Urase laboratory web site

雑誌論文(査読あり,浦瀬分)

雑誌(原著)論文

(1) 下水処理における平膜クロスフロー濾過に関わる諸因子の検討, 衛生工学論文集, vol.27, pp55-64, 1991.

(2) 中空糸精密濾過膜を利用した合併処理浄化槽における膜分離部の効率化, 浄化槽研究, vol.3, No.1, pp27-33, 1991.

(3) Organic stabilization and nitrogen removal in membrane separation bioreactor for domestic wastewater treatment, Wat. Sci. & Tech., 25, 10, 231-240, 1992.

(4) Evaluation of virus removal in membrane separation process by using coliphage Qβ, Wat. Sci. & Tech., 28, 7, pp9-15, 1994.

(5) Effect of pore size distribution of ultrafiltration membranes on virus rejection in crossflow condition, Wat. Sci. and Tech., 30, 9, 199-208, 1994.

(6) 限外ろ過膜・低圧逆浸透膜のウイルス阻止特性, 環境工学研究論文集, 31, 171-180, 1994.

(7) 大きさの異なる2種のファージの精密ろ過膜における除去特性, 水道協会雑誌, 65, 1, 15-23, 1996.

(8) Effect of pore structure of membranes and module configuration on virus retention, J. of Membr. Sci., 115, 21-29, 1996.

(9) Effect of operating conditions on rejection of anionic pollutants in the water environment by nanofiltration especially in very low pressure range, Wat. Sci. Tech., 34, 9, 149-156, 1996.

(10) 外圧式親水化中空糸精密ろ過膜の人為破断による大腸菌および大腸菌ファージの流出特性, 水道協会雑誌, 66, 9, 16-26, 1997

(11) Effect of high concentration of organic and inorganic matters in landfill leachate on the treatment of heavy metals in very low concentration level, Wat. Sci. Technol., 36, 12, 349-356, 1997.

(12) Prediction of behavior in rejection of pollutants in ultra low pressure nanofiltration, Wat. Sci. Technol., 38, 4/5, 453-462, 1998.

(13) Mechanism of bacterial and viral transport through microfiltration membranes, Wat. Sci. Technol., 38, 4/5, 489-496, 1998.

(14) ナノろ過プロセスでの種類および化学形態の異なる金属の阻止特性, 環境工学論文集, 255-263, 1998.

(15) Effect of pH on rejection of different species of arsenic by nanofiltration, Desalination, 117, 11-18, 1998.

(16)山田和哉, 浦瀬太郎, 松尾友矩, 鈴木規之(1999): 異なる形式の廃棄物処分場の浸出水中の微量有機成分の計測とその浸出水処理過程での挙動, 水環境学会誌, 22, 1, 40-45.

(17) コメットアッセイを用いた廃棄物処分場浸出水に含まれるDNA損傷性の検出, 水環境学会誌, 22, 9, 783-789, 1999.

(18) Removal of viruses by microfiltration membranes at different solution environments, Wat. Sci. Technol., 40, 4-5, 331-338, 1999.

(19) Supercritical water oxidation of high concentrations of phenol, J. of hazardous materials B, 73, 245-254, 2000.

(20) The effect of suction velocity on concentration polarization in microfiltration membranes under turbulent flow condition, J. of Membrane Science, 169, 175-183, 2000.

(21) Modeling of arsenic rejection considering affinity and steric hindrance effect in nanofiltration membranes, Wat. Sci. & Technol., 42, 3-4, 173-180, 2000.

(22) Possible impact of treated wastewater discharge on incidence of antibiotic resistant bacteria in river water, Wat. Sci. & Technol., 43, 2, 91-99, 2001.

(23) Comparison between rejection characteristics of natural organic matter and inorganic salts in ultra low pressure nanofiltration for drinking water production, Water Science and Technology – Water Supply, 1, 5-6, 77-90, 2001.

(24) Carbon catalyzed supercritical water oxidation of phenol, J. of Supercritical Fluid, 22, 149-156, 2002.

(25) ハロ酢酸類の下水処理過程および水環境中における挙動, 水環境学会誌, 25, 5, 285-288, 2002.[ノート]

(26) 吸引式低圧逆浸透法の物質輸送特性とそのモデルによる解析, 土木学会論文集, 706/VII-23, 31-39, 2002.

(27) 活性汚泥法による内分泌かく乱物質除去に関する固液二相数値シミュレーション, 環境工学論文集, 39, 87-96, 2002.

