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R¸•t˜_•¶/Publications(Peer-reviewed) +37

  1. ‰ÔŒ`“ÕŽjAŽðˆäGŽ¡A¬ò–¾AŽðˆäŒ’Ž¡Aûü‹´‘åŽ÷A¬—эv@(2024) ƒVƒŠƒJ‹y‚уAƒ‹ƒJƒŠ“x‚ð—p‚¢‚½…Œ¹Ÿ¼—{‹@”\‚Ì•]‰¿Žè–@‚ÌŒŸ“¢‹y‚Ñ“K—pA“y–ØŠw‰ï˜_•¶WA80(3)A22-00165
    https://doi.org/10.2208/jscejj.22-00165
  2. Yuichiro Murata, Hiroshi Sakai, Koji Kosaka (2024) Degrading surface-water-based natural organic matter and mitigating haloacetonitrile formation during chlorination: Comparison of UV/persulfate and UV/hydrogen peroxide pre-treatments, Chemosphere, 354, 141717.
    https://doi.org/10.1016/j.chemosphere.2024.141717
  3. Guntur Adisurya Ismail and Hiroshi Sakai (2024) Toxicity Changes of Dye Degradation via Photo-Fenton Treatment and the Possible Degradation Mechanism, Case Studies in Chemical and Environmental Engineering, 9, 100665.
    https://doi.org/10.1016/j.cscee.2024.100665
  4. ŽðˆäGŽ¡@(2024) ’èíŠÂ‹«Ž–‹Æ‘Ì‚ð‘ΏۂƂµ‚½…“¹ŠÇ˜H‚̃Cƒ“ƒtƒ‰ƒƒ“ƒeƒiƒ“ƒX‘̐§‚ÌŒo”N•Ï‰»‚ɂ‚¢‚Ă̍lŽ@AƒCƒ“ƒtƒ‰ƒƒ“ƒeƒiƒ“ƒXŽÀ‘HŒ¤‹†˜_•¶WA3(1)App.145-153.
    https://doi.org/10.11532/jsceim.3.1_145
  5. Hiroshi SAKAI (2024) Review of Research on Performance Indicators for Water Utilities, AQUA - Water Infrastructure, Ecosystems and Society, 73(2), 167-182.
    https://doi.org/10.2166/aqua.2024.224
  6. Charles John C. Gunay, Tomohiro Iwama, Katsuhide Yokoyama, Hiroshi SAKAI, Masaki Kawaue, Hiroki Takahashi (2024) Impacts of sustainable management on the spatial distributions of erosion susceptibility and probable sediment yield in a mixed-forested watershed, Journal of Environmental Management,352, 119924
    https://doi.org/10.1016/j.jenvman.2023.119924
  7. Jastine Mae Julita Galang, Charles John Gunay, Hiroshi Sakai, Katsuhide Yokoyama (2024) Parameter Uncertainty and Sensitivity Analysis for Nutrient Modelling in a Forested Catchment Using the Sequential Uncertainty Fitting (SUFI-2) Algorithm in SWAT-CUP, Journal of Water and Environment Technology, 22(1), pp.27-40
    https://doi.org/10.2965/jwet.23-064
  8. Guntur Adisurya Ismail and Hiroshi Sakai (2023) pH-dependent dye protonation and the effect of iron on dye degradation during Fenton-based processes, Ozone Science & Engineering (accepted).
    https://doi.org/10.1080/01919512.2023.2285690
  9. ûüéãČáAŽðˆäGŽ¡A–öŒ´³ŽÀ@(2023) ƒ^ƒCƒ„—R—ˆ‚̍•Fƒ}ƒCƒNƒƒvƒ‰ƒXƒ`ƒbƒN‚ÌŒð·“_“à‚É‚¨‚¯‚鑶ÝŽÀ‘Ԃ̉𖾁A“y–ØŠw‰ï˜_•¶WGA79(25), pp.23-25050
    https://doi.org/10.2208/jscejj.23-25050
  10. ŠâŠÔ—FGACharles John GUNAYA¬ŽR—E‘¾A‰¡ŽRŸ‰pAŽðˆäGŽ¡A¬ò–¾AìA^ŠóA‚‹´‘åŽ÷ (2023) ¬‰Í“à’™…’r—¬ˆæ‚É‚¨‚¯‚é GIS‚ð—p‚¢‚½X—Ñ“Á«‚Ì•ªÍ‚Æ“yëZHƒ‚ƒfƒ‹‚̉ü—ǁA“y–ØŠw‰ï˜_•¶WGA79(27), 23-27017.
    https://doi.org/10.2208/jscejj.23-27017
  11. Charles John C. Gunay, Tomohiro Iwama, Hiroshi SAKAI, Katsuhide Yokoyama (2023) Influence of different management systems on surface protection and erodibility of a temperate mixed forest, Ecological Engineering, 193, 106993
    https://doi.org/10.1016/j.ecoleng.2023.106993
  12. Gaku Oyama, Masami YANAGIHARA, Hiroshi SAKAI (2023) Occurrence of Tire-derived Microplastics at a Curvilinear Road Section, Journal of Environment and Safety, E23SC0101
    https://doi.org/10.11162/daikankyo.E23SC0101
  13. Keisuke Ishida, Hiroshi Sakai (2023) The effects of advanced ultraviolet/H2O2 treatment on oxidation of linear alkylbenzene sulfonate in detergent wastewater, Desalination and Water Treatment, 289, pp.191-196.
    https://doi.org/10.5004/dwt.2023.29453
  14. Chisato NISHIMAGI, Masami YANAGIHARA, Yiming FANG, Hiroshi SAKAI (2023) Occurrence of Tire-Derived Microplastics (TMPs) Focusing on Driving Behavior, H2Open Journal, 6(1), pp.52-62.
