Your search keyword '"Okumura, Hirofumi"' showing total 9 results

1. Reservoir Sedimentation Management for Hydropower Plant Sustainability - Influence of Sedimentation Progress in Storage Reservoirs on Hydropower Plant Operation

Author

OKUMURA, Hirofumi and SUMI, Tetsuya

Subjects

貯水池, hydropower plant, water use efficiency, 堆砂, reservoir sedimentation, storage reservoir, 水使用率, 519.9, 水力発電所

Abstract

Reservoir sedimentation is one of the most important problems for securing long term achievement of hydropower plant operation in the future. We have already classified the sedimentation problems regarding the reservoir types and proposed effective sediment control measures for regulating reservoirs. On the other hand, sedimentation problems in storage reservoirs need to be more studied. In this paper, we have evaluated the influence of sedimentation progress in storage reservoirs on power generation by analyzing long-term operation record. Finally, future influence of reservoir sedimentation was predicted from the viewpoints of changing active storage capacity, inflow water regime and the maximum hydropower discharge.

Published

2013

2. Planning of sediment bypass tunnel for hydropower dams

Author

Onda, Chihaya, Okumura, Hirofumi, Matsubara, Takayuki, Onda, Chihaya, Okumura, Hirofumi, and Matsubara, Takayuki

Abstract

In Japan sedimentation in hydropower reservoir is one of the most important problems for sustainable power generation. Many J-POWER Electric Company's dams and reservoirs were installed in post war reconstruction period, then for decades reservoirs have stored much sedimentation inside up to sedimentation ratio 10% because of high degree of sediment production and river flow regime. We have been trying to excavate sedimentation out of reservoirs to avoid loss of reservoir capacity, aggradation of upstream riverbed and obstacle for intake and outlet functions. It is time to change sedimentation management of hydropower reservoir, because of the reasons bellow. There is too much sediment to remove, resulting too much cost for excavation, and no disposal site near reservoir, on the other hand, sediment flow is strongly requested in dam downstream river and coastal area. It is not effective to excavate and dispose sediment just considering hydropower generation, appropriate sedimentation management is needed both for power generation and river basin sustainability. Sediment bypassing is one of the most effective methods instead of excavation. In Japan 4 sediment bypasses have been installed. Sediment bypass does also have some difficulties in installation and operation. We study the feasibility of bypass installation on 2 J-POWER reservoirs and in this paper we show the site condition of sedimentation, expected effects, difficulties of bypass and our challenges to them.

Published

2017

3. Experimental study on imaging hydraulic conductivity of rock masses based on elastic wave velocity dispersion

Author

Yoshimura, Kimitaka, Ando, Kenichi, Sakashita, Susumu, [checking], Okumura, Hirofumi, Nishiyama, Satoshi, and Onishi, Yuzo

Subjects

高レベル放射性廃棄物, 透水係数, seismic tomography, velocity dispersion, 弾性波トモグラフィ, 多孔質弾性体論, poro-elastic theory, Radioactive Waste disposal in underground, 速度分散, hydraulic conductivity

Abstract

弾性波の分散を利用した岩盤の透水性評価手法の開発を目指し，室内試験および原位置試験による基礎的な検討を実施した。流体で満たされた岩盤中を弾性波が伝播する際には，周波数に応じた固体と流体との相互作用により速度と減衰率が変化する分散現象が生じその周波数特性と透水性との相関性を示す理論が提案されている。本稿では，弾性波の分散と透水性との関係について数値実験を実施し，次いで室内試験を実施した。その結果，透水性の異なる花崗岩試料に対して，異なる分散特性が認められ，理論式と整合することを確認した。さらに，周波数に依存した弾性波速度の分散が原位置で測定可能かどうかを検討した。その結果1.5mから70mの孔間で0.8kHzから80kHzの周波数帯において分散現象の可能性が高い試験結果が得られた。孔間距離1.5mで，発振周波数が20kHzおよび40kHzの弾性波トモグラフィ測定を実施し，地球統計学的手法を利用した試解析により透水係数断面を得た。得られた透水係数断面中央付近のボーリングを用いて透水試験を実施し，推定透水係数と比較したところ，両者の良好な一致が認められた。, The objective of this study is to establish a technique to obtain hydraulic conductivity distribution in granite rock masses. This technique is based on the characteristic that elastic wave velocity disperses in fully saturated porous media on frequency. Velocity dispersion is governed by fluid/solid interaction which corresponds to the hydraulic conductivity such as described by Biot and BISQ theory. In order to verify the validity of these theories in granite rock, laboratory tests were performed. The results of experiments show that the elastic wave velocity dispersion for granite rock can be well described by BISQ theory. To test the applicability of this approach in real rock masses, we performed in-situ experiments at the Grimsel test site in Switzerland. Dispersion phenomena were detected in the frequency range from 0.8 kHz to 80 kHz, in the borehole distance range from 1.5m to 70m. Cross-hole tomography measurements, with frequency at 20 kHz and 40 kHz in a distance between boreholes of 1.5 meter, were carried out. To obtain the hydraulic conductivity image, geostatistical technique was tried. A limited number of hydraulic test data were used to find the correlation between the velocity difference and hydraulic conductivity. With this correlation, a hydraulic conductivity image was constructed. The location of the high hydraulic conductivity zone from the result agrees with that estimated using geological information. Additional hydraulic tests were conducted in a borehole located in the middle of the tomography plane. These hydraulic tests show a good agreement between the measured hydraulic conductivity and the hydraulic conductivities predicted from the cross-hole tomography. These result of experimental studies show that the possibility as a practical method to determine the hydraulic conductivity image in granite rock.

