣉ†ୖ㞟ⴠ࡟࠾ࡅࡿࣉࣛࢫࢳࢵࢡࡢศูᅇ཰ࢆ┠ⓗ࡜ࡋࡓኴ㝧ගⓎ㟁 ࡟ࡼࡿ࢖ࣥࢭࣥࢸ࢕ࣈᵓ⠏࡟㛵ࡍࡿ◊✲  ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸ᯇ஭ᗣᘯ㸧 29. ࡈࡳ཰㞟࣭㐠ᦙࡢసᴗຠ⋡࡜ࡑࡢᙳ㡪せᅉ࡟㛵ࡍࡿ୍⪃ᐹ Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸ᕝᮏඞஓ࣭⏣ᮧ⏕ᘺ㸧 30. ⸴㢮ࢆ⏝࠸ࡓ᪂つ⏕ែẘᛶヨ㦂᪉ἲ࡟࠾ࡅࡿᰤ㣴ሷ㢮ࡢᙳ㡪 Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸Ọ⚰ⱥ᫂㸧 31. ⸴㢮⣽⬊࠿ࡽࡢࣜࣥᢳฟ㐣⛬࡟㛵ࡍࡿ⇕ຊᏛⓗ⪃ᐹ 32. Haematococcus pluvialis ࡢ⎔ቃࢫࢺࣞࢫᛂ⟅ 33. ୗỈ࡬ࡢ࢜ࢰࣥฎ⌮࡜ᣑᩓ㏱ᯒࡢ㐺⏝࡟ࡼࡿᰤ㣴ሷᅇ཰ ⎔ቃ≀⌮Ꮫ㸦ᣦᑟᩍဨ㸸ᒾ⏣ᚭ㸧 34. ேᕤ⾨ᫍࢹ࣮ࢱࢆ฼⏝ࡋࡓ⍇⍈†༡†࡟࠾ࡅࡿỿỈ᳜≀ࡢ⦾ⱱ᥎ᐃࡢ㐺⏝ྍ⬟ᛶ 35. Ỉ⏣ࡢ‣᤼Ỉࡢ㐪࠸ࡀỈ✄ࡢ CO2཰ᨭ࡟୚࠼ࡿᙳ㡪ࡢᐃ㔞ⓗホ౯ 36. ✀ࠎࡢ⵨Ⓨ㔞ࣔࢹࣝ࡟ࡼࡿ⵨Ⓨᩓ㔞ࡢ᥎ᐃㄗᕪホ౯࠾ࡼࡧ᭱㐺ᡭἲࡢᥦ᱌ ᆅᇦ⎔ቃィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸㜿㒊ᏹྐ࣭Ặཎᓅே㸧 37. ࢃࡀᅜࡢ㒔ᕷࢫ࣏ࣥࢪ໬᪋⟇ࡢᐇែ࡜ࢥࣥࣃࢡࢺࢩࢸ࢕࡟ྥࡅࡓ᪋⟇㢮ᆺ໬ 38. ⥺ᘬࡁᗫṆ㒔ᕷࡢ㛤Ⓨືྥ࡟㛵ࡍࡿᇶ♏ⓗ◊✲ 㸫ᒸᒣ┴➟ᒸᕷࢆᑐ㇟࡜ࡋ࡚㸫 39. ᆅᇦᵓ㐀ࡢᕪ␗࡟╔┠ࡋࡓࠕఫࡳࡸࡍࡉࠖ࡜ࠕ⎔ቃ㈇Ⲵࠖ࡜ࡢ㛵㐃ศᯒ 40. 㒔ᕷィ⏬ᇶ♏ㄪᰝࡢㅖㄢ㢟࡜㒔ᕷィ⏬࡬ࡢά⏝ᐇែ ⎔ቃࢩࢫࢸ࣒ィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸ᶫᮏᡂோ㸧 41. ព㆑ⓗせᅉཬࡧ✵㛫ⓗせᅉࡀṌࡁࢫ࣐࣍࡟ཬࡰࡍᙳ㡪࡟㛵ࡍࡿ◊✲