    https://doi.org/10.2166/h2oj.2023.058
  15. Charles John Consignado Gunay, Katsuhide Yokoyama, Hiroshi Sakai, Akira Koizumi, Kenji Sakai (2023) Decadal changes in soil water storage characteristics attributed to forest management in a steep watershed, Water, 2023, 15(1), 54
    https://doi.org/10.3390/w15010054
  16. Yuichiro Murata, Hiroshi Sakai, Koji Kosaka (2022) Effects of UV/PS and UV/H2O2 on Degradation of Natural Organic Matter and Formation Potential of Haloacetonitriles in Surface Water, Journal of Water and Environment Technology, 20(6), pp.188-200
    https://doi.org/10.2965/jwet.22-065
  17. ’ϐ¬’΁AŽðˆäGŽ¡@(2022) …“¹Ž–‹Æ‘Ì‚ÌŒo‰có‹µ‚ÉŠÖ‚·‚é•]‰¿Žw•W‚ÌŒŸ“¢‹y‚Ñ•ªÍ A“y–ØŠw‰ï˜_•¶WGA78(7), pp.165-176
    https://doi.org/10.2208/jscejer.78.7_III_165
  18. ‘åÎŒ‹ˆ¤AŽðˆäGŽ¡@(2022) …Ž¿‹y‚Ñ–ò•iŽg—p—Ê‚É’…–Ú‚µ‚½…“¹Ž–‹Æ‘Ì‚Ì•]‰¿Žw•W‚ÌŒŸ“¢‹y‚Ñ•ªÍA“y–ØŠw‰ï˜_•¶WGA78(2), pp.71-80
    https://doi.org/10.2208/jscejer.78.2_71
  19. Shane Htet Ko and Hiroshi Sakai (2022) Water sanitation, hygiene and the prevalence of diarrhea in the rural area of delta region of Myanmar, Journal of Water and Health, 20(1), pp.149-156.
    https://doi.org/10.2166/wh.2021.192
  20. Guntur Adisurya Ismail and Hiroshi Sakai (2022) Review on Effect of Different Type of Dyes on Advanced Oxidation Processes (AOPs) for Textile Color Removal, Chemosphere, 291, 132906.
    https://doi.org/10.1016/j.chemosphere.2021.132906
  21. Yiming Fang and Hiroshi Sakai (2022) Use of an Ultraviolet Light activated Persulfate Process to Degrade Humic Substances: Effects of Wavelength and Persulfate Dose, Environmental Science and Pollution Research, 29, pp.9923-9931.
    https://doi.org/10.1007/s11356-021-15392-2
  22. Shane Htet Ko and Hiroshi Sakai (2022) Perception on Water Quality, Current and Future Water Consumption of Residents from Central Business District of Yangon City, Water Supply, 22(1), 1094-1106.
    https://doi.org/10.2166/ws.2021.212
  23. Charles John GUNAYAMaurice DUKAAKatsuhide YOKOYAMAAHiroshi SAKAIAAkira KOIZUMIAKenji SAKAIANaoya KUROKI (2021) Half-Century Analysis Of Climate Trends And Soil Water Storage In A Steep Forested Catchment In Kanto Metropolitan AreaA“y–ØŠw‰ï˜_•¶WB1A77(2), pp.I_487-I_492.
    https://doi.org/10.2208/jscejhe.77.2_I_487
  24. ŽðˆäGŽ¡AÎŽR—E‹PA¬ò–¾A‰¡ŽRŸ‰pAŽðˆäŒ’Ž¡A¬—эvA•–Ø’¼–ç (2021) …“¹…Œ¹—Ñ‚Ì“y»—¬o–hŽ~‹@”\‚ÉŠÖ‚·‚é•]‰¿Žw•W‚ÌŒŸ“¢‹y‚Ñ•ªÍA“y–ØŠw‰ï˜_•¶WGA77(7), pp.III_285-III_292.
    https://doi.org/10.2208/jscejer.77.7_III_285
  25. Shane Htet Ko and Hiroshi Sakai (2021) Importance Of Public Trust In Water Supply Authority For Improving The Acceptance Of Tap Water In Yangon City, “y–ØŠw‰ï˜_•¶WGA77(7), pp.III_121-III_128.
    https://doi.org/10.2208/jscejer.77.7_III_121
  26. Shane Htet Ko and Hiroshi Sakai (2021) Evaluation of Yangon City Tap Water Quality and the Efficacy of Household Treatment, Water Quality Research JournalA56(3): 155-166.
    https://doi.org/10.2166/wqrj.2021.006
  27. Charles John GUNAYAYusei HASHIMOTOAKatsuhide YOKOYAMAAHiroshi SAKAIAAkira KOIZUMIAKenji SAKAIANaoya KUROKI (2021) Estimation Of Erodibility Coefficients Based On Geophysical Forest Properties In Ogouchi Dam WatershedA“y–ØŠw‰ï˜_•¶WGA77(5), pp.I_61-I_68.
    https://doi.org/10.2208/jscejer.77.5_I_61
  28. Œ´“‡N•ãAŽðˆäGŽ¡A¬ò–¾AŽðˆäŒ’Ž¡A•–Ø’¼–ç (2021) ƒNƒ‰ƒXƒ^[•ªÍ‚ð—p‚¢‚½¬‰Í“à’™…’rW…ˆæ‚É‚¨‚¯‚é—¬ˆæ“Á«‚Ì”äŠrŒŸ“¢A“y–ØŠw‰ï˜_•¶WGA77(5), pp.I_69-I_76.
