Ground-breaking ceremony HIF renovation and extension
Yesterday, ETH Zurich and the team of architects, building planners and construction managers involved in the project attended the ground-breaking ceremony for the HIF renovation and extension project at 捷报比分_新浪体育nba¥直播官网 H?nggerberg. The event marks the beginning of the upgrade and renovation project at one of the largest building complexes on the campus. It will also be the home of the Department of Civil, Environmental and Geomatic Engineering.
According to Professor Thomas Vogel, Head of the Civil, Environmental and Geomatic Engineering department, this campus expansion will bring several disciplines closer together and in general facilitate the further development of the department and its institutes.
During his speech, he explained: “This project will put the nine professorships at the Institute of Environmental Engineering under one roof for the first time – and closer proximity simplifies communication. The nine state-of-the art laboratories will also give the Institute for Building Materials further room in which to evolve. In addition, the large experimentation facilities at the Institute of Structural Engineering, in the form of the renovated test hall, will offer an optimised structural shell, which, among other things, will offer better climatic conditions within the space. And the Institute for Geotechnical Engineering, which will be located on the lowest level, near the building’s foundation, will benefit as well. As part of a separate project, a large beam centrifuge with a rated acceleration of 250 g will be installed.”
The renovation project will be carried out in phases, which will allow the extension to be completed while the site is occupied. Professor Ulrich Weidman, Vice President Human Resources and Infrastructure, explains the importance of the HIF renovation and extension project in the context of ETH Zurich’s expansion plans: “Our projects will ensure that we can offer infrastructure that meets the requirements of teaching, research and knowledge transfer.” Continuing, he said: “The HIF renovation and extension project marks a new phase of major construction at the H?nggerberg campus, and this will generate unavoidable emissions. However, through careful planning and intensive cooperation with the departments before and during the construction phase, we will be able to minimise the negative effects.”
The new HIF, which was designed by Zurich-based architect firm Stücheli Architekten AG, should be completed by the beginning of 2023. The planning has ensured optimal integration into the campus, which is especially apparent in relation to the surrounding green space. For example, the project links up with the Flora-Ruchat-Roncati Garden, which will be expanded as part of the 2040 master plan. Another new feature will be direct access from Wolfgang-Pauli Strasse, which will shorten access pathways in the long term. The building will also have its own main entrance, replacing the main access route through the HIL building. Project manager Rainer Brandst?tter puts it well: “HIF is receiving its very own address, giving it a place to grow.”
Information on the pedestrian detour during the construction project
As the construction project involves heavy lorry traffic, the passage marked in red will be blocked off for the coming years from mid-August. The appropriate detour signs will be posted around the campus.
Importance of the H?nggerberg campus for ETH Zurich
The H?nggerberg campus is one of the two main ETH Zurich sites and offers the full spectrum of teaching, research and services. It houses seven departments and has a bustling campus atmosphere.
In terms of infrastructural development at ETH Zurich, the H?nggerberg campus plays a unique role due to the space available. This is in contrast to the central campus, where development options are highly limited due to the historic district and urban structures. The infrastructural development at the H?nggerberg campus is based on the ?捷报比分_新浪体育nba¥直播官网 H?nggerberg 2040? master plan.
Image gallery: ground-breaking ceremony
Impressions from the ground-breaking ceremony. The star of the evening was the semi-autonomous excavator Menzi Muck, presented and operated by Professor Hutter and his team. (Pictures: Nicola Pitaro)