The development of western China is confronted with serious challenges on water resources due to the ecosystem's vulnerability and the increasing demand on water. Water cycle modelling-to a changing environment is the base of sustainable water management. The main aim of this paper is to develop a distributed hydrological modelling coupled physical process grid with the Time Variant Gain Model (TVGM) that was developed by the first author during the 1990s at the University College of Galway, Ireland, as a nonlinear system approach applied to river flow forecasting. It can be shown that the integrated hydrological system approach (TVGM), with distributed physical process or conceptual units, could obtain a flexible result for hydrological mo...
Affected by intensive human activities, basin hydrologic systems show characteristics of a dualistic...
This paper presents an energy model for determining the overland flow velocity in order to improve t...
A complete simulation for the regional water cycle and the catchment-scale hydrological response to ...
In this paper, a rainfall-runoff modeling system is developed based on a nonlinear Volterra function...
In view of the loess plateau features of basin, modified the Distributed Time-Variant Gain Hydrologi...
High-resolution data on the spatial pattern of water use are a prerequisite for appropriate and sust...
Nowadays, great efforts have been made on distributed hydrological modeling. It is believed that, di...
In the distributed hydrological simulations for complex mountain areas, large amounts of meteorologi...
Simulating the hydrological processes of an inland river basin can help provide the scientific guida...
For the purpose of water resources management in the Yellow River Basin with highly spatial differen...
TOPKAPI is a physically-based, fully distributed hydrological model with a simple and parsimonious p...
This paper presents the terrestrial hydrological features of the Pearl River basin in South China by...
The understanding of hydrological cycle is the core of hydrology and the scientific base of water re...
Because of the extremely continental dry climate, the Heihe River basin is characterized by less pre...
Regional hydrological modeling in ungauged regions has attracted growing attention in water resource...
Affected by intensive human activities, basin hydrologic systems show characteristics of a dualistic...
This paper presents an energy model for determining the overland flow velocity in order to improve t...
A complete simulation for the regional water cycle and the catchment-scale hydrological response to ...
In this paper, a rainfall-runoff modeling system is developed based on a nonlinear Volterra function...
In view of the loess plateau features of basin, modified the Distributed Time-Variant Gain Hydrologi...
High-resolution data on the spatial pattern of water use are a prerequisite for appropriate and sust...
Nowadays, great efforts have been made on distributed hydrological modeling. It is believed that, di...
In the distributed hydrological simulations for complex mountain areas, large amounts of meteorologi...
Simulating the hydrological processes of an inland river basin can help provide the scientific guida...
For the purpose of water resources management in the Yellow River Basin with highly spatial differen...
TOPKAPI is a physically-based, fully distributed hydrological model with a simple and parsimonious p...
This paper presents the terrestrial hydrological features of the Pearl River basin in South China by...
The understanding of hydrological cycle is the core of hydrology and the scientific base of water re...
Because of the extremely continental dry climate, the Heihe River basin is characterized by less pre...
Regional hydrological modeling in ungauged regions has attracted growing attention in water resource...
Affected by intensive human activities, basin hydrologic systems show characteristics of a dualistic...
This paper presents an energy model for determining the overland flow velocity in order to improve t...
A complete simulation for the regional water cycle and the catchment-scale hydrological response to ...