    https://doi.org/10.2208/jscejer.77.5_I_69
  29. Shane Htet Ko, Keisuke Ishida, Zaw Myo Oo and Hiroshi Sakai (2021) Impacts of seawater intrusion on quality of groundwater in Htantabin Township of the deltaic region of southern Myanmar, Groundwater for Sustainable Development, 14, 100645
    https://doi.org/10.1016/j.gsd.2021.100645
  30. Shane Htet Ko, Anil Kumar Anal, Hiroshi Sakai (2021) Antibiotic resistance of fecal indicator bacteria from fishponds and nearby water sources in the Ayeyarwady Delta region of Myanmar, Limnology, 22, pages 357-362 (Asia/Oceania Report)
    https://doi.org/10.1007/s10201-021-00661-3
  31. Hiroshi Sakai, HangXiang Song, Ryota Goto (2021) Degradation of Linear Alkyl Benzene Sulfonate by UV/H2O2 process, Ozone Science & Engineering, 43(4), pp.317-323
    https://doi.org/10.1080/01919512.2020.1805938
  32. Shane Htet Ko and Hiroshi Sakai (2020) Water Treatment Practices in Rural Myanmar and Residents' Perceptions of Technologies from Donor Countries, Desalination and Water Treatment, 208, pp.337-344.
    https://doi.org/10.5004/dwt.2020.26483
  33. ’ϐ¬’΁AŽðˆäGŽ¡ (2020) …“¹Ž{Ý‚̘V‹€‰»‚ƈێŠÇ—‚ÉŠÖ‚·‚é•]‰¿Žw•W‚ÌŒŸ“¢A“y–ØŠw‰ï˜_•¶WGA76(7)AIII_65-III_75
    https://doi.org/10.2208/jscejer.76.7_III_65
  34. ŠØ‰ƒWAŽðˆäGŽ¡A¬ò–¾A¼ŠÔ–ؐç’qAŠâú±_”üAã–ìr–¾Aç—t“O–ç (2020) …“¹…Œ¹—Ñ‚É‚¨‚¯‚éŽR—Ñ”ro•‰‰×Œ´’PˆÊ‚̐„’è‹y‚Ñ•]‰¿A“y–ØŠw‰ï˜_•¶WGA76(5)AI_33-I_42
    https://doi.org/10.2208/jscejer.76.5_I_33
  35. Hiroshi Sakai, Mei Satake, Yasuhiro Arai, Satoshi Takizawa (2020) Report Cards for Aging and Maintenance Assessment of Water-supply Infrastructure, Journal of Water Supply: Research and Technology - AQUA, 69, pp.355-364
    https://doi.org/10.2166/aqua.2020.112 (Open Access)
  36. ŽðˆäGŽ¡A²’|–¾A‘ê‘ò’q (2019) …“¹ŠÇ˜H‚̘V‹€‰»‚ƈێŠÇ—‚ÉŠÖ‚·‚é•]‰¿Žw•W‚ÌŒŸ“¢A“y–ØŠw‰ï˜_•¶WGA75(7)AIII_413-III_423
    https://doi.org/10.2208/jscejer.75.7_III_413
  37. ¬—я«”VAŽðˆäGŽ¡A¬ò–¾AŽRèŒöŽqAˆîˆõ‚Æ‚æ‚́A‘º–ؐ•äAŠâú±_”ü (2018) ’™…’r‚ÌŽü•Ó—¬ˆæ“yë‚É‚¨‚¯‚éƒ}ƒ“ƒKƒ“‹y‚Ñ‘S‚è‚ñ‚É’…–Ú‚µ‚½‰e‹¿—vˆö•ªÍA“y–ØŠw‰ï˜_•¶WGA74(5)AI_109-I_115
    https://doi.org/10.2208/jscejer.74.I_109
  38. ‹´–{’ŽjA“¡‘ºˆê—ǁAŽðˆäGŽ¡AŸNˆäd—YA–k–ìŽçNA‘ê‘ò’q (2018) ò…ˆ—‚É—p‚¢‚ç‚ꂽ’†‹óŽ…–Œ‚Ì—ò‰»f’f–@‚ÌŒŸ“¢A…“¹‹¦‰ïŽGŽA87(7)App.2-16
  39. ¼‘º’q”VA‘ê‘ò’qA¬ŒF‹v”üŽqA‹´–{’ŽjAŽðˆäGŽ¡ (2017)@‘S‘‚̐…“¹Ž–‹Æ‘Ì‚É‚¨‚¯‚é—LŒø—¦‚ÌŒo”N•Ï‰»‚Æ–³Œø—¦ã¸—vˆö‚̉ðÍA“y–ØŠw‰ï˜_•¶WGA73(7)AIII_495-III_504
    https://doi.org/10.2208/jscejer.73.III_495
  40. “¡‘ºˆê—ǁAŽðˆäGŽ¡AJenyuk LohwacharinA‹´–{’ŽjA‘ê‘ò’q@(2017)@—n‘¶—L‹@•¨‚𑪒肷‚邽‚߂̃TƒCƒY”rœƒNƒƒ}ƒgƒOƒ‰ƒtƒB[‚É—p‚¢‚é—n—£‰t‚̉ü—ǁA•ªÍ‰»ŠwA66(10)App.745-749
    https://doi.org/10.2116/bunsekikagaku.66.745
