Abstract
For those slopes where the piezometric regime acts as internal landslide predisposing factor, drainage may represent a more effective mitigation measure than other structural interventions. However, drainage trenches have been generally considered as mitigation measure solely for shallow landslides. More recently, instead, some authors show that the variation in piezometric conditions at large depth is not negligible when medium depth drainage trenches are involved. The paper presents the results of finite element analyses of the transient seepage induced by the installation of systems of drainage trenches of different geometric parameters, and the effect of the drainage system on the stability factor of the slip surface, through 2D limit equilibrium analyses. The pilot region is the Daunia Apennines, where field studies have led to recognize for most of the landslides a “bowl-shaped” slip surface; the results accounting for the Fontana Monte slope at Volturino (Italy), selected as prototype landslide in the assessment of the stabilization efficacy of deep drainage trench systems, is discussed in the following. The study aims at providing indications about the design of the drainage trenches to reduce the pore water pressures on a deep slip surface of such type.
Highlights
The management of landslide risk within chain areas has been hardly sustainable, due to the cost of the engineering interventions [1,2,3,4,5]
Installation of a drainage trench system characterized by n = 3, S = 18 m and H0 = 22 m (S/H0 = 0.82), Given the bowl shape of the Fontana Monte slip surface, the increment in stability factor ΔF in whose plane of symmetry coincides with the section
The comparison shows that the average stability factor obtained through this kind of drainage trench system, ~13%, is comparable to that reached with a standard system, of constant S and H0, but the system in Figure 23 is more sustainable, both in terms of costs and construction effort
Summary
The management of landslide risk within chain areas has been hardly sustainable, due to the cost of the engineering interventions [1,2,3,4,5] This is especially the case in regions where deep slow landslides are widespread, as with deep landslides, the installation of earth retaining structures, representing the traditional mitigation measure, does not provide long-lasting successful mitigation effects. With pile diaphragms (pile depth ofof m) installed along transversal and longitudinal (c) For those slopes where the piezometric regime acts landslide predisposing factor [9],drainage drainage. The F value for elongated shallow landslide bodies,the assuming theof number of trenches to Through a parametric study of the variation in drainage steady-state efficiency, E, with the trench be infinite. Infinite slope model assuming full saturation of the in theofwhole slope
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