Your search keyword '"Kuo, Albert"' showing total 9 results

1. Three-dimensional hydrodynamic and salinity transport modelling of Danshuei River estuarine system and adjacent coastal sea, Taiwan.

Author

Wen-Cheng Liu, Ming-Hsi Hsu, and Kuo, Albert Y.

Subjects

HYDROLOGIC models, COMPUTATIONAL hydrodynamics software, SALTWATER encroachment, THREE-dimensional display systems, TIDAL currents, CALIBRATION, SOFTWARE validation, INTERPRETIVE programs of estuaries

Abstract

This article discusses the use of a three-dimensional salinity and hydrologic model of the Danshuei River estuarine system and adjacent coastal sea in Taiwan. The model uses data from tidal elevations, salinity, bottom roughness and turbulence. It was verified and calibrated using salinity distributions in a time series. According to the authors, the extensive saltwater intrusion induces a strong residual circulation in the estuary and the downriver velocity in the upper layer increases. This could be the result of deep bathymetric features near the Kuan Du station.

Published

2007

2. Simulation of water quality and plankton dynamics in the Danshuei River estuary, Taiwan.

Author

Wang, Chi-Fang, Hsu, Ming-Hsi, Liu, Wen-Cheng, Hwang, Jiang-Shiou, Wu, Jiunn-Tzong, and Kuo, Albert Y.

Subjects

ESTUARINE ecology, BRACKISH water ecology, HYDRODYNAMICS, PLANKTON populations, ESTUARIES, ENVIRONMENTAL sciences

Abstract

An ecosystem model was developed to simulate the water quality and plankton dynamics in the Danshuei River estuary, Taiwan. The model simulates the hydrodynamics with a laterally integrated 2-dimensional intratidal numerical model, which supplies the physical transport processes for simulation of water quality and plankton state variables. The application of the model to the Danshuei River estuary indicates that the point source loadings are mainly responsible for the degraded water quality and very high nutrient concentrations in the estuary. The impacts of wastewater discharges are tightly controlled by the transport processes. Frequent occurrence of high river flow and flood events rapidly cleanses the estuary by flushing out both pollutants and plankton populations. The plankton is allowed to grow to significant populations if low river flow lasts for a period much longer than the biological time scale. [ABSTRACT FROM AUTHOR]

Published

2007

3. INVESTIGATION OF TURBIDITY MAXIMUM IN A MESOTIDAL ESTUARY, TAIWAN.

Author

Ming-Hsi Hsu, Chi-Ray Wu, Wen-Cheng Liu, and Kuo, Albert Y.

Subjects

TURBIDITY, SALINITY, SEDIMENTATION & deposition, SUSPENDED sediments, TEMPERATURE, STREAMFLOW, HYDRODYNAMICS, SEDIMENT transport, RIVERS

Abstract

To comprehend the distributions of salinity, temperature, and suspended sediment in the Danshuei River estuary in Taiwan, monthly field surveys were conducted in 2003. These included several high and low slackwater surveys and intensive surveys. The results show that the Danshuei River estuary is predominately a partially mixed estuary. The highest concentration of suspended sediment is typically observed at the Chung-Hsin Bridge, the most upstream sampling station. The suspended sediment concentration exhibits a general decreasing trend in the downstream direction. It may be concluded that the sediments mostly come from the upstream reach. A locally high concentration of suspended sediment is found at the Kuan-Du station because of the local deep channel bathymetry and two-layered estuarine circulation. A vertical two-dimensional hydrodynamic and sediment transport model is applied to investigate the tidally averaged salinity distribution, residual circulation, and suspended sediment concentration. The modeling results reveal that, under the Q75 flow condition (i.e., low flow), a turbidity maximum occurs at the Kuan-Du station due to the strong estuarine circulation. The model simulation with a much higher river flow condition results in a weaker residual circulation and weaker turbidity maximum. [ABSTRACT FROM AUTHOR]

Published

2006

4. Modelling of hydrodynamics and cohesive sediment transport in Tanshui River estuarine system, Taiwan.

Author

Liu, Wen-Cheng, Hsu, Ming-Hsi, and Kuo, Albert Y.