  41. Hiroshi Sakai, Pierre Callaud, Koji Kosaka, and Satoshi Takizawa (2017) Degradation of nine nitrosamines in water by ultraviolet irradiation, Desalination and Water Treatment, 58, pp.442-448
    https://doi.org/10.5004/dwt.2017.11427

Šw‰ï”­•\˜_•¶/Presentations +88

  1. Yuichiro Murata, Hiroshi Sakai (2024.3.6) Degradation of emerging contaminants by UV-based advanced oxidation processes A‘æ58‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.55A•Ÿ‰ªŽs
  2. ŽðˆäGŽ¡@(2024.2.29) ’èíŠÂ‹«Ž–‹Æ‘Ì‚ð‘ΏۂƂµ‚½…“¹ŠÇ˜H‚̃Cƒ“ƒtƒ‰ƒƒ“ƒeƒiƒ“ƒX‘̐§‚ÌŒo”N•Ï‰»‚ɂ‚¢‚Ă̍lŽ@A‘æ3‰ñƒCƒ“ƒtƒ‰ƒƒ“ƒeƒiƒ“ƒXEƒVƒ“ƒ|ƒWƒEƒ€A“Œ‹ž“s
  3. ûüéãČáAŽðˆäGŽ¡A–öŒ´³ŽÀ@(2023.12.1) ƒ^ƒCƒ„—R—ˆ‚̍•Fƒ}ƒCƒNƒƒvƒ‰ƒXƒ`ƒbƒN‚ÌŒð·“_“à‚É‚¨‚¯‚鑶ÝŽÀ‘Ԃ̉𖾁A‘æ60‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€AŽRŒûŽs
  4. ŠâŠÔ—FGAGunay Charles JohnA¬ŽR—E‘¾A‰¡ŽRŸ‰pAŽðˆäGŽ¡A¬ò–¾AìA^ŠóA‚‹´‘åŽ÷@(2023.10.20)A¬‰Í“à’™…’r—¬ˆæ‚É‚¨‚¯‚éX—ÑGIS‚̍\’z‚ƐX—Ñ“Á«‚Ì•ªÍApp.218-219A“Œ‹ž“s
  5. ŽðˆäGŽ¡A‹àŽq“ޏA’†ì—Å‘¾A¬â_Ži@(2023.10.20)A…“¹ƒVƒXƒeƒ€‚É‚¨‚¯‚éƒJ[ƒ{ƒ“ƒjƒ…[ƒgƒ‰ƒ‹ŽÀŒ»‚ÉŒü‚¯‚½íŒ¸ƒ|ƒeƒ“ƒVƒƒƒ‹‚Ì’Šo•û–@‚ÌŒŸ“¢‚ƉۑèA“ú–{…“¹‹¦‰ïA—ߘa5”N“x‘S‘…“¹Œ¤‹†”­•\‰ïu‰‰WApp.926-927A“Œ‹ž“s
  6. ¬â_ŽiAH—t“¹GA‰ºƒ–‹´‰ëŽ÷AŽðˆäGŽ¡A‘“c‹M‘¥@(2023.10.20)A…“¹ƒVƒXƒeƒ€‚É‚¨‚¯‚é“d—ÍŽg—p—Ê‚Ì”cˆ¬‚Æ“d—͍팸—ʁACO2íŒ¸—ʂ̐„ŒvA“ú–{…“¹‹¦‰ïA—ߘa5”N“x‘S‘…“¹Œ¤‹†”­•\‰ïu‰‰WApp.932-933A“Œ‹ž“s
  7. ŽR¼—z‰îA•Û‰ÈŽsAŽR‰º—æØA‹v•ÛÍA²X–؍Ž”VAŽðˆäGŽ¡AŽR‘ºŠ°AˆÉ“¡‰ëŠì@(2023.10.19)AA-MODELS i‡Uj ò…êÄ\’z‚ÉŠÖ‚·‚錤‹† |…Ž¿‚ɉž‚¶‚½ò…ƒVƒXƒeƒ€‘I’èŽè–@i‰ü’ù”Łjì¬‚ÉŒü‚¯‚½Ž–‹Æ‘̃Aƒ“ƒP[ƒg‚Ì•ñ|App.130-131A“Œ‹ž“s
  8. •Û‰ÈŽsAŽR¼—z‰îAŽR‰º—æØA‹v•ÛÍA²X–؍Ž”VAŽðˆäGŽ¡AŽR‘ºŠ°AˆÉ“¡‰ëŠì@(2023.10.19)AA-MODELS i‡Vj ò…êÄ\’z‚ÉŠÖ‚·‚錤‹† |ò…êÄ\’zŽ–—áWì¬‚ÉŒW‚鎖‹Æ‘̃Aƒ“ƒP[ƒg‚Ì•ñ|App.132-133A“Œ‹ž“s
  9. ¼‰i—æ“ށArˆäN—TA¬ò–¾Aš ›‰—_Ž¡AŽðˆäGŽ¡@(2023.10.19)AƒRƒƒi‰Ð‘OŒã‚É‚¨‚¯‚é’Pg¢‘т̐¶Šˆ—p…‚ÌŽg—pŽÀ‘Ԃ̕ω»‚ÉŠÖ‚·‚éˆêlŽ@App.166-167A“Œ‹ž“s
  10. ŠâŠÔ—FGACharles John GUNAYA¬ŽR—E‘¾A‰¡ŽRŸ‰pAŽðˆäGŽ¡A¬ò–¾AìA^ŠóA‚‹´‘åŽ÷ (2023.9.19-21) ¬‰Í“à’™…’r—¬ˆæ‚É‚¨‚¯‚é GIS‚ð—p‚¢‚½X—Ñ“Á«‚Ì•ªÍ‚Æ“yëZHƒ‚ƒfƒ‹‚̉ü—ǁA“y–ØŠw‰ï’n‹…ŠÂ‹«ˆÏˆõ‰ïA‘æ31‰ñ’n‹…ŠÂ‹«ƒVƒ“ƒ|ƒWƒEƒ€A•FªŽs
  11. Charles John GUNAY, Tomohiro IWAMA, Yuta KOYAMA, Katsuhide YOKOYAMA, Hiroshi SAKAI, Akira KOIZUMI, Kenji SAKAI, Hiroki TAKAHASHIJastine Mae Julita Galang, Charles John GUNAY, Hiroshi SAKAI, Katsuhide YOKOYAMA (2023.7.30-8.4), Mapping Priority Areas for Forest Management in a Mountainous Watershed Using Raindrop Impact Estimation and Physically-based Modeling Approaches, AOGS2023, Asia Oceania Geosciences Society, Singapore
  12. Jastine Mae Julita Galang, Charles John GUNAY, Hiroshi SAKAI, Katsuhide YOKOYAMA (2023.7.8)AParameter Uncertainty and Sensitivity Analysis for Nutrient Modelling in a Forested Catchment Using the Sequential Uncertainty Fitting (SUFI-2) Algorithm in SWAT-CUPAJapan Society on Water Environment, Water and Environment Technology Conference, Online