(28) 廃棄物処分場浸出水および道路脇粉塵に含まれる重金属の日本とフィリピンでの状況の比較, 水環境学会誌, 25, 11, 657-660, 2002.[調査報告]

(29) Factors affecting concentration of bisphenol A in leachates from solid waste disposal sites and its fate in treatment processes, J. of Material Cycles and Waste Management, 5, 1, 77-82, 2003.
(Abstract here)

(30) Retention of a wide variety of organic pollutants by different nanofiltration/reverse osmosis membranes: controlling parameters of process, J. of Membrane Science, 225, 91-103, 2003. (DOI)

(31) Rejection mechanisms of plastic additives and natural hormones in drinking water treated by nanofiltration, Water Science and Technology – Water Supply, 3, 5, 311-319, 2003.

(32) 焼却炉解体工事排水に含まれる有害物質の固液間の分配と膜分離による処理特性, 土木学会論文集, 769/VII-32, 27-34, 2004.

(33) 活性汚泥中での医薬品・女性ホルモン様物質の除去に影響を及ぼす因子, 用水と廃水, 46, 11, 955-961, 2004.
(Abstract here)

(34) 医薬品の除去に対する膜分離活性汚泥法分離膜の付加効果, 水環境学会誌, 28, 3, 207-210, 2005.
(Abstract here)

(35) Separate estimation of adsorption and degradation of pharmaceutical substances and estrogens in the activated sludge process, Water Research, 39, 1289-1300, 2005. (DOI)

(36) Factors affecting removal of pharmaceutical substances and estrogens in membrane separation bioreactor, Desalination, 178, 107-113, 2005. (DOI)

(37) 雨水ます中の堆積泥に含まれる重金属の濃度分布, 水環境学会誌, 28, 10, 637-641, 2005.[調査報告] (DOI)

(38) ナノろ過膜による医薬品の阻止特性, 水環境学会誌, 28, 11, 657-662, 2005. (DOI)

(39) 異なる活性汚泥による女性ホルモン類・医薬品等の除去特性, 環境工学論文集, 42, 347-356, 2005. (DOI)

(40) Effect of urban emissions on the horizontal distribution of metal concentration in sediments in the vicinity of Asian large cities, J. of Water and Environment Technology, 4, 1, 61-71, 2006.(Full paper available at J-STAGE)

(41) Removal of ionic and non-ionic pharmaceuticals using granular activated carbon, 大韓環境工学会誌, 28, 11, 1192-1197, 2006. (In Korean)

(42) The effect of deterioration of nanofiltration membrane on retention of pharmaceuticals, Desalination, 202, 385-391, 2007. (DOI)

(43) 粒状活性炭による医薬品類の吸着特性, 用水と廃水, 49, 4, 323-329, 2007.

(44) Change in membrane performance due to organic fouling in nanofiltration (NF)/reverse osmosis (RO) applications, Separation and Purification Technology 55 (2), 147-156, 2007. (DOI)

(45) タイ国ノンタブリ処分場における浸出水中の微量物質, 水環境学会誌, 30, 11, 617-620, 2007.[ノート] (DOI)

(46) 港湾域の底泥中化学物質濃度と底生生物叢の関係,環境工学研究論文集, 44, 7-16, 2007.

(47) 港湾域の底泥ダイオキシン類含有量による溶出量の推定,土木学会論文集G, 63, 4, 425-434, 2007.

(48) 名古屋港の港湾堆積物に含まれるPAH類の環境動態,水環境学会誌, 31, 9, 549-557, 2008. (DOI)

(49) Emission of volatile organic compounds from solid waste disposal sites and importance of heat management, Waste Management Research, 26, 534-538, 2008.
(Abstract here)

(50) 下水処理水を受水する河川での臭気強度およびアルデヒド類の濃度, 水環境学会誌, 31, 12, 769-774, 2008.[調査報告] (DOI)

(51) Experimentation and modeling of foulant interaction and reverse osmosis membrane fouling during textile wastewater reclamation, Separation and Purification Technology, 68, 37-49, 2009. (DOI)

(52) Biodegradation of trace pharmaceutical substances in wastewater by a membrane bioreactor, Frontiers of Environmental Science & Engineering in China, 3(2), 236-240, 2009.

(53) The characteristics of enriched nitrifier culture in the degradation of selected pharmaceutically active compounds, J. of Hazardous Materials, 171, 1051-1057, 2009. (DOI)

(54) Foulant interaction and RO productivity in textile wastewater reclamation plant, Desalination 250, 845-849, 2010.