Subjects

HYDRODYNAMICS, ESTUARIES, SEDIMENT transport

Abstract

A laterally averaged two-dimensional numerical model is used to simulate hydrodynamics and cohesive sediment transport in the Tanshui River estuarine system. The model handles tributaries as well as the main stem of the estuarine system. Observed time series of salinity data and tidally averaged salinity distributions have been compared with model results to calibrate the turbulent diffusion coefficients. The overall model verification is achieved with comparisons of residual currents and salinity distribution. The model reproduces the prototype water surface elevation, currents and salinity distributions. Comparisons of the suspended cohesive sediment concentrations calculated by the numerical model and the field data at various stations show good agreement.The validated model is applied to investigate the tidally averaged salinity distributions, residual circulation and suspended sediment concentration under low flow conditions in the Tanshui River estuarine system. The model results show that the limit of salt intrusion in the mainstem estuary is located at Hsin-Hai bridge in Tahan Stream, 26 km from the River mouth under Q75 flow. The null point is located at the head of salt intrusion, using 1 ppt isohaline as an indicator. The tidally averaged sediment concentration distribution exhibits a local maximum around the null point. [Copyright &y& Elsevier]

Published

2002

5. The Influence of River Discharge on Salinity Intrusion in the Tanshui Estuary, Taiwan.

Author

Wen-Cheng Liu, Ming-Hsi Hsu, Kuo, Albert Y., and Jan-Tai Kuo

Subjects

ESTUARIES, SALINITY

Abstract

Examines the effect of freshwater discharges on the salinity distribution in the Tanshui River estuary system in Taiwan. Turbulent diffusion coefficients; Freshwater inflows to the river; Hydrodynamic properties of the river.

Published

2001

6. Effect of channel connection on flow and salinity distribution of Danshuei River estuary

Author

Liu, Wen-Cheng, Hsu, Ming-Hsi, Kuo, Albert Y., and Hung, Hsiao-Ying

Subjects

*ESTUARIES, *RIVERS, *SALINITY

Abstract

Abstract: Numerical models are often used to evaluate the potential impact of human alteration of natural water bodies and to help the design the alternation to mitigate its impacts. A vertical (laterally integrated) two-dimensional hydrodynamic model was expanded to include the capability of simulating river loops as well as tributaries. The model was performed and applied to the Danshuei River estuarine system in northern Taiwan which consists of three major tributaries: the Tahan Stream, Hsintien Stream, Keelung River, and one river loop under the Chung-Hsin Bridge. The expanded model was reverified with observational field data of 2000. The verified model was then used to hindcast the river hydrodynamic conditions with a loop connection between the Danshuei River and Keelung River, which existed prior to 1965. It was found that the configuration of river loop connection has significant impacts on the residual transport along the connecting channel and the salinities in the connected river branches. The results show that the model may provide an ideal tool for management decision. [Copyright &y& Elsevier]

Published

2007

7. Residence time of the Danshuei River estuary, Taiwan

Author

Wang, Chi-Fang, Hsu, Ming-Hsi, and Kuo, Albert Y.

Subjects

*ESTUARIES, *EUTROPHICATION, *NUMERICAL analysis

Abstract

The residence time of an estuary is defined in this study as the average time the initially existing water parcels reside in the system before they are flushed out. The residence time of the Danshuei River is calculated through a series of numerical experiments using a laterally integrated two-dimensional hydrodynamic eutrophication model (HEM-2D). The results show that the residence time is on the order of 1–2 days under the mean river flow to zero river flow condition, which is very short compared with most time scales of biogeochemical processes. A procedure is developed to quantify individual contribution to flushing by each of the three major physical transport mechanisms: tide, river discharge, and the density induced circulation. The results indicated that, in general conditions, tidal flushing exerts the greatest influence to the flushing of the Danshuei River estuary, while the density induced circulation hardly contributes any. Tidal transport contributes more than 50% of the flushing when river discharge is below its long-term mean. The suitability of applying the tidal prism method, the modified tidal prism methods, and the fraction of freshwater method in this estuary is also investigated. The relatively short residence time is likely to be one of the limiting factors that result in low phytoplankton biomass in spite of extremely high nutrient concentrations, and causes a significant fraction of pollutants to exert their effects in the coastal waters outside the estuary. [Copyright &y& Elsevier]

Published

2004

8. Modeling the influence of river discharge on salt intrusion and residual circulation in Danshuei River estuary, Taiwan

Author

Liu, Wen-Cheng, Chen, Wei-Bo, Cheng, Ralph T., Hsu, Ming-Hsi, and Kuo, Albert Y.