  13. Guntur Adisurya Ismail, Hiroshi Sakai (2023.6.23)AFenton-like treatment for dyes degradation: Effect of metal catalystA“ú–{ƒIƒ]ƒ“‹¦‰ï‘æ32‰ñ”NŽŸŒ¤‹†u‰‰‰ïApp.109-112A”ª‰¤ŽqŽs
  14. Yuichiro Murata, Hiroshi Sakai, Koji Kosaka (2023.3.17)AComparison of UV/PS and UV/H2O2 Pre-oxidation for Formation and Estimated Toxicity of Haloacetonitriles from Chlorination of Natural Organic Matter in Surface WaterA‘æ57‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.309A¼ŽRŽs
  15. Jastine Mae Julita Galang, Charles John GUNAY, Hiroshi SAKAI, Katsuhide YOKOYAMA (2023.3.17)ADevelopment Of A Water Quality Model To Evaluate The Impacts Of Various Watershed Management And Forest Conservation Practices On The Quality Of Water In A Reservoir Using SwatA‘æ57‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.385A¼ŽRŽs
  16. Guntur Adisurya Ismail, Hiroshi Sakai (2023.3.15)ARadical agent effect on textile dyes degradation via Fenton-like processA‘æ57‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.129A¼ŽRŽs
  17. ’ϐ¬’΁AŽðˆäGŽ¡@(2022.11.29) …“¹Ž–‹Æ‘Ì‚ÌŒo‰có‹µ‚ÉŠÖ‚·‚é•]‰¿Žw•W‚ÌŒŸ“¢‹y‚Ñ•ªÍA“y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ59‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€A·‰ªŽs
  18. Guntur Adisurya Ismail and Hiroshi Sakai (2022.9.12-15) Reaction Mechanism And Toxicity Changes Of Dyes Degradation Via Photo-Fenton, International Water Association, World Water Congress, Copenhagen, Denmark
  19. Yuichiro Murata, Hiroshi Sakai, and Koji Kosaka (2022.7.10) Effects of UV/PS and UV/H2O2 on Degradation of Natural Organic Matter and Formation Potential of Haloacetonitriles in Surface Water, Japan Society on Water Environment, Water and Environment Technology Conference, Online
  20. Shane Htet Ko and Hiroshi Sakai (2022.6.23) Tap Water Quality And Consumtion Behaviours of the Residents from Yangon City, International Water Association, Water Safety Conference, Narvik, Norway
  21. ‰ÔŒ`“ÕŽjAŽðˆäGŽ¡A¬ò–¾AŽðˆäŒ’Ž¡A•–Ø’¼–çA¬—эv (2021.11.17) —n‘¶ƒCƒIƒ“—Þ‚ðŽw•W‚Æ‚µ‚½X—Ñ‹@”\‚Ì”cˆ¬‹y‚Ñ‚»‚ÌŒo”N•Ï‰»‚ÉŠÖ‚·‚錤‹†A“y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ58‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€AƒIƒ“ƒ‰ƒCƒ“
  22. Î“cŒ[‰îAŽðˆäGŽ¡ (2021.11.17) ŠJ”­“rã‘‚ð‘z’肵‚½¶Šˆ”r…‚ÉŠÜ‚Ü‚ê‚éLAS‚Ì UV/H2O2‚ð—p‚¢‚½‘£iŽ_‰»ˆ—‚Ì•ª‰ðŒø‰Ê‚ÌŒŸ“¢A“y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ58‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€AƒIƒ“ƒ‰ƒCƒ“
  23. ¼ŠÔ–ؐç’qAŽðˆäGŽ¡A–öŒ´³ŽÀ (2021.11.17) ƒ^ƒCƒ„•²o—R—ˆ‚̃}ƒCƒNƒƒvƒ‰ƒXƒ`ƒbƒN‚ÌŽ©“®ŽÔ‘–s‚É”º‚¤‘¶ÝŽÀ‘Ԃ̉𖾁A“y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ58‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€AƒIƒ“ƒ‰ƒCƒ“
