How the Gornerli project is using valuable glacier meltwater sensibly

Most dams in Switzerland were built for a single purpose: to generate power. When the concessions were granted, some longstanding uses of water were protected, such as irrigating meadows in the Valais. Over time, the reservoirs have been granted additional uses, such as supplying drinking water or producing artificial snow. The dams have also been incorporated into flood protection concepts. Some uses, such as climbing the dam wall, use the infrastructure rather than the water. We’re studying the multifunctionality of the alpine dams from different angles: the history of the multiple uses of water, when the new uses emerged, the perceptions of the role of water and energy by different stakeholder groups, as well as institutional aspects of multifunctional water management, in particular the role of concessions.

This project clearly has great potential for energy production due to the vast volume of water in the catchment area. It also plays an important role in managing hydrological risks in the Matter Valley. It serves as a drinking water and irrigation reserve for the municipalities of Zermatt, Täsch and Randa. As the structure is incorporated into the Grande Dixence storage power plant, it could supply Lac des Dix with water.

The water from the new lake will be pumped into the main Grande Dixence collector, so there’s no need to build a new power station. Currently, 146 million cubic metres of water flows in from the Gornera, 115 million cubic metres of which is taken from the Z’Mutt plant. Thanks to the new dam, all the water will be able to flow into the Grande Dixence. This will make a significant contribution to winter energy production, which is one of the key objectives of the new Electricity Act. The Gornerli dam alone would produce a third of the additional winter electricity envisaged by the Hydropower Round Table projects.

Zermatt is a highly urbanised area, with residential buildings very close to the river, making them extremely vulnerable. Peak flooding during thunderstorms, intense snowmelt or the sudden, uncontrolled discharge from an underground glacial lake, as happened with the Triftbach in July 2019, pose a major risk to the town. The construction of a reservoir upstream would act as a retention structure, thus reducing the risk. 

The construction and networking of water reservoirs is one of the keys to adapting water management to climate change. Due to their large capacities, alpine reservoirs constitute important infrastructure for the integrated management of water resources. With this in mind, the construction of a new reservoir near Zermatt can only have a positive impact on integrated water management. But we must not forget that true integrated management not only needs to ensure a long-term water supply, but also optimise the demand for water, in particular through organisational measures and water savings.