Subjects

*HYDRODYNAMICS, *SALINITY, *BAROCLINICITY

Abstract

Abstract: A 3-D, time-dependent, baroclinic, hydrodynamic and salinity model was implemented and applied to the Danshuei River estuarine system and the adjacent coastal sea in Taiwan. The model forcing functions consist of tidal elevations along the open boundaries and freshwater inflows from the main stream and major tributaries in the Danshuei River estuarine system. The bottom friction coefficient was adjusted to achieve model calibration and verification in model simulations of barotropic and baroclinic flows. The turbulent diffusivities were ascertained through comparison of simulated salinity time series with observations. The model simulation results are in qualitative agreement with the available field data. The validated model was then used to investigate the influence of freshwater discharge on residual current and salinity intrusion under different freshwater inflow condition in the Danshuei River estuarine system. The model results reveal that the characteristic two-layered estuarine circulation prevails most of the time at Kuan-Du station near the river mouth. Comparing the estuarine circulation under low- and mean flow conditions, the circulation strengthens during low-flow period and its strength decreases at moderate river discharge. The river discharge is a dominating factor affecting the salinity intrusion in the estuarine system. A correlation between the distance of salt intrusion and freshwater discharge has been established allowing prediction of salt intrusion for different inflow conditions. [Copyright &y& Elsevier]

Published

2007

9. Water quality modeling to determine minimum instream flow for fish survival in tidal rivers.

Author

Liu WC, Liu SY, Hsu MH, and Kuo AY

Subjects

Animals, Environmental Monitoring methods, Fresh Water chemistry, Oxygen analysis, Regression Analysis, Seasons, Seawater chemistry, Sewage adverse effects, Survival, Taiwan, Weather, Fishes growth & development, Models, Theoretical, Rivers chemistry, Water Movements, Water Pollutants, Chemical analysis, Water Supply standards

Abstract

The Hsintien Stream is one of the major branches of the Danshuei River system, which runs through the metropolitan capital city of Taipei, Taiwan and receives a large amount of wastewater. The dissolved oxygen concentration is generally low in the tidal portion of the Hsintien Stream. Hypoxia/anoxia occurs often, particularly during the low-flow period when the Feitsui Reservoir, Chingtan Dam and Chihtan Dam impound the freshwater for municipal water supply. Fish kills happen from time to time. This paper describes the application of a numerical hydrodynamic and water quality model to the Danshuei River system, with special attention to the tidal portion of the Hsintien Stream. The model is recalibrated with the prototype conditions of the year 2000. The hydrodynamic portion of the model is recalibrated with measured surface elevation and velocity at various stations in the river system. The water quality portion of the model is recalibrated with respect to the field data provided by Taiwan EPA. The input data of point and nonpoint sources are also estimated. The model simulates the concentrations of various forms of nutrients, CBOD and dissolved oxygen. A series of sensitivity runs was conducted to investigate the effects of point source loadings and river flow on the DO level in the river. It is demonstrated that the augmentation of river flow has as much effect on raising DO level as the reduction of point source loadings. The completion of the Taipei sewer project is expected to reduce the point source loadings by at least 75%. Under these reduced loadings, if the daily instream flow is maintained above the monthly Q75 flow throughout the year, the minimum DO concentration in the river would not fall below 1mg/L, which is the suffocation level for most fish species in the Hsintien Stream. (Q75 is the flow which is equaled or exceeded 75% of the days in the month.) The Feitsui Reservoir, Chingtan Dam and Chihtan Dam may impound water during the high flow periods and release freshwater to maintain the flow at the Q75 value in the Hsintien Stream during the drought periods.

Published

2005