7 February 2014

TenCate Geosynthetics publication awarded by Institution of Civil Engineers

The paper details the geotextile tube dewatering process, which consists of multiple cycles of slurry filling and drawdown in order to achieve a desired final volume reduction and solids concentration increase. Relatively simple relationships have been developed in the past to calculate these final volumes and solids concentration values. But the rate of volume reduction and solids concentration increase, that is the time periods over which these occur, requires a more sophisticated analysis and modelling approach.  

Analytical model The TenCate paper in Geosynthetics International magazine develops an analytical model that accounts for dewatering behaviour over multiple dewatering cycles. The model is based on the maintenance of a mass–volume balance at all points in time. Fundamental to the analytical model are two empirically derived dewatering parameters that characterise behaviour during the filling and drawdown phases. Two full-scale field test cases that involve the dewatering of gypsum slurry and contaminated sediments are presented to demonstrate the validity and accuracy of the analytical model. Agreements are obtained for the profiles of geotextile tube heights with time, incoming and exiting volumes and final solids concentrations when comparing the modelled results with the actual results. 

Containment and dewatering TenCate Geotube® dewatering technology has become the dewatering method of choice for organizations around the world. There are no belts, gears, or complicated mechanics. TenCate Geotube® containers are constructed of high-strength, permeable, specially engineered technical textiles designed for containment and dewatering of high moisture content sludge and sediment. This TenCate technology is one of the most versatile dewatering technologies available and most effective. Volume reduction can be as much as 90%, with high solid levels that make removal and disposal practical and easy.   
TenCate Geosynthetics Americas Pendergrass, Georgia, USA, Friday 07 February 2014
Download: TenCate Geosynthetics publication awarded by Institution of Civil Engineers