  24. ŽðˆäGŽ¡AÎŽR—E‹PA¬ò–¾A‰¡ŽRŸ‰pAŽðˆäŒ’Ž¡A¬—эvA•–Ø’¼–ç (2021.11.17) …“¹…Œ¹—Ñ‚Ì“y»—¬o–hŽ~‹@”\‚ÉŠÖ‚·‚é•]‰¿Žw•W‚ÌŒŸ“¢‹y‚Ñ•ªÍA“y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ58‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€AƒIƒ“ƒ‰ƒCƒ“
  25. Shane Htet Ko and Hiroshi Sakai (2021.11.16) Importance Of Public Trust In Water Supply Authority For Improving The Acceptance Of Tap Water In Yangon City, “y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ58‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€AƒIƒ“ƒ‰ƒCƒ“
  26. Œã“¡—É‘¾AŽðˆäGŽ¡ (2021.8.19) UV/H2O2‹y‚ÑUV/Na2S2O8‚ð—p‚¢‚½LAS‚Ì•ª‰ðŒø‰ÊA“ú–{‰º…“¹‹¦‰ïA‘æ58‰ñ‰º…“¹Œ¤‹†”­•\‰ïApp.251-253AƒIƒ“ƒ‰ƒCƒ“(‘åãŽs)
  27. ¬–ì˜aŽ÷AŽðˆäGŽ¡ (2021.3.10) —°Ž_ƒ‰ƒWƒJƒ‹‚ð—p‚¢‚½—L‹@•¨‚Ì‘£iŽ_‰»‚ÉŠÖ‚·‚錤‹†A“ú–{…ŠÂ‹«Šw‰ïA‘æ55‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïAp.482AƒIƒ“ƒ‰ƒCƒ“(‹ž“s‘åŠw)
  28. ŽðˆäGŽ¡A¼ŠÔ–ؐç’qAÎˆä—¢ŽÀA•ûˆê– (2021.3.2) ƒ^ƒCƒ„•²o—R—ˆƒ}ƒCƒNƒƒvƒ‰ƒXƒ`ƒbƒN‘ª’è‚Ì‚½‚ß‚ÌŽè–@‚ÌŒŸ“¢A“y–ØŠw‰ïŠÖ“ŒŽx•”A‘æ48‰ñŠÖ“ŒŽx•”‹ZpŒ¤‹†”­•\‰ïAp.VII-14AƒIƒ“ƒ‰ƒCƒ“
  29. ’ϐ¬’΁AŽðˆäGŽ¡ (2020.12.9) …“¹Ž{Ý‚̘V‹€‰»‚ƈێŠÇ—‚ÉŠÖ‚·‚é•]‰¿Žw•W‚ÌŒŸ“¢A“y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ57‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€AƒIƒ“ƒ‰ƒCƒ“(‹à‘ò‘åŠw)
  30. Duka MauriceAˆäŒûŒdA‰¡ŽRŸ‰pAŽðˆäGŽ¡A¬ò–¾AŠâú±_”üAã–ìr–¾Aç—t“O–ç (2020.11.18-20)AEffect of Selective Withdrawal and Vertical Curtain on Turbid Water Flow after a Flood Event in the Ogouchi Reservoir -Field Observation and 3D Numerical Simulation-A“ú–{…“¹‹¦‰ïA—ߘa2”N“x‘S‘…“¹Œ¤‹†”­•\‰ïu‰‰WApp.760-761AƒIƒ“ƒ‰ƒCƒ“
  31. Gunay Charles JohnA’†ì’m‰ÀA‰¡ŽRŸ‰pAŽðˆäGŽ¡A¬ò–¾AŠâú±_”üAç—t“O–ç (2020.11.18-20)AChanges in Soil Hydrological Condition of Ogouchi Dam Catchment from SWAT Monthly Discharge Analysis for 57 yearsA“ú–{…“¹‹¦‰ïA—ߘa2”N“x‘S‘…“¹Œ¤‹†”­•\‰ïu‰‰WApp.762-763AƒIƒ“ƒ‰ƒCƒ“
  32. ¼ŠÔ–ؐç’qAŽðˆäGŽ¡A¬ò–¾A‰¡ŽRŸ‰pAŠâú±_”üAã–ìr–¾Aç—t“O–ç (2020.11.18-20)A…“¹…Œ¹—ÑŠÇ—‚Ƒ͍»‚Ì’·Šú•Ï“®‚ÉŠÖ‚·‚éˆêlŽ@A“ú–{…“¹‹¦‰ïA—ߘa2”N“x‘S‘…“¹Œ¤‹†”­•\‰ïu‰‰WApp.166-167AƒIƒ“ƒ‰ƒCƒ“
  33. Yiming FangAHiroshi Sakai (2020.11.18-20)AUse of Ultraviolet Light activated AOPs to Degrade Humic substances in reservoirA“ú–{…“¹‹¦‰ïA—ߘa2”N“x‘S‘…“¹Œ¤‹†”­•\‰ïu‰‰WApp.754-755AƒIƒ“ƒ‰ƒCƒ“
  34. ŠØ‰ƒWAŽðˆäGŽ¡A¬ò–¾A¼ŠÔ–ؐç’qAŠâú±_”üAã–ìr–¾Aç—t“O–ç (2020.9.23) …“¹…Œ¹—Ñ‚É‚¨‚¯‚éŽR—Ñ”ro•‰‰×Œ´’PˆÊ‚̐„’è‹y‚Ñ•]‰¿A“y–ØŠw‰ï’n‹…ŠÂ‹«ˆÏˆõ‰ïA‘æ28‰ñ’n‹…ŠÂ‹«ƒVƒ“ƒ|ƒWƒEƒ€AƒIƒ“ƒ‰ƒCƒ“
  35. Yiming FangAHiroshi Sakai (2020.3.18)AUV-activated Persulfate Process on the Degradation of Hydrophobic NOM with different UV Wavelength and Persulfate DosageA“ú–{…ŠÂ‹«Šw‰ïA‘æ54‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.342A·‰ªŽs
  36. Yanni Han, Hiroshi Sakai, Yasuhiro Arai, Akira Koizumi, Hiromi Iwasaki, Toshiaki Ueno, Tetsuya Chiba (2020.3.18)AEstimation and Evaluation of Pollution Load from the Water Conservation Forest using GISA“ú–{…ŠÂ‹«Šw‰ïA‘æ54‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.316A·‰ªŽs
