Urban drainage

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    Created by
    Rosie Runnicles

    Cards (43)

    • what falls in greater amounts in urban areas?
      precipitation
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    • what are the urban drainage systems designed to deal with?
      surface runoff generated from impermeable surfaces
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    • how are urban drainage systems designed to deal with surface runoff from impermeable surfaces?
      through a system of underground pipes and sloping roofs
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    • what is low in urban areas?
      infiltration
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    • as infiltration is low in urban areas, what is slow?
      replenishment of groundwater stores
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    • what feeds rivers in urban areas?
      groundwater
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    • what happens to the rivers during drier periods?
      river discharge in urban areas is low
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    • what increases runoff in urban areas?
      the increase in precipitation and storms
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    • what is runoff channeled through?
      man-made pipes which transports water to rivers and streams
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    • what causes water to enter rivers quickly?
      low infiltration rates, high surface runoff and channeling of water
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    • describe the hydrograph of an urban river
      a short lag time and high peak discharge with a fast return to base flow
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    • what does catchment management do?
      it manages the river and improves drainage systems by looking at the whole river catchment and the interactions between water and land
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    • what does catchment management aim to do?
      minimise the issues such as flooding, trough, water pollution and erosion in sensitive areas and to improve river ecoystems
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    • what are the two main methods that can be used to manage river catchments?
      soft and hard engineering
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    • MANAGING RIVER CATCHMENTS (HARD ENGINEERING) - what does it involve?
      man made structures such as dams, flood walls and reservoirs
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    • MANAGING RIVER CATCHMENTS (HARD ENGINEERING) - what are the man made structures used for?
      they are often used to prevent flooding and ensure a constant water supply
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    • MANAGING RIVER CATCHMENTS (HARD ENGINEERING) - what are the problems with hard engineering?
      it is expensive, can disrupt natural systems and alter wildlife habitats
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    • MANAGING RIVER CATCHMENTS (SOFT ENGINEERING) - what does this use knowledge of?
      uses knowledge of the river basin and its processes to try to work with nature
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    • MANAGING RIVER CATCHMENTS (SOFT ENGINEERING) - what does it involve?
      land use management, river restoration and conservation
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    • MANAGING RIVER CATCHMENTS (SOFT ENGINEERING) - pros of soft engineering
      its cheaper than hard engineering and it can improve the local environment
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    • MANAGING RIVER CATCHMENTS (SOFT ENGINEERING) - problems with soft engineering
      planning restrictions can limit the construction of new homes and businesses and land use management is hard in areas that are already urbanised
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    • MANAGING RIVER CATCHMENTS - who makes decisions about what methods to use?
      experts in water management rather than residents
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    • MANAGING RIVER CATCHMENTS - why do residents feel ignored as water experts make decisions about what method to use?
      as what is best for the catchment may not be the best for all individuals
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    • SUDS - what does it stand for?
      sustainable urban drainage systems
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    • SUDS - what do they aim?
      imitate natural drainage systems rather than channeling water through pipes and drains
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    • SUDS - what do they attempt to do?
      manage surface water in urban areas
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    • SUDS - what do they try to decrease?
      flooding, water pollution and drought
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    • SUDS (VEGETATED TRENCHES) - what are they?
      trenches which increase interception of rainfall and retention basins which store water
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    • SUDS (VEGETATED TRENCHES) - what do they help to increase?
      infiltration and water storage
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    • SUDS (VEGETATED TRENCHES) - what does it decrease?
      it decreases runoff and channel flow which lowers flood risk
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    • SUDS (VEGETATED TRENCHES) - what does increased infiltration decrease?
      decreases pollutants which enter watercourses
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    • SUDS (VEGETATED ROOFS) - what do they do?
      intercept rainfall and increase evapotranspiration which reduced flood risk
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    • SUDS (CONTAINERS) - what do they do?
      they're on roofs which catch and store rainwater for reuse, they lower drought risk
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    • SUDS (SWALES) - what do they do?
      direct water to storage areas in grass basins
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    • SUDS (WATER DETENTION AND RAIN GARDEN) - what do they do?
      reduces runoff but increases infiltration and storage
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    • SUDS - why are SUDS more sustainable than traditional urban drainage methods?
      they work with the natural environment to improve drainage and air quality
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    • SUDS (VEGETATED TRENCHES and VEGETATED ROOFS) - what are pros?
      they provide new habitats and increase biodiversity
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    • Characteristics of urban drainage in urban areas
      UHI means more precipitation and more run off
      short lag time
      impermeable surfaces - low infiltration
      less vegetation to intercept rianfall
      drainage is needed to remove water quickly
      water stores are decreased
    • characteristics of the urban water cycle
      ‘flashy’ regime
      high peak discharge
      fast return to base flow
    • what is catchment management
      managing rivers and improving drainage systems - looking at the whole catchment - holistic approach
      aim: to minimise flooding, drought, water pollution and erosion
      hard engineering: dams, levees, channels
      soft engineering: land use management, flood plain zoning, river restoration
      issues with catchment management:
      • decisions are made by local authorities without consulting locals - conflict
      • expensive and disruptive
      • ecological balance is disturbed
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