Your search keyword '"Nakagawa, Hiroji"' showing total 13 results

1. Turbulent structure in unsteady depth-varying open-channel flows

Author

Nezu, Iehisa, Kadota, Akihiro, and Nakagawa, Hiroji

Subjects

Channels (Hydraulic engineering) -- Research, Turbulence -- Research, Laser Doppler velocimeter -- Usage, Floodplains -- Research, Engineering and manufacturing industries, Science and technology

Abstract

Turbulence measurements over a smooth wall in unsteady depth-varying open-channel flows were conducted by the simultaneous use of a two-component laser Doppler anemometer (LDA) and a water-wave gauge. In the present study, velocity measurements in the viscous sublayer of highly unsteady flow have been first conducted to evaluate the friction velocity independently of the log-law. The von Karman constant [Kappa] was calculated using this friction velocity. It was proven then that the value of [Kappa] was really a constant of 0.41 even in unsteady open-channel flows. Next, statistical structures of mean velocity and turbulence characteristics were investigated across the whole flow from the near-wall region up to the free surface. In particular, turbulence measurements near the depth-varying water-surface zone of flood flow were conducted successfully for the first time with the LDA; such measurements have been impossible with conventional velocity instruments such as hot-film anemometers. Mean velocity profiles and turbulence characteristics were revealed in both the rising and the falling stages of the flood period.

Published

1997

2. Hydrodynamic behavior of partly vegetated open channels

Author

Naot, Dan, Nezu, Iehisa, and Nakagawa, Hiroji

Subjects

Hydrodynamics -- Research, Channels (Hydraulic engineering) -- Research, Engineering and manufacturing industries, Science and technology

Abstract

The hydrodynamic response of turbulent flow in a compound wide rectangular open channel with a vegetated domain at the channel bank, in a channel corner and in a floodplain, to the vegetation density and diameter is discussed. To this end a phenomenological model was imbedded in an algebraic stress model with the vegetation modeled as an internal resistance that exerts drag force, produces energy of turbulence, and interferes with its anisotropy and length scale. Simple suggestions for some modeling problems associated with the presence of wide vegetated domains are used to yield the three-dimensional flow. Vorticity sources relaxation was implemented to smooth periodic behavior, and dissipation correction was introduced as a coordinate-invariant damping. With these, the results represent fully developed flow.

Published

1996

3. Field measurements of secondary currents in straight rivers

Author

Markham, Andrew J., Nezu, Iehisa, Tominaga, Akihiro, and Nakagawa, Hiroji

Subjects

Flumes -- Research, Rivers -- Research, Hydraulics -- Research, Engineering and manufacturing industries, Science and technology

Abstract

The nature of secondary currents in curved rivers was defined. The velocity vector is composed of cross-stream and long-stream flow patterns. Accurate velocity data can be determined through a correct orientation of the meter. Cross-streams flow patterns are sensitive to alignment variations of the meter, which, however, is not the case with long-stream currents. A suggested technique for stream field measurements is to adjust the meter so that the value of the positive and negative streams is equal to zero.

Published

1994

4. Calculation of compound-open-channel flow

Author

Naot, Dan, Nezu, Iehisa, and Nakagawa, Hiroji

Subjects

Hydrodynamics -- Research, Hydraulics -- Research, Channels (Hydraulic engineering) -- Research, Engineering and manufacturing industries, Science and technology

Abstract

A study was conducted on the hydrodynamic behavior of a compound rectangular open channel and flow in such a channel. Three configurations were used in studying the influence of the channel's shape on flow patterns, namely, flow along a 270-degree corner, flow along a threshold of deep flood plain, and flow through shallow flood plain. Open surface dynamics were also analyzed. Results revealed that reasonable solutions for the longitudinal vortex pair were still obtained by the stress model despite the presence of a unique coherence structure in the 270-degree corner at the flood-plain threshold. Hossain and Rodi's proposed extrapolated dissipation length concept was also proven.

Published

1993

5. Field measurements of secondary currents in straight rivers

Author

Nezu, Iehisa, Tominaga, Akihiro, and Nakagawa, Hiroji

Subjects

Streamflow -- Measurement, Stream measurements -- Methods, Turbulence -- Measurement, Engineering and manufacturing industries, Science and technology

Abstract

Basic knowledge of turbulent structures in open-channel flows are now available from accurate experimental data that were obtained using a laser Doppler anemometer in laboratory flumes. Many of these experiments have, however, been conducted at moderate Reynolds numbers. Therefore, it is not yet clear whether such laboratory data of open-channel turbulence can be applied to river turbulence at high Reynolds numbers. In this study, velocity measurements of the Biwako-Sosui River in Kyoto and the Aichi Irrigation Channel in Nagoya have been conducted by making use of three-component electromagnetic flow meters. Multicellular secondary currents were evident in a wide river, whereas large-scale free-surface secondary currents associated with velocity-dip phenomena were generated in a narrow river. The features of such secondary currents in rivers could be explained by theory of turbulence, and also they coincided well with the laboratory experiments and numerical calculations.

