日本地球惑星科学連合2018年大会

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セッション記号 A (大気水圏科学) » A-GE 地質環境・土壌環境

[A-GE31] 地質媒体における物質移動,物質循環と環境評価

2018年5月21日(月) 15:30 〜 17:00 104 (幕張メッセ国際会議場 1F)

コンビーナ:小島 悠揮(岐阜大学工学部)、濱本 昌一郎(東京大学大学院農学生命科学研究科)、斎藤 広隆(東京農工大学大学院農学研究院、共同)、森 也寸志(岡山大学大学院環境生命科学研究科)、座長:濱本 昌一郎(東京大学)、森 也寸志(岡山大学)

16:40 〜 16:55

[AGE31-09] Transport of LNAPL and biofilm growth in subsurface under dynamic groundwater conditions

*Pankaj Kumar Gupta1Basant Yadav2Brijesh Kumar Yadav1 (1.Indian Institute of Technology Roorkee, India、2.Indian Institute of Science Bangalore, India)

キーワード:Mass Transport , Biofilm Growth, Subsurface

The focus of this study was to investigate transport of light non-aqueous phase liquids (LNAPL) and biofilm growth in subsurface under stable and dynamic groundwater table conditions. A series of practical experiments were conducted using two-dimensional sand tank setup having dimensions of 125 cm length by 90 cm height by 10 cm width and integrated with an auxiliary column. Transport of toluene, the selected LNAPL, was investigated under stable groundwater table condition before considering three different groundwater fluctuating scenarios. Three different groundwater fluctuation conditions were maintained by raising and falling 5cm magnitude of fluctuation in 1, 2 and 4 hours. Thereafter, numerically runs were conducted for the LNAPL transport and biofilm growth under varying groundwater conditions for the experimental domain. The results show that a large LNAPL-water interphase under fluctuating groundwater conditions contributes to high concentration of dissolved LNAPL plume in saturated zone. Transport of dissolved LNAPL and oxygen was also comparatively more in case of fast fluctuating groundwater resulting in closely spaces concentration isolines of toluene containing plume. Biofilm growth was found to be increasing as plume moves away from the LNAPL pool, which fortifies detrimental impact of toluene on the survival of indigenous microorganisms. A high biodegradation rate was observed in regions having concentration ranges from 140-160 mg/L. The response of the microbial community was also affected by oxygen derived from fluctuating groundwater condition. The results of this study may help to implement effective bioremediation designs to decontaminate LNAPL polluted sites under varying subsurface conditions.