Mark Manning of water management specialists SDS discusses upcoming legislation on surface water management, and how SuDS will increasingly be the solution
Legislation scheduled for introduction in England next year (presently subject to a period of further consultation and full regulatory impact assessment), will mandate the installation of sustainable drainage systems (SuDS) for all new developments – with a few exceptions.
In its Review for the Implementation of Schedule 3 to The Flood and Water Management Act 2010, published earlier this year, Defra prioritises the “resource value” of water, and states that it should be managed in an integrated way in order to mitigate the dual climate risks of drought and flooding.
It is perhaps a little unusual that Defra should now recognise SuDS as a solution to water scarcity, rather than its more typical and literal definition as a means to attenuate surface water and therefore reduce the risk of flooding. Indeed, in the non-statutory technical standards (NSTS), which were produced by Defra for England in 2015 and reviewed for Defra by HR Wallingford in 2021 and which will form the basis for implementation under the requirements of Schedule 3, Defra cites rainwater harvesting as the first priority in the hierarchical process of determining ‘final’ runoff destinations. This is in preference to infiltration into the ground, or discharge, in priority order, of any remaining runoff to a surface water or above ground surface water drainage system, to a piped surface water drainage system, or, as a last resort if none of the above are possible, to a combined sewer.
Rainwater harvesting rises in importance
In its clarification of the guidelines, Defra requires that consideration is given to rainwater harvesting that has been specifically designed for water supply and, potentially, surface water management purposes. This required where, firstly, there is a suitable demand for non-potable water and available roof areas that, together, will deliver efficient water savings (for example in industrial, commercial, horticultural, educational, public sector and multiple occupancy buildings) secondly, where there is a need for landscape irrigation; and thirdly, the development is in an area of “high water stress.”
Above-ground water storage tanks, or water “butts” as they are sometimes referred to in a domestic environment, are listed as a tool to tackle stressed potable water supplies. However, they must be designed with a storage volume that is ‘always available’ for stormwater management purposes, so that the discharge of their contents can be controlled to a suitable rate. Without this facility it is likely that a traditional water butt will soon become full during extreme rainfall events and simply overflow.
With the relatively recent introduction of intelligent technology that monitors and acts upon local weather forecasting data, the ‘smart’ tank’s contents can be automatically released, sufficient to accommodate the anticipated rainfall volume, while still maximising the storage of rainwater for non-potable reuse purposes. This enables it to provide the dual role of both rainwater conservation and stormwater attenuation.
Practical examples
Following successful pilot programmes, in which the collective flood and drought mitigation benefits of individual, plot-based, smart rainwater harvesting tanks have been measured and analysed, multiple development-wide rainwater management schemes are now being installed.
The introduction of these schemes is being driven largely by water companies and local authorities, motivated either by the tanks’ removal of surface water from the drainage network and the consequent avoidance of CSO spills and the associated criticism in the media, or by their ability to protect natural water courses from over-abstraction in areas where there is already limited supply.
Environmental credentials
Defra requires that not only must the management of surface water be considered for its impacts on both flooding and drought but emphasises the contribution it can make to increasing biodiversity and protecting nature. In meeting a new development’s requirement to deliver a nett gain in biodiversity and satisfy its obligations under the terms of the Environment Act, the inclusion of natural SuDS as water features; e.g. ponds and wetlands, can enable the species already prevalent there to flourish whilst also attracting new flora and fauna to the area.
With the addition of below-ground, engineered SuDS devices such as surface water storage tanks, smart technology can ensure the tanks provide a sustainable supply for a constant minimum water level in these above-ground features. Furthermore, smart technology can help to reduce the physical size of these features, thereby limiting the amount of land that might otherwise have been required to take the place of profitable construction.
Growing role of the architect
Schedule 3 provides a framework for the approval and adoption of drainage systems, an approving body (SuDS Approval Body or SAB), and national standards for the design, construction, operation and maintenance of SuDS. It would be reasonable to anticipate that the role of SAB will be handed to unitary authorities or county councils (formerly “Lead Local Flood Authorities”), and that architects, alongside engineering and environmental consultancies and landscaping practices, will be among those most likely to fill a potential gap in knowledge amongst the council community.
The contribution that technology experts and evidence from successful pilot schemes, can provide could prove indispensable in elevating the importance of integrated water management in the design of new developments.
Mark Manning is national specification manager for SDS