Hydrologically neutral developments; beyond eco-urbanism

The Netherlands has a unique system with a separate layer of government dedicated solely to water management: the Waterschappen (literally Waterscapes, but the actual translation is Regional Water Authorities). With about half the country now below sea level this won't come as a surprise to most. These water authorities have their own elections, their separate body of civil servants and collect their own taxes and fines all relating to water management and waste water treatment. The taxes are differentiated regionally. In the hilly landscape of the south residents and companies pay for erosion prevention and larger sewers, whilst people living in low-lying polders have to pay for the upkeep of dykes and pumping stations. Only the major rivers (Rhine, Meuse, Scheldt, Issel and Waal) together with the shipping canals and the coastal defences are managed and maintained by a dedicated department of central government: the Department for Water (Rijkswaterstaat) founded in 1789. Incidentally the Waterschappen are much older; the first one was set up as a cooperative body in the 12th century. These early examples only concerned themselves with a single polder or stretch of dyke. The first designated Water Authority was the Hoogheemraadschap van Rijnland of 1255 (the name translates as High Council of Residents of the Rhine Land).

As I've discussed before in the blog posts on watercities, Antwerp and Utrecht (on the floodplain) the first requirement for urban development on a floodplain or between water courses is to create more surface water to prevent flooding in the built-up area. This was mostly done by digging canals and moats. A similar approach has been utilised by the Regional Water Authorities in reviewing development proposals. It was enshrined in water legislation (Keur) as hydrologisch neutraal ontwikkelen (hydrologically neutral development).

Developing new land for housing often means ground work. When developing in a hydrologically neutral manner this also means creating more water. In some cases an attenuation pool can store water before it is lead to a stream running besides it.

The development of housing and business premises or offices often results in an increase in roof and paved surface. Rainwater falling on these surfaces will have to be discharged via a sewer system or surface water. Heavy rain can cause localised flooding. If the excess is carried off too fast it can also lead to draught on higher ground as the water has no time to naturally drain away replenishing ground water. This is why the water authorities demand a water quantity analysis as part of the water test within planning procedure. Clean rainwater should firstly be reused, secondly de retained on site, thirdly be collected and stored, fourthly be discharged onto surface water and only in fifth instance be discharged into a (rainwater) sewer.

The hydrological measures taken in developing a site for housing can be used to great effect. On the left houses on the waterside in a polder in Almere. On the right apartment blocks built along a retention pool on a sloping site in Arnhem.

Local authorities can impose rules regarding water discharge. This is mostly relevant for water flowing over paved surfaces as the rainwater can thus pick up contaminants. To prevent flooding it is vital that water is kept in the location where it fell for as long as possible. An option for realising this is to build water retention facilities where water can drain into the soil. Other possibilities are: lowering ground level to allow for controlled flooding (on roads, in parks, etcetera), using permeable paving, or creating more surface water like a drainage ditch or a pond. Also green roofs can dramatically lower the amount of rain water that needs to be lead away from the roof. The idea is to compensate all added non permeable surface in any given development by building dedicated water provisions. This prescribed system of water compensation measures results in a hydrologically neutral development.

Dutch paving is usually in sand on a bed of rubble. This creates a semi permeable paved surface. The paving slabs can be placed further apart with grit between to aid the infiltration of rain water (left). This is especially important on higher ground. On the right a concrete gutter that leads the water coming off the roof onto the pavement and beyond into an infiltration ditch (again in Arnhem).

Hydrologically neutral development goes beyond sustainable urban drainage systems (SUDS) as these are mainly focussed on preventing flash flooding. In the Dutch approach the hydrological system is changed but the characteristics are the same. One of the first housing developments where this was implemented under this name was Westerpark in Breda. But it is also part of the EVA-Lanxmeer estate and In Goede Aarde. These projects are examples of an integrated approach to urban water management that utilises the required provisions as features in the layout of the estate.

In low-lying areas more surface water should be provided this can be permanent surface water (left) or take the shape of incidental surface water (on the right in EVA-Lanxmeer) where a ditch fills up with rain water after heavy rainfall that can then slowly drain away.

Another development is the separation of water streams based on contamination category. well into the 1980s waste water was collected in sewers together with rainwater and lead to water treatment facilities. In instances of extreme rainfall the system would overflow on rivers, streams or canals. This lead to a decreased ecological quality in these surface waters as they became contaminated and nutrient rich. As sewer pipes are replaces every 15 to 30 years (the pipes below ground water level in polders are renewed more regularly than those in sandy soils well above ground water levels) this system is slowly being replaced by a system of separated water stream with the waste water in one pipe and the rain water in a separate pipe. The rain water can be lead towards an underground water retention bunker in densely built-up areas or lead into a dedicated overflow pond or canal. On clay soils water doesn't infiltrate much so more surface water is created, but on sandy and loamy soils water can infiltrate by digging special ditches, by using perforates rain sewer pipes or by lowering ground level in parks or road verges.

This housing development 't Ven in Veghel is located in a formerly wet area on loamy soil (ven = fenn). The water retention pools are made a feature of the design and also add habitat for animals and plants within this estate.