ᬒほᕤᏛ㸦ᣦᑟᩍဨ㸸噮ཱྀ㍤ஂ㸧

42. ኱㇂◁␃ࡢᐇែ࡜ᆅᇦఫẸࡢྲྀࡾ⤌ࡳ

43. ᮍᡂ⥺࣭ᗈ὾㕲㐨㸦௒⚟⥺㸧ࡢᩜタ㐠ືཬࡧᘓタ࡟㛵ࡍࡿ㈨ᩱࡢᩚ⌮࣭ศᯒ 44. 㧗ᱱᕝᮾす⏝Ỉᕤ஦࡟࠾ࡅࡿ஦ᴗ㈝࡟㛵ࡍࡿ◊✲

̲ٟᛯ૨

⎔ቃࢩࢫࢸ࣒ゎᯒᏛ㸦ᣦᑟᩍဨ㸸すᒣဴ࣭ᮌᮏ࿴ᚿ㸧㻌 1. ⮬ᕫ⤌⧊໬࣐ࢵࣉࢆ⏝࠸ࡓᔂቯᩳ㠃ࡢ≉ᚩᢳฟࡢ◊✲ 2. ࢺࣥࢿࣝษ⩚ࡢኚ≧┘どࡢࡓࡵࡢ⏬ീゎᯒᢏ⾡ࡢ◊✲ 3. ୙ᆒ㉁㌾ᙅᆅ┙ୖࡢ┒ᅵᵓ㐀≀⪏㟈ᛶホ౯ࡢࡓࡵࡢゎᯒᡭἲࡢ◊✲ ⎔ቃ᣺ື࢚ࢿࣝࢠ࣮Ꮫ㸦ᣦᑟᩍဨ㸸ẚỤᓥៅ஧㸧 4. ‽ᐃᖖゎᯒ࡟ᇶ࡙ࡃ VENUS ࣈ࣮ࣞࢻࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟ࡢ᳨ウ 5. ࣮ࣟࢱ࣮ࡢ₯Ỉ῝ࡉࡀ Hydro-VENUS ࡢ࢚ࢿࣝࢠ࣮ྲྀᚓᛶ⬟࡟ཬࡰࡍᙳ㡪  ✵㛫ࢹࢨ࢖ࣥᏛ㸦ᣦᑟᩍဨ㸸⥤㔝ඞ⣖࣭⸨஭㝯ྐ㸧㻌 6. 㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓࢥࣥࢡ࣮ࣜࢺᗋ∧ࡢ⪏ஂᛶ࡟㛵ࡍࡿ◊✲ 7. 㧗⅔ࢫࣛࢢ⣽㦵ᮦࢆ⏝࠸ࡓ㧗⪏ஂᛶࢥࣥࢡ࣮ࣜࢺࡢᐇ⏝໬࡟㛵ࡍࡿ◊✲ 㝣Ỉᚠ⎔ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸኱ஂಖ㈼἞࣭㰻⸨ග௦㸧 8. ᓥᕋ࡟࠾ࡅࡿ⁐Ꮡ≀㉁ࡢỈᩥὶฟ㐣⛬ Ỉᇦ⎔ቃタィᏛ㸦ᣦᑟᩍဨ㸸๓㔝リᮁ࣭ྜྷ⏣ᆂ௓࣭㉥✑Ⰻ㍜㸧 9. ὠἼ㉺ὶ᫬࡟࠾ࡅࡿᾏᓊሐ㜵ࡢ㝣ഃಖㆤࣈࣟࢵࢡ࡟స⏝ࡍࡿὶయຊ≉ᛶ࡟㛵ࡍࡿ ◊✲ 10. ALB ࡟ࡼࡿἙ㐨ᆅᙧࡢ෌⌧ᛶ࡟క࠺ὶἣ࣭Ἑᗋኚືゎᯒࡢᨵၿຠᯝࡢ᳨ウ 11. ᚤᆅᙧࢆ⪃៖ࡋࡓỏ℃ゎᯒᡭἲࡢ᳨ウ࠾ࡼࡧᅵ▼ὶࢆྵࡴ㇦㞵⅏ᐖᆅᇦ࡬ࡢ㐺⏝ 12. ỏ℃ゎᯒ࡟⏝࠸ࡿᘓ≀⩌ࡢ✵㝽⋡ࡢ᳨ウ࡜⌧ᆅ㐺⏝࡟㛵ࡍࡿ◊✲ ⎔ቃᙳ㡪ホ౯Ꮫ㸦ᣦᑟᩍဨ㸸⸨ཎ೺ྐ㸧 13. ᐙィᾘ㈝࠿ࡽぢࡓᐜჾໟ⿦ᗫᲠ≀ࡢⓎ⏕㔞᥎ィ࡟㛵ࡍࡿ◊✲ 㸫ᑠ኎ᗑ⯒࡟࠾ࡅࡿ ၟရᐜჾໟ⿦ࡢᐃ㔞ㄪᰝࢆ⏝࠸ࡓ᪉ἲ㸫 14. ⅏ᐖᗫᲠ≀ࡢⓎ⏕࡜ฎ⌮ࡢࢩ࣑࣮ࣗࣞࢩࣙࣥࢆ⤌㎸ࢇࡔ⮬἞యึືᑐᛂカ⦎ࢩࢫ ࢸ࣒ࡢᵓ⠏࡟㛵ࡍࡿ◊✲  Ỉ⎔ቃᏛ㸦ᣦᑟᩍဨ㸸ᕝᮏඞஓ࣭⏣ᮧ⏕ᘺ㸧 15. ᤼࢞ࢫ㧗ᗘฎ⌮ࢆ┠ⓗ࡜ࡋࡓάᛶⅣ⣔྾╔๣ࡢ VOC(࣋ࣥࢮࣥ)࠾ࡼࡧỈ㖟྾╔≉ ᛶ࡜ホ౯  ᆅᇦ⎔ቃィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸㜿㒊ᏹྐ࣭Ặཎᓅே㸧 16. ୰ᒣ㛫ᆅᇦ࡟࠾ࡅࡿ㉸ᑠᆺࣔࣅࣜࢸ࢕ࡢ฼⏝ຠᯝ࡟㛵ࡍࡿᐇド◊✲ 17. ᒃఫ⪅ཬࡧ✵ࡁᐙᡤ᭷⪅ࡢᐇែ࣭ពྥ࡟ᇶ࡙ࡃ✵ࡁᐙᑐ⟇࡟࠾ࡅࡿ᪉ྥᛶࡢ᳨ウ 18. ఫẸཧຍ࡜⾜ᨻ࡬ࡢಙ㢗࡟㛵ࡍࡿ◊✲ 㸫࢔࣓࣭࣏࣮ࣜ࢝ࢺࣛࣥࢻᕷࢆᑐ㇟࡟ࡋ࡚

