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K. van der Lek
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Stormwater management inside Vietnam's coastal urban developments
Assessment of the urban drainage system design on Hà Nam island in Quang Ninh province, Vietnam
Many cities in Vietnam are located at the coast and are exposed to heavy weather events that yearly causes casualties and economic losses. At the same time the country is developing rapidly and thus more space is allocated to accommodate urban growth. Studies have shown that there are cases in Vietnam were residential expansions have led to an increase in risk of pluvial flooding. This type of flooding is caused by insufficient capacity of the urban drainage system as a result of heavy rainfall.
Keeping in mind the exposure of flooding in Vietnam and the potential of SUDS to provide flood risk reduction, it is desirable to set general design guidelines with respect to urban drainage. On top of that, 1D/2D hydrodynamic models have proven to be useful when mapping flood risk at different scales. Therefore, this study aims to show how 1D/2D hydrodynamic models can be put into practice when designing drainage infrastructure and implementing flood adaptation measures. For this research, hydrodynamic modelling tool Delft 3D-FM (D-HYDRO) was implemented in the drainage design of Hà Nam island in Quang Ninh province.
This study provides predictions of pluvial flooding for the future development scenario of Hà Nam island. Based on the 2023 masterplan, all projected land use and terrain changes have been incorporated in the 1D/2D hydrodynamic model. Hà Nam island currently discharges it’s stormwater by means of sluice gates that can only be opened during low tide. Based on sea level rise predictions, it is estimated that the probability that Hà Nam receives rainfall during high tide will increase the coming decades. Therefore the urban drainage design considers extreme rainfall events during which the area can only be drained by means of pumping stations. Based on the modelling study, it is concluded that the existing residents of Hà Nam will face an increased risk of pluvial flooding in the future development scenario. This study proposes the implementation of two types of SUDS to increase local stormwater storage, namely vegetated swales and park overflow zones. It was found that these do result in flood risk reduction, but still leave current residents of Hà Nam vulnerable to flooding during extreme rain events. This study recommends making modifications to the 2023 masterplan, emphasizing the safety and wellbeing of Hà Nam residents. ...
Keeping in mind the exposure of flooding in Vietnam and the potential of SUDS to provide flood risk reduction, it is desirable to set general design guidelines with respect to urban drainage. On top of that, 1D/2D hydrodynamic models have proven to be useful when mapping flood risk at different scales. Therefore, this study aims to show how 1D/2D hydrodynamic models can be put into practice when designing drainage infrastructure and implementing flood adaptation measures. For this research, hydrodynamic modelling tool Delft 3D-FM (D-HYDRO) was implemented in the drainage design of Hà Nam island in Quang Ninh province.
This study provides predictions of pluvial flooding for the future development scenario of Hà Nam island. Based on the 2023 masterplan, all projected land use and terrain changes have been incorporated in the 1D/2D hydrodynamic model. Hà Nam island currently discharges it’s stormwater by means of sluice gates that can only be opened during low tide. Based on sea level rise predictions, it is estimated that the probability that Hà Nam receives rainfall during high tide will increase the coming decades. Therefore the urban drainage design considers extreme rainfall events during which the area can only be drained by means of pumping stations. Based on the modelling study, it is concluded that the existing residents of Hà Nam will face an increased risk of pluvial flooding in the future development scenario. This study proposes the implementation of two types of SUDS to increase local stormwater storage, namely vegetated swales and park overflow zones. It was found that these do result in flood risk reduction, but still leave current residents of Hà Nam vulnerable to flooding during extreme rain events. This study recommends making modifications to the 2023 masterplan, emphasizing the safety and wellbeing of Hà Nam residents. ...
Many cities in Vietnam are located at the coast and are exposed to heavy weather events that yearly causes casualties and economic losses. At the same time the country is developing rapidly and thus more space is allocated to accommodate urban growth. Studies have shown that there are cases in Vietnam were residential expansions have led to an increase in risk of pluvial flooding. This type of flooding is caused by insufficient capacity of the urban drainage system as a result of heavy rainfall.
