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The GSE Drainage Design Manual Chapter 4—Design Methods And Concepts <br /> eree =Bd = nd.LdT.t L (4.22) <br /> Id Td — <br /> k� <br /> The minimum required transmissivity computed above should be compared with that <br /> calculated based on leakage rate and any minimum regulatory requirements. The required <br /> transmissivity of the leak detection layer should then be based on the largest of the three values. <br /> 4.3 Allowable Transmissivity <br /> The allowable transmissivity included in the specifications is the minimum transmissivity that <br /> must be met during testing. The allowable transmissivity is unique for a given stress and <br /> gradient; therefore, the laboratory testing must be performed at the same stress and gradient. <br /> Alternatively, if higher gradient is used for testing then allowable transmissivity value at a lower <br /> gradient can be computed based on the empirical relationship presented in Section 2.3. The <br /> allowable transmissivity will include an increased value as compared to the required <br /> transmissivity in order to account for: (i) a design factor of safety; and (ii) anticipated changes <br /> due to environmental effects on the in-place geocomposite. The design factor of safety for <br /> drainage is applied to account for uncertainties in the design related to material properties, <br /> weather and other factors that may increase the impingement rate or decrease the flow capacity <br /> of the geocomposite. The application of the factor of safety for drainage results in the allowable <br /> transmissivity as shown below. <br /> BaH. =B" -FSD (4.23) <br /> where: <br /> O.jI ,,,=minimum allowable transmissivity of geocomposite(m2/sec), <br /> Qey=required transmissivity for a site as explained in Section 4.2(m2/sec), <br /> FSD=overall factor of safety for drainage(dimensionless). <br /> Environmental factors such as biological clogging,chemical clogging and Iong-term creep of <br /> the geocomposite drainage layer will decrease the in-place capacity of the geocomposite. To <br /> account for these reductions, the allowable transmissivity will be increased further using <br /> reduction factors for each component. The magnitude of each reduction factor (which should be <br /> equal to or greater than 1) should reflect a correction that provides a best estimate of the <br /> anticipated reduction. It should not be inflated to a larger value to account for uncertainty, since <br /> this has already been accounted for in the factor of safety.The allowable transmissivity is shown <br /> in Equation 4.24 below(see also GRI procedure GC8): <br /> 0.11.w =9" .FSD -Rcx .RFcc .Rec (4.24) <br /> where: <br /> Obow=minimum allowable transmissivity of geocomposites or geonet(m2/sec), <br /> Page 4-13 <br />