㸫  ⎔ቃࢩࢫࢸ࣒ィ⏬Ꮫ㸦ᣦᑟᩍဨ㸸ᶫᮏᡂோ㸧 19. ࢻࣛ࢖ࣂ࣮ࡢព㆑࡜⏕ά㐨㊰㉮⾜᫬ࡢࢫࢺࣞࢫ࡟㛵ࡍࡿ◊✲ 20. ETC2.0 ࣉ࣮ࣟࣈࢹ࣮ࢱࢆ⏝࠸ࡓ⮬ື㌴㉮⾜㏿ᗘࡢኚື࡟㛵ࡍࡿ◊✲ 21. ETC2.0 ࣉ࣮ࣟࣈࢹ࣮ࢱ࡜Ṍ⾜⪅㔞ࢹ࣮ࢱࢆ⏝࠸ࡓᢤࡅ㐨㐨㊰ࡢྍど໬࡜ࡑࡢ༴㝤 ᛶ࡟㛵ࡍࡿ◊✲

22. Study on distracted driving due to cellphone use: factors influencing safety attitudes and driving behaviors 23. ࢥ࣑ࣗࢽࢸ࢕ࢧ࢖ࢡࣝᑟධ࡟ࡼࡿ฼⏝⪅࣭㠀฼⏝⪅ࡢព㆑ኚ໬ཬࡧ⾜ືኚ໬࡟㛵ࡍ ࡿ◊✲ 24. ஺ᕪⅬ࡟࠾ࡅࡿ⮬㌿㌴฼⏝⪅ࡢ␃≉ᛶཬࡧᶓ᩿ᣲື࡟㛵ࡍࡿ◊✲  ᬒほᕤᏛ㸦ᣦᑟᩍဨ㸸噮ཱྀ㍤ஂ㸧 25. ⤮ᅗ㠃ࡢศᯒ࡟ᇶ࡙ࡃ㘊ᖏᶫࡢኚ㑄 㸫ྛᯫࡅ᭰࠼࡟࠾ࡅࡿ㒊ᮦኚ໬㸫