Keeping in mind the exposure of flooding in Vietnam and the potential of SUDS to provide flood risk reduction, it is desirable to set general design guidelines with respect to urban drainage. On top of that, 1D/2D hydrodynamic models have proven to be useful when mapping flood risk at different scales. Therefore, this study aims to show how 1D/2D hydrodynamic models can be put into practice when designing drainage infrastructure and implementing flood adaptation measures. For this research, hydrodynamic modelling tool Delft 3D-FM (D-HYDRO) was implemented in the drainage design of Hà Nam island in Quang Ninh province.
This study provides predictions of pluvial flooding for the future development scenario of Hà Nam island. Based on the 2023 masterplan, all projected land use and terrain changes have been incorporated in the 1D/2D hydrodynamic model. Hà Nam island currently discharges it’s stormwater by means of sluice gates that can only be opened during low tide. Based on sea level rise predictions, it is estimated that the probability that Hà Nam receives rainfall during high tide will increase the coming decades. Therefore the urban drainage design considers extreme rainfall events during which the area can only be drained by means of pumping stations. Based on the modelling study, it is concluded that the existing residents of Hà Nam will face an increased risk of pluvial flooding in the future development scenario. This study proposes the implementation of two types of SUDS to increase local stormwater storage, namely vegetated swales and park overflow zones. It was found that these do result in flood risk reduction, but still leave current residents of Hà Nam vulnerable to flooding during extreme rain events. This study recommends making modifications to the 2023 masterplan, emphasizing the safety and wellbeing of Hà Nam residents.
Keeping in mind the exposure of flooding in Vietnam and the potential of SUDS to provide flood risk reduction, it is desirable to set general design guidelines with respect to urban drainage. On top of that, 1D/2D hydrodynamic models have proven to be useful when mapping flood risk at different scales. Therefore, this study aims to show how 1D/2D hydrodynamic models can be put into practice when designing drainage infrastructure and implementing flood adaptation measures. For this research, hydrodynamic modelling tool Delft 3D-FM (D-HYDRO) was implemented in the drainage design of Hà Nam island in Quang Ninh province.
This study provides predictions of pluvial flooding for the future development scenario of Hà Nam island. Based on the 2023 masterplan, all projected land use and terrain changes have been incorporated in the 1D/2D hydrodynamic model. Hà Nam island currently discharges it’s stormwater by means of sluice gates that can only be opened during low tide. Based on sea level rise predictions, it is estimated that the probability that Hà Nam receives rainfall during high tide will increase the coming decades. Therefore the urban drainage design considers extreme rainfall events during which the area can only be drained by means of pumping stations. Based on the modelling study, it is concluded that the existing residents of Hà Nam will face an increased risk of pluvial flooding in the future development scenario. This study proposes the implementation of two types of SUDS to increase local stormwater storage, namely vegetated swales and park overflow zones. It was found that these do result in flood risk reduction, but still leave current residents of Hà Nam vulnerable to flooding during extreme rain events. This study recommends making modifications to the 2023 masterplan, emphasizing the safety and wellbeing of Hà Nam residents.
Student report
(2023)
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K. van der Lek, P.W. Geenen, M.N. van Alten, P.I.J. Nelemans, T.A. Bogaard, C. Mai Van
The study of water is without question an important one. We can learn a lot by studying the theory but in the end, it is essential to actually go out into the field and see the hydrological processes in practice for ourselves. The educational value of fieldwork lies not only in seeing theory become reality but also in experiencing the difficulties and limitations of gathering data first-hand.
The water resources department of the Hanoi University of Natural Resources and Environment (HUNRE) wanted to expand its curriculum with a fieldwork excursion that will be part of three courses related to surface water, groundwater, and water quality. During our ten weeks in Vietnam, we assisted the teaching staff of the Water Management faculty in the development of these courses. We selected multiple experiments and found suitable locations for their execution, about a three-hour drive from the university. Several times we visited the fieldwork site together with students and teachers to explore the catchment, perform experiments, and gather data. For every experiment, a comprehensive manual was written with accompanying assignments and sheets tailor-made for the fieldwork excursion. All manuals are combined into a practical document that can be brought into the field.
