Estimate greenfield flow rates and storage volumes for drainage design
The Surface water storage volume estimation tool provides both greenfield flow rate estimates for setting limiting discharge rates as well as surface water storage attenuation volume estimates for use in initial drainage design. The tool is designed to be used with a minimum of information by users who need not be drainage engineers.
The Surface water storage volume estimation tool uses a storage assessment method developed by HR Wallingford based on correlations between storage requirements and hydrological and hydraulic characteristics of sites. This methodology is based on the premise that the flow rate discharge constraints for storm water runoff from the site are defined by the greenfield runoff rates for the 1 year, 30 year and 100 year return periods. The tool is flexible in allowing the use of three different methods for estimating greenfield runoff rates along with various options for assessment of storage volumes using variations in the design criteria (e.g. minimum design flow rates from the site, requirements for control of runoff volumes for the 1:100yr, 6 hour event).
The drainage design criteria applied are in line with best practice in the SuDS Manual and the SuDS Standards in England, Wales and Northern Ireland. If the drainage site is located in Scotland, please use the Access 200 year storage tool (relevant for Scotland).
The methodology takes into consideration the partial use of infiltration or rainwater harvesting along with whether or not permeable areas contribute runoff. It also makes allowances for different hydrological regions, climate change and other factors.
The Surface water storage volume estimation gives a quick estimation of storage volume requirements for a site, which can be a major cost component. This will assist with ensuring that initial design of site layouts include sufficient space in which to locate the storage volumes. It will also assist with Planning applications as all the assumptions on flow rates and other design inputs are listed in the one page reports.
The Surface water storage volume estimation tool is an online tool, which is free to use for all registered users.
To start using the tool, the user simply clicks the location of their site on the map which then pre-populates a number of data cells, such as the latitude and longitude of the site, soil type and hydrological characteristics. The user needs to provide data such as site size and site development characteristics such as impermeable area. All these values can then be edited by the user. The map values and users edited values are displayed side by side to enable comparison. The volume estimates of the default parameters and the edited ones are also reported to show the impact of making these changes.
Users can then calculate the greenfield runoff rate using one of three approved methods: IH124 and the FEH statistical tool. Information on flow rates can also be entered based on outputs from the ReFH2 web-based tool if this has been used to estimate greenfield runoff rates instead.
The Surface water storage volume estimation tool provides estimates of the required volumes of storage needed on a site along with recommendations on the limits of discharge that should be applied. Limiting discharge rates are modified based on a range of decisions including minimum flow rates, and where use is made of infiltration and rainwater harvesting.
The results report on both the default volume estimates based on the GIS data obtained by the map-click, as well storage volumes based on user edited values. All data and other parameters used in the calculation are reported in a one page report for each greenfield method used.
As the storage tool has been developed based on correlation analysis it is important that the results are cross-checked during detailed design to establish more accurate estimates of the storage volumes required.
HR Wallingford provides training in the use of UK SuDS tools, plus planning and design of SuDS to meet current standards and best practice.