(55) The biodegradation characteristics of selected pharmaceutical substances by whole fungal culture Trametes versicolor and its laccase, Journal of Water and Environment Technology , 8, 2, 125-140, 2010. (DOI)

(56) ダイオキシン類振とう溶出試験に及ぼす影響因子, 水環境学会誌, 33, 7, 87-96, 2010. (DOI)

(57) 河川環境中の医薬品の分解速度に影響を及ぼす因子,環境工学研究論文集, 47, 413-421, 2010.
(Abstract here)

(58) 異なる水環境から単離した大腸菌の抗生物質耐性プロファイル,水環境学会誌, 35, 5, 73-80, 2012.[ノート] (DOI)

(59) 下水処理水の臭気の強度および特徴の嗅覚測定法による把握,下水道協会誌,49, 599(2012/9), 115-122, 2012.
(Abstract here)

(60) Insight into metabolic and cometabolic activities of autotrophic and heterotrophic microorganisms in the biodegradation of emerging trace organic contaminants. Bioresource Technology. 146, 721-731, 2013. Review Article. (DOI)

(61) Removal of the insect repellent N,N-diethyl-m-toluamide (DEET) by laccase-mediated systems. Bioresource Technology. 147, 667-671, 2013. (DOI)

(62) Occurrence of earthy and musty odor compounds (geosmin, 2-methylisoborneol and 2,4,6-trichloroanisole) in biologically treated wastewater, Water Science and Technology, 68, 9, 1969-1975, 2013. (DOI)

(63) Removal of color from molasses wastewater using membrane bioreactor with acidic condition, Journal of Water and Environment Technology, Vol. 11, No.6, 539-546, 2013. (DOI)

(64) Effect of natural organic matter on adsorption of ionic and nonionic pharmaceuticals to granular activated carbon, Environment Protection Engineering, Vol. 39, No. 4, 15-28, 2013.

(65) A preliminary study on the occurrence of pharmaceutically active compounds in hospital wastewater and surface water in Hanoi, Vietnam, Clean Soil, Air, Water, 42, 3, 267-275, 2014. (DOI)

(66) Role of nitrification in the biodegradation of selected artificial sweetening agents in biological wastewater treatment process, Bioresource Technology. Vol 161, 40-46, 2014. (DOI)

(67) A critical review on characterization strategies of organic matter for wastewater and water treatment processes, Bioresource Technology, Volume 193, Pages 523-533, 2015. (DOI)

(68) Treatment of Saline Wastewater by Thermophilic Membrane Bioreactor, J. of Water and Environment Technology, Vol. 14, No. 2, pp. 76-81, 2016. (DOI)

(69) Quantitative monitoring of resistance in Escherichia coli to clinically important antimicrobials in an urban watershed, J. of Water and Environment Technology, Vol. 14, No. 5, pp.341-349, 2016. (DOI)

(70) 抗菌医薬品の流入が二段式膜分離活性汚泥法における処理機能へ与える影響, 水環境学会誌, Vol.40, No.3, pp.107-114, 2017. (DOI)

(71) におい嗅ぎGCを利用した下水処理水の臭気の分析,水環境学会誌,Vol.41, No.1, pp11-17, 2018.[調査報告] (DOI)

(72) Retention of Bacteria and DNA by Microfiltration Membranes in Wastewater Reclamation, Journal of Water and Environment Technology, Vol. 17, (3), pp.194-202, 2019. (DOI)

(73) Aerobic and Anaerobic Biological Degradation of Pharmaceutically Active Compounds in Rice Paddy Soils, Applied Sciences. 9(12), 2505, 2019. (DOI)

(74) Characterization of Extended Spectrum β-lactamase-producing Escherichia coli in the Environment Isolated with Different Concentrations of Cefotaxime, Journal of Water and Environment Technology, Vol. 17, (4), pp. 262-272, 2019. (DOI)

(75) さまざまな下水処理場の処理水に含まれるカビ臭物質濃度,土木学会論文集G(環境), 75, 7, III_25-III_33, 2019.

(76) Prevalence of ESBL-producing Escherichia coli and carbapenem-resistant Enterobacteriaceae in treated wastewater: a comparison with nosocomial infection surveillance, J. of Water and Health, Vol. 18, No. 6, 899-910, 2020. (DOI)

(77) Bacterial species identified in the filtrate of microfiltration membranes in the separation of activated sludge, Journal of Water and Environment Technology, Vol.19, No.6, pp 294-301, 2021. (DOI

(78) 都市近郊の河川での大腸菌の各種薬剤への耐性率の変化事例, 水環境学会誌,Vol.45, No.2, pp83-90, 2022. (DOI)

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