Abstract
Subsurface drains, when installed in non-cohesive soil, are typically covered with an envelope to tackle problems of clogging and siltation. Selecting a suitable envelope material, however, is complicated and depends primarily on soil characteristics in the area where the drains are to be installed. A new promising drainpipe-envelope concept, Hydroluis, has been developed which the designers claim works in a wide range of soils. The Hydroluis drainpipe consists of a corrugated inner pipe with three rows of perforations at the top and an unperforated outer pipe that covers the top two thirds of the inner pipe. We analysed the hydraulic and filter functions of this new drainpipe in a soil tank laboratory model with a saline-sodic problem soil from south-western Iran and compared Hydroluis performance with that of a locally-manufactured synthetic envelope material (PP450). The silty clay soil used in this study was 40 % clay, with a plasticity index (IP) of 16.9 and an exchangeable sodium percentage (ESP) of 60.4 %. The Hydroluis drainpipe clogged during the first two weeks of the test due to invasion of the test soil into the space between the inner and outer pipes. Of the substantial volume of sediment that entered the Hydroluis inner pipe, 38 % removed from the pipe in the first day. In contrast, the PP450 drainpipe showed good hydraulic and filter functions, entering very little sediment to drainpipe during the entire test period and stabilizing at drainage rate of 28 mm/day and entrance resistance of 55 days/m, at around day 50. Our analyses suggest that the clogging and poor drainage function of the Hydroluis drainpipe was caused by the higher flow velocity (21.5 times higher) at the soil-envelope interface of the drainpipe, in addition to the lower Hydroluis drainpipe’s soil retention capacity (18 times lower) compared to the PP450 drainpipe. Assuming Stokes’ Law governs filter function, the results of Hydroluis design evaluation also suggest that in stable soils, very fine sand or coarser soil particles (D > 0.05 mm) place no serious limitations for Hydroluis drainpipe application, whereas the current design is unsuitable for filtering fine silt particles (0.002 < D < 0.02 mm). In conclusion, we suppose the Hydroluis drainpipe does not perform well in silty saline-sodic soils, such as those found in south-western Khuzestan Province, Iran.
Highlights
Subsurface drains in arid and semi-arid areas are primarily installed to reclaim waterlogged or salt-affected lands and prevent soil water logging and salinization
Experience in Khuzestan Province strongly suggests the use of an envelope around subsurface drains, as soils here are in clined to dispersion due to the shallow, saline water table and soil sodicity (Hasan Oghli, 2008; Kooti, 1994)
The test showed that existing criteria for determining the need for an envelope are inconsistent with local experiences with the saline-sodic soils (ESP > 15 %) in Khuzestan Province, Iran
Summary
Subsurface drains in arid and semi-arid areas are primarily installed to reclaim waterlogged or salt-affected lands and prevent soil water logging and salinization. Subsurface drains are covered with an envelope to restrict soil particles from entering the drainpipe (filter function) and to create a more permeable area around the pipe (hy draulic function) (Ritzema et al, 2006). The main causes of failure of subsurface drains are clogging and siltation of drainpipes or envelope with soil particles, linked to improper selection of the envelope material. Clogging is defined as a decrease in the permeability of the soil-drainpipe-envelope system after installation, due to particles of the base soil being carried towards the subsurface drainpipes by drag forces of the moving water (Stuyt and Dierickx, 2006). Clogging of subsurface drains in Khuzestan Prov ince is usually a result of the instability of local soils, shallow saline groundwater and high soil salinity
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