The experiments require a wide variety of specific pieces of equipment. Most but not all of these were present at the university. With financial support from the Orange Knowledge Project (OKP), we were able to repair existing equipment and acquire new equipment that was lacking in order to facilitate the experiments that were deemed essential. We also re-organized part of the water lab where all equipment is stored to improve the equipment’s maintenance and organization.
With the completion of this project, we believe to have made a contribution to the improvement of the quality of education at HUNRE. We hope that a lot of students can benefit from our efforts as they go on the fieldwork excursion in the coming years. ...
The water resources department of the Hanoi University of Natural Resources and Environment (HUNRE) wanted to expand its curriculum with a fieldwork excursion that will be part of three courses related to surface water, groundwater, and water quality. During our ten weeks in Vietnam, we assisted the teaching staff of the Water Management faculty in the development of these courses. We selected multiple experiments and found suitable locations for their execution, about a three-hour drive from the university. Several times we visited the fieldwork site together with students and teachers to explore the catchment, perform experiments, and gather data. For every experiment, a comprehensive manual was written with accompanying assignments and sheets tailor-made for the fieldwork excursion. All manuals are combined into a practical document that can be brought into the field.
The experiments require a wide variety of specific pieces of equipment. Most but not all of these were present at the university. With financial support from the Orange Knowledge Project (OKP), we were able to repair existing equipment and acquire new equipment that was lacking in order to facilitate the experiments that were deemed essential. We also re-organized part of the water lab where all equipment is stored to improve the equipment’s maintenance and organization.
With the completion of this project, we believe to have made a contribution to the improvement of the quality of education at HUNRE. We hope that a lot of students can benefit from our efforts as they go on the fieldwork excursion in the coming years. ...
The study of water is without question an important one. We can learn a lot by studying the theory but in the end, it is essential to actually go out into the field and see the hydrological processes in practice for ourselves. The educational value of fieldwork lies not only in seeing theory become reality but also in experiencing the difficulties and limitations of gathering data first-hand.
The water resources department of the Hanoi University of Natural Resources and Environment (HUNRE) wanted to expand its curriculum with a fieldwork excursion that will be part of three courses related to surface water, groundwater, and water quality. During our ten weeks in Vietnam, we assisted the teaching staff of the Water Management faculty in the development of these courses. We selected multiple experiments and found suitable locations for their execution, about a three-hour drive from the university. Several times we visited the fieldwork site together with students and teachers to explore the catchment, perform experiments, and gather data. For every experiment, a comprehensive manual was written with accompanying assignments and sheets tailor-made for the fieldwork excursion. All manuals are combined into a practical document that can be brought into the field.
The experiments require a wide variety of specific pieces of equipment. Most but not all of these were present at the university. With financial support from the Orange Knowledge Project (OKP), we were able to repair existing equipment and acquire new equipment that was lacking in order to facilitate the experiments that were deemed essential. We also re-organized part of the water lab where all equipment is stored to improve the equipment’s maintenance and organization.
With the completion of this project, we believe to have made a contribution to the improvement of the quality of education at HUNRE. We hope that a lot of students can benefit from our efforts as they go on the fieldwork excursion in the coming years.
The water resources department of the Hanoi University of Natural Resources and Environment (HUNRE) wanted to expand its curriculum with a fieldwork excursion that will be part of three courses related to surface water, groundwater, and water quality. During our ten weeks in Vietnam, we assisted the teaching staff of the Water Management faculty in the development of these courses. We selected multiple experiments and found suitable locations for their execution, about a three-hour drive from the university. Several times we visited the fieldwork site together with students and teachers to explore the catchment, perform experiments, and gather data. For every experiment, a comprehensive manual was written with accompanying assignments and sheets tailor-made for the fieldwork excursion. All manuals are combined into a practical document that can be brought into the field.
The experiments require a wide variety of specific pieces of equipment. Most but not all of these were present at the university. With financial support from the Orange Knowledge Project (OKP), we were able to repair existing equipment and acquire new equipment that was lacking in order to facilitate the experiments that were deemed essential. We also re-organized part of the water lab where all equipment is stored to improve the equipment’s maintenance and organization.
With the completion of this project, we believe to have made a contribution to the improvement of the quality of education at HUNRE. We hope that a lot of students can benefit from our efforts as they go on the fieldwork excursion in the coming years.