Published

2009

4. Study on the Erosion Process in Mountainous River

Author

TAKAHASHI, Tamotsu, NAKAGAWA, Hajime, SATOFUKA, Yoshifumi, OKUMURA, Hirofumi, and YASUMOTO, Daichi

Subjects

河床侵食, 侵食・堆積速度, 水みち侵食, 455.9, erosion velocity, 混合砂礫床, mixture bed, 517.8, erosion process, sediment transportation, 454.3

Abstract

本研究においては, 山地河川からのより高精度な土砂流出予測を行うことを目的として, 混合砂礫床の侵食過程に関する水路実験および数値シミュレーションを行っている。まず, 混合砂礫床における非平衡な流砂・河床変動過程を解析するために, 新たな侵食・堆積速度式を提案し, 水路実験の結果との比較を通じて, その妥当性を検証している。ついで, この侵食・堆積速度式を用いて, 一次元的な河床侵食過程に関する数値シミュレーションモデルを構築し, 水路実験に適用している。さらに, このモデルを2次元場に拡張して, 混合砂礫床の水みち侵食に関する解析を行い、河床砂の粒度分布が河床侵食に及ぼす影響について検討している。, In this study, sediment transportation and erosion process in a mountainous river, where the bed material is composed of a wide range of grain size, are investigated by experiments and numerical simulation. We introduce a new erosion velocity formula for non‐uniform sand bed into the simulation model. The erosion velocity of each grain size can be predicted by the critical friction velocity and the balance between equilibrium sediment concentration and real concentration.We build one‐dimensional and two‐dimensional simulation model and apply to experiments. The model can calculate the bed degradation process on the non‐uniform sand bed.

Published

1998

5. 水力発電設備の持続的使用を目的としたダム貯水池土砂管理に関する研究

Author

Okumura, Hirofumi, 角, 哲也, 中川, 一, and 藤田, 正治

Subjects

水力発電設備, 持続的使用, ダム貯水池土砂管理

Published

2013

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Author

OKUMURA, Hirofumi, SUMI, Tetsuya, OKUMURA, Hirofumi, and SUMI, Tetsuya

Abstract

Reservoir sedimentation is one of the most important problems for securing long term achievement of hydropower plant operation in the future. We have already classified the sedimentation problems regarding the reservoir types and proposed effective sediment control measures for regulating reservoirs. On the other hand, sedimentation problems in storage reservoirs need to be more studied. In this paper, we have evaluated the influence of sedimentation progress in storage reservoirs on power generation by analyzing long-term operation record. Finally, future influence of reservoir sedimentation was predicted from the viewpoints of changing active storage capacity, inflow water regime and the maximum hydropower discharge.

Published

2013

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Author

Okumura, Hirofumi and Okumura, Hirofumi

Published

2013

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Author

Yoshimura, Kimitaka, Ando, Kenichi, Sakashita, Susumu, [checking], Okumura, Hirofumi, Nishiyama, Satoshi, Onishi, Yuzo, Yoshimura, Kimitaka, Ando, Kenichi, Sakashita, Susumu, [checking], Okumura, Hirofumi, Nishiyama, Satoshi, and Onishi, Yuzo

Abstract

The objective of this study is to establish a technique to obtain hydraulic conductivity distribution in granite rock masses. This technique is based on the characteristic that elastic wave velocity disperses in fully saturated porous media on frequency. Velocity dispersion is governed by fluid/solid interaction which corresponds to the hydraulic conductivity such as described by Biot and BISQ theory. In order to verify the validity of these theories in granite rock, laboratory tests were performed. The results of experiments show that the elastic wave velocity dispersion for granite rock can be well described by BISQ theory. To test the applicability of this approach in real rock masses, we performed in-situ experiments at the Grimsel test site in Switzerland. Dispersion phenomena were detected in the frequency range from 0.8 kHz to 80 kHz, in the borehole distance range from 1.5m to 70m. Cross-hole tomography measurements, with frequency at 20 kHz and 40 kHz in a distance between boreholes of 1.5 meter, were carried out. To obtain the hydraulic conductivity image, geostatistical technique was tried. A limited number of hydraulic test data were used to find the correlation between the velocity difference and hydraulic conductivity. With this correlation, a hydraulic conductivity image was constructed. The location of the high hydraulic conductivity zone from the result agrees with that estimated using geological information. Additional hydraulic tests were conducted in a borehole located in the middle of the tomography plane. These hydraulic tests show a good agreement between the measured hydraulic conductivity and the hydraulic conductivities predicted from the cross-hole tomography. These result of experimental studies show that the possibility as a practical method to determine the hydraulic conductivity image in granite rock.

Published

2009

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Author

TAKAHASHI, Tamotsu, NAKAGAWA, Hajime, SATOFUKA, Yoshifumi, OKUMURA, Hirofumi, YASUMOTO, Daichi, 80144393, TAKAHASHI, Tamotsu, NAKAGAWA, Hajime, SATOFUKA, Yoshifumi, OKUMURA, Hirofumi, YASUMOTO, Daichi, and 80144393

Abstract

In this study, sediment transportation and erosion process in a mountainous river, where the bed material is composed of a wide range of grain size, are investigated by experiments and numerical simulation. We introduce a new erosion velocity formula for non‐uniform sand bed into the simulation model. The erosion velocity of each grain size can be predicted by the critical friction velocity and the balance between equilibrium sediment concentration and real concentration.We build one‐dimensional and two‐dimensional simulation model and apply to experiments. The model can calculate the bed degradation process on the non‐uniform sand bed.

Published

1998