Published

1993

6. Hydrodynamic behavior of compound rectangular open channels

Author

Naot, Dan, Nezu, Iehisa, and Nakagawa, Hiroji

Subjects

Hydrodynamics -- Analysis, Turbulence -- Analysis, Floodplains -- Research, Channels (Hydraulic engineering) -- Research, Reynolds number -- Analysis, Engineering and manufacturing industries, Science and technology

Abstract

The hydrodynamic response of the turbulent flow in a compound rectangular open channel to the flood-plain depth, roughness, and symmetry, and to the channel Reynolds number is demonstrated. The flow in the four basic asymmetric channels measured by Tominaga and Nezu in 1991 is numerically simulated, as well as other channel configurations, including symmetric channels. Turbulence is modeled by the energy-dissipation model, combined with the algebraic stress model suggested by Naot and Rodi in 1982. The three-dimensional flow is solved using the parabolic pressure correction algorithm of Patankar and Spalding. The examples suggest estimations for the friction factors, and the mass exchange rate between the flood plain interior and its threshold.

Published

1993

7. Unstable patterns in partly vegetated channels

Author

Naot, Dan, Nezu, Iehisa, and Nakagawa, Hiroji

Subjects

Channels (Hydraulic engineering) -- Research, Engineering and manufacturing industries, Science and technology

Abstract

Unstable patterns are identified in the results of numerical simulations of two cases of partly vegetated open channels, at the free unobstructed flow side of the shear layer that separates the unobstructed channel from the vegetated zones. A time-dependent pattern was identified in a rectangular open channel compound with a vegetated bank, and cellular structure was found in a wide rectangular open channel spanning over a vegetated thin layer at the channel bed. Distinction between three modes of algebraic stress models: a prompt algebraic stress model, a delayed algebraic stress model, and an algebraic stress model with longitudinal vorticity sources relaxation, and the modeling of time-dependent turbulence is made, and discussed in the present context.

Published

1996

8. Turbulence in Open‐Channel Flows

Author

Nezu, Iehisa, primary, Nakagawa, Hiroji, additional, and Jirka, Gerhard H., additional

Published

1994

9. Calculation of CompoundOpenChannel Flow

Author

Naot, Dan, Nezu, Iehisa, Nakagawa, Hiroji, Naot, Dan, Nezu, Iehisa, and Nakagawa, Hiroji

Abstract

Steps leading to the numerical study of the hydrodynamic behavior of a compound open channel are described. The method uses an algebraic stress model imbedded, together with an energydissipation model, in a parabolic pressurecorrection algorithm. The steps include the distinction between a compound channel and a channel with small longitudinal step in bed level, the applicability of the algebraic stress model to flow along a 270°corner formed between the floodplain bed and the mainchannel bank, justification of the use of the flux boundary condition for the dissipation at the free surface of the compound channel, and other topics.

Published

1993

10. Cellular Secondary Currents in Straight Conduit

Author

Nezu, Iehisa, Nakagawa, Hiroji, Nezu, Iehisa, and Nakagawa, Hiroji

Abstract

An investigation of cellular secondary currents, i.e., threedimensional flow patterns, is very important in hydraulic engineering because these currents might cause threedimensional sediment distributions and bed configurations such as sand ribbons in straight rivers. It is, however, fairly difficult to measure secondary currents of water flows, even by making use of hotfilm anemometers, because the velocity of secondary currents is within 5% of the mainstream velocity. Thus, on the basis of the hypothesis that the existence of free surface may not be an essential cause of secondary currents, the present study has investigated experimentally the turbulent structure of their currents in air conduit. Considering an essential interaction between secondary currents and bedform, longitudinal ridge elements were attached onto both lower and upper bottoms of the conduit, which simulated the longitudinal ridges and trough of river bedform, i.e., sand ribbons. All three components of the velocity were measured accurately by hotwire anemometers. The structure of secondary currents was examined through the equations of mean flow vorticity and mean flow energy.

Published

1984

11. Spectral Analysis of Sand Bed Instability

Author

Nakagawa, Hiroji, Tsujimoto, Tetsuro, Nakagawa, Hiroji, and Tsujimoto, Tetsuro

Abstract

In order to clarify the role of sand bed instability mechanism and the significance of linear instability analysis, which has been one of the most interesting subjects of alluvial hydraulics, sand bed instability analysis of a Fourier transformed version was devised by coupling with the stochastic model for bed load motion, and the theoretical prediction for sand wave development was compared with some experiments. In the laboratory, sand wave development from an initially flattened bed was experimentally investigated by using the time variation of wave number spectrum of sand bed. These investigations clarified that an instability mechanism brought about a wave selection process from initially formed bed disturbance due to random motion of bed load particles, and particularly that waves, to satisfy the Airy relation, became dominant through the mechanism of bed instability. The latter fact is a characteristic of sand wave development in open channel, and it has been also certified by experiments without a water surface.

Published

1984

12. Turbulence in OpenChannel Flows

Author

Nezu, Iehisa, Nakagawa, Hiroji, Jirka, Gerhard H., Nezu, Iehisa, Nakagawa, Hiroji, and Jirka, Gerhard H.

Published

1994

13. Closure to “Field Measurements of Secondary Currents in Straight Rivers” by Iehisa Nezu, Akihiro Tominaga, and Hiroji Nakagawa (May, 1993, Vol. 119, No. 5)

Author

Nezu, Iehisa, Tominaga, Akihiro, Nakagawa, Hiroji, Nezu, Iehisa, Tominaga, Akihiro, and Nakagawa, Hiroji

Published

1994