Groundwater Control

1. Groundwater Control • Affects design of: • Permanent Works • Temporary Works • May affect viability of scheme • Safety Issues • May cause instability of excavation sides and base • Additional dewatering plant must always be available in case of breakdown • Environmental Issues - Disposal of water removed - Lowering of local groundwater table - May cause local settlement

2. Hydrological Cycle • Hydrostatic head required to force groundwater to drain to river or sea means that groundwater can be found at any elevation

3. Groundwater Control

4. Soil Permeability

5. Sump Pumping • Simple and cheap. • Interlocked sheet piles can reduce inflow of water • Possible problems with heave of trench base – drive sheets deeper or use drain • E.g. ITT Fygt Bibo range

6. Wellpointing 1 • Installed at 0.6 to 2.0 m centres • Draws water away from excavation • Lowers groundwater by up to 6 M • Low volume output, not for use in very permeable soils. • Courtesy Andrews - Sykes

7. Wellpointing 2 • Single sided • Single sided use diminishes as trench width increases • Courtesy Andrews - Sykes

8. Wellpointing 3 • Single sided allows access to trench • Courtesy Andrews - Sykes

9. Wellpointing 4 • Closed ring system adopted for rectangular excavations. • Reduced access unless pipes are buried. • Multistage system used where draw down is 7 M or more • Courtesy Andrews - Sykes

10. Wellpointing 5 • Note effect of cone of depression on adjacent structures • Courtesy CIRIA 133

11. Electro Osmosis • Used in cohesive soils • +ve water particles electrostatically bound to –ve soil particles makes dewatering difficult • Pass electric current through soil to break attraction and allow water to flow

12. Sheet Piles/Secant Piles/Diaphragm Wall • Dual purpose of providing permanent support to excavation and excluding groundwater • Possibility of slip circle developing Groundwater Impervious layer

13. Diaphragm Wall 1 • Trench excavated by grab or long reach excavator • Trench filled with bentonite as excavation proceeds • Bentonite prevents trench collapse • Trench concreted from base, bentonite recovered for future use • Courtesy: Bachy Soletanche

14. Diaphragm Wall 2 • Courtesy: Bachy Soletanche

15. Schurman Building, Bonn. £800 m development. Basement damaged by water ingress due to part missing water stop. £100 m basement construction lost Effect of Groundwater Pressure

16. Grouting • Used where permeability is too high or where access is difficult (tunnelling) • Grout is injected into the soil under pressure via boreholes or drill holes • May be cementitious, chemical (silica based) or bentonite • Can strengthen soil and / or form impermeable barrier • Oldbury power station. Grouting reduced inflow from 4500 l/min to 16 l/min

17. Freezing 1 • Changes water bearing ground into a solid wall of ice. • Use brine solution at –25oc chilled by on site freezer • Liquid nitrogen speeds up freezing

18. Freezing 2 • 1m thick wall takes about 12 days in gravel, 17 days in clay • E.g. Microtunnel Receiving Shaft • Courtesy Cryocell

19. Freezing 3 • Frozen shaft walls protected to reduce heat loss • Courtesy Cryocell