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Detailed Design  Approach 1 - worked example


           For the purpose of the example the following
           rates are assumed:
           •
               1 in 1 year        3.5 l/s
           •
               1 in 100 year    11.1 l/s
           Depths of storage are assumed as 150mm and
           600mm for 1 in 1 year and 1 in 100 year return
           periods respectively.
           1 in 1 year
           65mm opening with 150mm depth of storage for 1                       450mm additional storage -  422mm head for 2nd orifice
           in 1 year, which provides 3.5 l/s outflow .                 600mm – total depth of storage  1 in 100 year rainfall + CCA
           1 in 100 year                                                                    55mm dia.
           65mm opening for 600mm depth of storage                                          opening
           provides outflow rate of 6.9 l/s. Allowable
           discharge is 11.1l/s.
           Therefore 11.1 – 6.9 = 4.2 l/s. The additional flow
           will be provided by an additional opening which                      150mm 1in1   storage  65mm dia.
           will only operate once the 1 in 1 year storage is                                opening
           utilised.
           Using an additional 55mm opening with invert
           150mm above base invert of storage provides 4.2
           l/s outflow

  101
           9.6.8.2  Approach 2 methodology
                                                                 1.  Establish the Qbar rate for the flow
           A single opening can also be sized to                     control location. The Qbar rate should be
           discharge at Qbar for the 1 in 100 year + CCA             proportional to the contributing
           rainfall event. This does not meet the                    catchment.
           requirements of NSTS S2 but can be                    2.  Define the maximum storage depth. For
           considered to demonstrate S6 as more flow                 example 600mm could be adopted for
           is held back on site for longer.                          the 1 in 100 year + CCA  rainfall event.

           The Qbar (or Qmed) flow rate will occur                   Define the maximum storage depth.
           whenever the storage volume is full and the           3.  Define the orifice invert. A reasonable
           design head is reached.  This methodology is              starting point is to set the invert at the
           simpler to apply than Approach 1 as there is              base (or slightly below the base) of
           only one target flow to be sized for, however,            storage.
           it may also result in increased storage               4.  Using the appropriate orifice equation
           volumes.                                                  establish the opening size which will
           The following steps outline the process of                convey the required QBar flow rate at the
           calculating the opening size of an orifice to             defined 1 in 100 year head (depth of water

           discharge at Qbar rate.                                   above the orifice).


           The Royal Borough of Kensington & Chelsea SuDS D & E Guide                          © 2018 McCloy Consulting & Robert Bray Associates
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