CUT-OFFS IN TEMPORARY COFFER DAMS AS SEEPAGE BARRIERS FOR CONCRETE DAM CONSTRUCTION -A CASE STUDY OF TEESTA -V H E PROJECT IN SIKKIM (INDIA)

摘要

Cutoff walls are frequently used to slow down or prevent seepage of water through and/or around dams. Cutoff wall is a type of seepage barrier structure designed to reduce the flow of water underneath temporary or main dam. There are number of techniques for the construction of cutoff walls including concrete, Jet grouting and permeation grouting. NHPC LTD, a premier Govt. of India undertaking has been instrumental in the hydro-power development within the country & in nearby countries like Nepal & Bhutan since last four decades. NHPC LTD has completed more than 20 hydro-electric projects with total installed capacity of 6587MW (including capacity addition by JV- NHDC). In all these projects, different types of dams and spillways were constructed in not so benign to extreme challenging geological set up. There has always been challenge associated with the temporary diversion works. The project sites sometimes incur huge river bed excavations in case of concrete gravity dam founded on rock foundation at large depth. The challenges for minimizing the seepage have been well taken care by constructing the dedicated seepage barriers. The construction of cut-off walls have progressed from "conventional continuous trench backfilled with conventional concrete or plastic concrete" to "grout curtain", to "jet grouting" to the "concrete cut-off wall" , the last being the most sophisticated & credible seepage barrier. The efficiency of the cut-off walls are monitored by the seepage quantity observed (reduction of the seepage flow), uplift pressures or exit gradients after construction of cut-off walls. For construction of the main concrete dam, required space is created by the river bed excavation for placing the dam foundation on sound rock. Sometimes there is deep river bed excavation from 30 to 40 m depth or even more as per the available rock profile. Temporary coffer dams are constructed for diverting the river flow through diversion tunnels / channels etc. In deep river bed excavation; there are high chances of the significant seepage through the coffer dam foundation / river bed material due to high hydraulic gradients. Seepage and piping are the main causes of the failure / damage of the temporary coffer dams. If the seepage quantity is too high, then it becomes difficult to handle it by dewatering in the dam pit. Dam concrete is required to be placed unhindered to have a monolithic construction of dam blocks & to have faster construction in the working season. Cut-off walls increase the seepage path considerably thus reducing the exit gradient and further reduction of the seepage thus helping in maintaining the seepage free area for working. As the diversion flood values are increasing due to uncertain storm phenomenon, adverse climatic conditions and to have long working period for faster construction of main dam which is resulting in the substantial increase in the height of temporary coffer dams. The suitability of the proper cut-off barrier needs to be designed in accordance with trial testing and credibility as per the available geological condition. Seepage analysis by FEM software helps to find out the efficacy of the seepage barrier in terms of the flux and exit gradient.