  37. ÎŽR—E‹PAŽðˆäGŽ¡ArˆäN—TA‰¡ŽRŸ‰pA¬ò–¾AŠâú±_”üAã–ìr–¾Aç—t“O–ç (2020.3.18)A¬‰Í“à’™…’r—¬ˆæ‚̐…•¶…Ž¿ƒf[ƒ^‚É‚¨‚¯‚é‹É’l‚Ì•ªÍA“ú–{…ŠÂ‹«Šw‰ïA‘æ54‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.369A·‰ªŽs
  38. Œã“¡—É‘¾AŽðˆäGŽ¡ (2020.3.18)A‘£iŽ_‰»ˆ—‚ð—p‚¢‚½’Y‘f”•ÊLAS‚Ì•ª‰ð”½‰ž‹y‚ѐ…Ž¿‚Æ‚ÌŠÖŒWA“ú–{…ŠÂ‹«Šw‰ïA‘æ54‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.320A·‰ªŽs
  39. ‰ÔŒ`“ÕŽjAŽðˆäGŽ¡A‰¡ŽRŸ‰pArˆäN—TA¬ò–¾AŠâú±_”üAã–ìr–¾Aç—t“O–ç (2020.3.16)A…“¹…Œ¹—т̏ó‘Ô‚ª—¬ˆæ‰Íì‚Ì’·’ZŠú‚̐…Ž¿‚É‹y‚Ú‚·‰e‹¿A“ú–{…ŠÂ‹«Šw‰ïA‘æ54‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.601A·‰ªŽs
  40. ¬–¸‘å‹PAŽðˆäGŽ¡ (2020.3.16)AˆŸ”M‘Ñ’nˆæ‚É‘®‚·‚éX—яó‘Ô‚ª…Ž¿‚É‹y‚Ú‚·‰e‹¿‚̉𖾁A“ú–{…ŠÂ‹«Šw‰ïA‘æ54‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.606A·‰ªŽs
  41. Sirui PanAHiroshi Sakai (2020.3.16)AMicrobial Water Quality in Water Storage Tanks and Influencing FactorsA“ú–{…ŠÂ‹«Šw‰ïA‘æ54‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïApp.54A·‰ªŽs
  42. ŽðˆäGŽ¡A²’|–¾A‘ê‘ò’q (2019.12.4) …“¹ŠÇ˜H‚̘V‹€‰»‚ƈێŠÇ—‚ÉŠÖ‚·‚é•]‰¿Žw•W‚ÌŒŸ“¢A“y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ56‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€A‰ªŽRŽs
  43. ÎŽR—E‹PAŽðˆäGŽ¡ArˆäN—TA¬ò–¾A‰¡ŽRŸ‰pAŠâè_”üAã–ìr–¾Aç—t“O–ç (2019.11.7) ¬‰Í“à’™…’r—¬“ü‰Íì‚É‚¨‚¯‚é’·Šú…Ž¿•Ï‰»‚Ì•ªÍ‚Æ—vˆöŠÖ˜A}‚ÌŠˆ—pA“ú–{…“¹‹¦‰ïA—ߘaŒ³”N“x‘S‘…“¹Œ¤‹†”­•\‰ïu‰‰WApp.258-259A”ŸŠÙŽs
  44. Athit Phetrak, Hiroshi Sakai, Satoshi Takizawa (2019.10.7) Characterization Of Natural Organic Matter And Its Contribution To Trihalomethane Formation In Myanmar Drinking Water Sources, International Water Association, The 7th IWA Specialist Conference on Natural Organic Matter in Water, Tokyo, Japan
  45. Hiroshi Sakai, Olivier Autin, Simon Parsons (2019.10.7) Change in Haloacetic Acid Formation Potential during UV and UV/H2O2 Treatment of Model Organic Compounds, International Water Association, The 7th IWA Specialist Conference on Natural Organic Matter in Water, Tokyo, Japan
  46. Mei Satake, Hiroshi Sakai, Yasuhiro Arai, Satoshi Takizawa (2019.7.10) Report Card Indexes for Ageing and Maintenance Assessment of Water supply Infrastructure, The 11th International Symposium on Water Supply Technology, Yokohama, Japan
  47. ŽðˆäGŽ¡A‘vŠËËAŒã“¡—É‘¾ (2019.6.21)AŽ‡ŠOü‰ßŽ_‰»…‘fˆ—‚É‚æ‚é’¼½ƒAƒ‹ƒLƒ‹ƒxƒ“ƒ[ƒ“ƒXƒ‹ƒzƒ“Ž_‚Ì•ª‰ðA“ú–{ƒIƒ]ƒ“‹¦‰ïA‘æ28‰ñ”NŽŸŒ¤‹†u‰‰‰ïA“Œ‹ž“s
  48. ‘vŠËËAŽðˆäGŽ¡ (2019.3.9)AŽ‡ŠOü‚ð—p‚¢‚½‘£iŽ_‰»ˆ—‚É‚æ‚é’¼½ƒAƒ‹ƒLƒ‹ƒxƒ“ƒ[ƒ“ƒXƒ‹ƒzƒ“Ž_‹y‚Ñ‚»‚̉–‚Ì•ª‰ðŒø‰ÊA“ú–{…ŠÂ‹«Šw‰ïA‘æ53‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïAb•{Žs
