grey infrastructure
as response to cholera - “the great stink”
either combines sewer system orseparate sewer system
but also negative aspects:
changes in hydrological cycle: higher surface runoff, less infiltration, less transpiration
changes in groundwater and surface water levels
urban heat island effects
downstream flooding risk
decrease of water quality (pollutants, visual quality, thermal pollution(algal blooms)
blue green infrastructure (BGI) definition
planned network of natural and semi-natural areas that utilise natural processes to improve water quality and manage water quantitiy
two types:
natural water features: ponds, rivers, lakes, wetlands
man-made features: greend buildings, streets and places -> compromisind a number of individual components: green buildings, streets and spaces
Blue-green infrastructure examples
Riparian buffer: zone close to lake or river, biological filter, hold large amounts of water, reduce erosion, increase wildlife diversity
swales: open conveyance channles -> slow down runoff (enable sediments and pollutants to settle), reduce peak flow and give pretreatment
bioretention basins: detain and treat stormwater -> temporarily store stormwater, runoff is filtered through vegetation and later released at controlled rate
green roofs:
Pro: treat stormwater through bioretention, reduce annual stormwater runoff by 50-60%, capture 85% of some nutirent pollutants, filter air pollutans, reduce heat island effects (up to 60°C)
Con: energy-intensive, source of pollutants, carbon footprint from construction
Combined/ seperated sewer system
Combined: storm- and wastewater in one pipe network; all water is treated as wastewater before being discharegd into water body
Pro:
only one network
stormwater, which also carries pollutants gets treated
Con:
pipes can get extremely large
stormwater overflow releases untreates wastewater into water bodies
wastewater treatment plant clens “clean stormwater” -> high energy costs
Seperate: seperate network, wastewater egts treatment, stormwater is directly released into water body
no sewage overflow
less water for wastewater treatment plant
twice the network length
stormwater gets no treatment
water saving leading to low flow and odour and corrosion of pipes
Rainwater harvesting
disconecting downspouts of buildings from sewer system —> redirection of water towards permeable areas, rain barrels or cicsterns
rain barrels hold up to 150-200l (suited for single family house with garden)
cicsterns hold up to 1000-3500l (suited for large buildings)
Ecosystem services
reduced flood risk
pollutant reduction
waterway quality
enhanced water conservation
increased groundwater recharge (increased base flow)
reduces heat island effect
improved habitats (providing parks, urban forests, wetlands and vegetated swales)
carbon sequestration
Social benefits of BGI
encourage physical activity, improving (mental) health, promote social interaction
healthier air
provide space for partial self-sustaining life style
Challenges with BGI
multiple stakeholders
more space is needed than grey infrastrucutre needs -> higher cost
diffiyult to quantify benefits
many BGI approaches require long time to reach full benefit
initial high costs
higher risk due to lack of experience
Who should pay? benefactors hard to spread over multiple grous, administrative boundaries and jurisdictions
Lock-in of traditional practices (“Why change what we have?”)
unfamilarity with multifunctional space
poor maintenance (insufficient resources and skilled workers)
well suited for small rain events but large storms will overwhelm BGI
Impervious and pervious surfaces
Last changeda year ago
