Add to ORKGThis study initially examines the different water demand, catchment area and storage capacity. The water input is simulated using several rainfall record intervals, and the Critical Period Technique. Sensitivity analysis is conducted on the variables affecting the system that include catchment area, duration of rainfall records and water demand. The relationship between water release, storage capacity and rooftop catchment area is established under different water demand conditions. This information can be useful and essential for the planners and decision-makers in selecting and optimizing a rainwater catchment system design
Rainwater tanks are an important component of Water Sensitive Urban Design (WSUD) as they reduce pot...
This research involved an investigation into the influence of land use type and rainfall intensity o...
Rainwater catchment is an anticipatory response to drought. Catchment design requires a prudent defi...
The analyses of rainfall characteristics form the core of the hydrological design of rainwater catch...
The harvesting of urban stormwater to supply non-potable water demands is emerging as a viable optio...
Certain dimensions of a rainwater catchment and storage system were optimized using climatological a...
Household rainwater tanks form part of an integrated urban water cycle management system, which is a...
Increasing population growth has created problems in water resources. Natural water resources become...
Floods are a prominent issue and the challenge of urban flooding can be turned into an opportunity b...
The objective of this study is to propose water retention features to reduce the peak urban runoff a...
In recent years, rainwater harvesting has become quite popular in Australia. In main cities, rainwat...
The purpose of this study is to evaluate economically optimum size of strage tank and rainwater coll...
Numerical stormwater management modeling helps to understand the urban hydrological catchment behavi...
The increasing demand for water in urban areas of developing countries has been given more importanc...
Water management is an important issue in urban design due to the growing concern of water scarcity....
Rainwater tanks are an important component of Water Sensitive Urban Design (WSUD) as they reduce pot...
This research involved an investigation into the influence of land use type and rainfall intensity o...
Rainwater catchment is an anticipatory response to drought. Catchment design requires a prudent defi...
The analyses of rainfall characteristics form the core of the hydrological design of rainwater catch...
The harvesting of urban stormwater to supply non-potable water demands is emerging as a viable optio...
Certain dimensions of a rainwater catchment and storage system were optimized using climatological a...
Household rainwater tanks form part of an integrated urban water cycle management system, which is a...
Increasing population growth has created problems in water resources. Natural water resources become...
Floods are a prominent issue and the challenge of urban flooding can be turned into an opportunity b...
The objective of this study is to propose water retention features to reduce the peak urban runoff a...
In recent years, rainwater harvesting has become quite popular in Australia. In main cities, rainwat...
The purpose of this study is to evaluate economically optimum size of strage tank and rainwater coll...
Numerical stormwater management modeling helps to understand the urban hydrological catchment behavi...
The increasing demand for water in urban areas of developing countries has been given more importanc...
Water management is an important issue in urban design due to the growing concern of water scarcity....
Rainwater tanks are an important component of Water Sensitive Urban Design (WSUD) as they reduce pot...
This research involved an investigation into the influence of land use type and rainfall intensity o...
Rainwater catchment is an anticipatory response to drought. Catchment design requires a prudent defi...