  49. ŽRèŒöŽqAŽðˆäGŽ¡A¬ò–¾Aç—t—El (2019.3.9)A¬Š}Œ´‘ºò…ê‚̈ړ]XV‚É”º‚¤…“¹…Ž¿‚̕ω»A“ú–{…ŠÂ‹«Šw‰ïA‘æ53‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïAb•{Žs
  50. Œã“¡—É‘¾AŽðˆäGŽ¡ (2019.3.7)AŽ‡ŠOü‰ßŽ_‰»…‘fˆ—‚É‚¨‚¯‚éŒõŒ¹”g’·‚̈Ⴂ‚ª LAS‚Ì•ª‰ðŒø—¦‚É‹y‚Ú‚·‰e‹¿A“ú–{…ŠÂ‹«Šw‰ïA‘æ53‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïAb•{Žs
  51. ‚–Ø—T—YA‰¡ŽRŸ‰pA¬ò–¾AŽðˆäGŽ¡AŠâú±_”üAã–ìr–¾A‘º–ؐ•ä (2018.10.26) ¬‰Í“à’™…’r‚É‚¨‚¯‚é‘͍»ó‹µ‚ÌŒo”N•Ï‰»‚ÉŠÖ‚·‚镪ÍA“ú–{…“¹‹¦‰ïA•½¬30”N“x‘S‘…“¹Œ¤‹†”­•\‰ïA•Ÿ‰ªŽs
  52. ŽRú±ŒöŽqAŽðˆäGŽ¡A¬ò–¾Aç—t—El (2018.10.24) ¬Š}Œ´‘ºî‰Yò…ê‚̈ړ]XV‚É”º‚¤‹ÃWˆ—‚Ì—vˆö•Ï‰»A“ú–{…“¹‹¦‰ïA•½¬30”N“x‘S‘…“¹Œ¤‹†”­•\‰ïA•Ÿ‰ªŽs
  53. ¼ú±—¤AŽðˆäGŽ¡A¬ò–¾ArˆäN—TA‰¡ŽRŸ‰pA‘º–ؐ•äAŠâú±_”ü (2018.10.24) 3ŽŸŒ³ƒŒ[ƒ_[ƒ`ƒƒ[ƒg‚ð—p‚¢‚½¬‰Í“àW…ˆæ‚Ì‘‡•]‰¿A“ú–{…“¹‹¦‰ïA•½¬30”N“x‘S‘…“¹Œ¤‹†”­•\‰ïA•Ÿ‰ªŽs
  54. ¬—я«”VAŽðˆäGŽ¡A¬ò–¾AŽRèŒöŽqAˆîˆõ‚Æ‚æ‚́A‘º–ؐ•äAŠâú±_”ü (2018.10.24) X—Ñ“yë‚É‚¨‚¯‚éƒ}ƒ“ƒKƒ“‚¨‚æ‚Ñ‘SƒŠƒ“‚Æ’™…’r‚Ì—¬ˆæ“Á«‚ÉŠÖ‚·‚éˆêlŽ@A“ú–{…“¹‹¦‰ïA•½¬30”N“x‘S‘…“¹Œ¤‹†”­•\‰ïA•Ÿ‰ªŽs
  55. Kimiko Yamazaki, Hiroshi Sakai, Toyono Inakazu, Akira Koizumi, Katsuhide Yokoyama, Taku Kanami, Shinichi Kimura and Tomoya Kaneyasu (2018.9.20) Analysis on the Characteristics of the Manganese Content of Basin Soil of Ogouchi Reservoir, International Water Association, World Water Congress & Exhibition 2018, Tokyo, Japan
  56. Hiroshi Sakai, Shane Htet Ko (2018.9.19) Household Water Treatment Practice at Rural Areas of Myanmar and Their Perception to New Treatment Technologies, International Water Association, World Water Congress & Exhibition 2018, Tokyo, Japan    
  57. ¬—я«”VAŽðˆäGŽ¡A¬ò–¾AŽRèŒöŽqAˆîˆõ‚Æ‚æ‚́A‘º–ؐ•äAŠâú±_”ü (2018.9.5) ’™…’r‚ÌŽü•Ó—¬ˆæ“yë‚É‚¨‚¯‚éƒ}ƒ“ƒKƒ“‹y‚Ñ‘S‚è‚ñ‚É’…–Ú‚µ‚½‰e‹¿—vˆö•ªÍA“y–ØŠw‰ï’n‹…ŠÂ‹«ˆÏˆõ‰ïA‘æ26‰ñ’n‹…ŠÂ‹«ƒVƒ“ƒ|ƒWƒEƒ€A’·èŽs
  58. ŽRú±ŒöŽqAŽðˆäGŽ¡A¬ò–¾Aç—t—ElA‘å’ˍGK (2018.3.15)@‹ÃW’¾“aˆ—‚É‚æ‚éF“x‚¨‚æ‚ÑDOC‚̏œ‹ŽA“ú–{…ŠÂ‹«Šw‰ïA‘æ52‰ñ“ú–{…ŠÂ‹«Šw‰ï”N‰ïAŽD–yŽs
  59. ¼‘º’q”VA‘ê‘ò’qA¬ŒF‹v”üŽqA‹´–{’ŽjAŽðˆäGŽ¡ (2017.11.19)@‘S‘‚̐…“¹Ž–‹Æ‘Ì‚É‚¨‚¯‚é—LŒø—¦‚ÌŒo”N•Ï‰»‚Æ–³Œø—¦ã¸—vˆö‚̉ðÍA“y–ØŠw‰ïŠÂ‹«HŠwˆÏˆõ‰ïA‘æ54‰ñŠÂ‹«HŠwŒ¤‹†ƒtƒH[ƒ‰ƒ€AŠò•ŒŽs
  60. Hiroshi Sakai, Shane Htet Ko (2017.10.27) Perception of local residents against new water treatment technologies at suburban area of YangonA“ú–{…“¹‹¦‰ïA•½¬29”N“x‘S‘…“¹Œ¤‹†”­•\‰ïA‚¼Žs
  61. úå’q”VAŽRèŒöŽqAŽðˆäGŽ¡Aˆîˆõ‚Æ‚æ‚́A¬ò–¾A‘å’ˍGK (2017.10.26) ¬Š}Œ´‘º•ê“‡‚É‚¨‚¯‚éò…êXVŒv‰æˆÄ‚ÌŒŸØA“ú–{…“¹‹¦‰ïA•½¬29”N“x‘S‘…“¹Œ¤‹†”­•\‰ïA‚¼Žs
  62. ŽRèŒöŽqA—é–ØŒ’‘¾A¬ò–¾Aˆîˆõ‚Æ‚æ‚́AŽðˆäGŽ¡Aç—t—El (2017.10.26) ‘Ø—¯ŽžŠÔ‚ðl—¶‚µ‚½¬Š}Œ´î‰Yò…ê‚̏œ‹Ž“Á«‚Ì•ªÍA“ú–{…“¹‹¦‰ïA•½¬29”N“x‘S‘…“¹Œ¤‹†”­•\‰ïA‚¼Žs
  63. ¬—я«”VAˆîˆõ‚Æ‚æ‚́AŽRèŒöŽqAŽðˆäGŽ¡A¬ò–¾A‰¡ŽRŸ‰pA–Ø‘ºTˆêAŒ“ˆÀ’q–ç (2017.10.25) ¬‰Í“à’™…’r‚Ì—¬ˆæ“yë‚É‚¨‚¯‚é‘SƒŠƒ“ŠÜ—L—Ê‚Ì—vˆö•ªÍA“ú–{…“¹‹¦‰ïA•½¬29”N“x‘S‘…“¹Œ¤‹†”­•\‰ïA‚¼Žs

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