Geofrost - Hydropower Ice Plug
The ice plug concept developed and tested by GEOFROST, makes it possible to temporarely close a water filled tunnel.
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INTRODUCTION
The ice plug concept developed by GEOFROST is based on two facts:
- materials are gaining strength when frozen and
- the sealing may easily be removed after use.
The concept is ideal for temporary works in connection with maintenance and refurbishment in water filled hydro tunnels when there is no working upstream gate or other easy way to cut off the water. The ice plug method has a low impact on the environment and is an efficient alternative to cofferdam building or reservoir lowering.
During consept development, both theoretical research and laboratory testing were performed, before the full scale test in one of Statkrafts tunnels.
Full scale test for the research work was carried out in a bypass tunnel in the Rossaga waterways, situated between Mosjoen and Mo i Rana in northern Norway. In this tunnel, with a cross section of 50 m2. a 6 m long artificially frozen ice plug was holding back the water reservoir. Water pressure equalled a water column of 20 m. When the tunnel was emptied, the plug was loaded horizontally by more than 1 000 tonnes. This load test lasted for one month. Then the ice plug was removed efficiently by thermal erosion. (Berggren & Sandvold 1995}
CASE: SKODDEBERG HEADRACE TUNNEL
Halogaland Kraft AS planned maintenance works for Skoddeberg Hydro Power Plant. To be able to do these works, the waterway had to be emptied, but the gateway in the headrace tunnel from the 1950s was leaking severely.
Their first design approach was to lower the water level in the reservoir and build a coffer dam. The works should be done during winter season when the water level normally is at its minimum. However, there were safety concerns about this solution, since flooding had occurred last winters. If that would happen again, the water level in the reservoir could rise by a meter per day and a reasonable coffer dam would be overrun quite soon.
While searching for other solutions, the ice plug concept appeared. GEOFROST proposed two different alternatives, one based on brine freezing and one on nitrogen freezing. The more rapid nitrogen freezing was chosen in order to minimize the stop in energy production, although more expensive.
The date for closing down the hydro power plant was chosen to minimize the loss of potential power during the stop and all activities were coordinated and planned accordingly.
Liquid nitrogen (LIN), with a temperature of-197 °C at atmospheric pressure, was used for the initial freezing. The nitrogen, delivered by tank lorries, boils in the freezing pipes and are then let back to the atmosphere. For economical reasons, nitrogen was used initially and then brine at -40 °C was used for the ice plug maintenance.
When the ice plug had achieved the required temperature and thickness, loading could start. The leaks were large enough to lower the water level downstream in the gateway shaft and the surge chamber. When water surface reached the tunnel level and thus a much larger volume of water was to be removed, a downstream gate was partly opened to speed up the emptying, while keeping a gentle loading rate
Besides that the leaking gate was to be replaced, some rock support work in the surge chamber had to be done, and an extra turbine was to be installed in the hydro power station. Due to the new turbine, a branching of the penstock also had to be built. All these works, done by the client, were coordinated to be performed as quickly as possible as soon as access was provided by emptying the tunnel for water downstream the ice plug.
The cold winter months north of the polar circle revealed demanding working conditions. However, works ran smoothly. As shown in the time schedule, the power plant interruption was only 6 weeks, whereas only 2 of these weeks were needed for establishing and removal of the ice plug.
The cofferdam solution would have been approximately 3 times as costly as the ice plug. In addition, weather conditions turned out so badly that the cofferdam solution would have been impossible to carry through that winter. Heavy rain in late autumn resulted in a full reservoir when it was supposed to be at the lower regulation level. The execution ran smoothly and the project was completed 3 weeks earlier than planned.
CLOSING REMARKS
GEOFROST has developed an ice plug concept for maintenance works in hydro power plants. The research project proved that the concept was feasible and this case history has proven commercial benefits. Apart from being safe, the ice plug concept is predictable in time and cost.
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