Knowledge Centre, St. Olav’s Hospital, Norway

One of the buildings in the project for the new hospital was the Kunnskapssenter (Knowledge Centre), a building for research, teaching and patient treatment. It houses the university hospital's auditorium (380 seats), a library of Medicine and Health, workspaces for students and facilities for research and teaching. Several of the laboratories are among the most advanced in Norway.

The knowledge Centre was a complicated project, with high demands of energy efficiency. Caverion delived all technical solutions, and through  good cooperation, the project was a success. Caverion’s user-friendly and energy-efficient solutions ensure smooth operations throughout the building's life cycle.
– Lars Abrahamsen, Chief Development Manager, Helsebygg Midt-Norge (Health care buildings mid-Norway).

New St. Olav's Hospital had a goal to become one of Europe's best and most patient-friendly university hospitals. Helsebygg Midt-Norge owned the assignment for all the planning and construction of a total area of 197,500 square meters (226,000 square meters gross) in a center-based and quarterly district in Trondheim, middle of Norway.

Service Areas

  • Project Execution
  • Design & Engineering
  • Advisory Services

Disciplines

  • Cooling
  • Process Piping
  • Automation
  • Ventilation & Air Conditioning
  • Information & Communication Services
  • Heating & Sanitation
  • Electricity

Client Segments

  • Public Health Care
  • Public

Types

  • Hospital

Challenge

The operations in the hospital require special needs and demands from the Knowledge Centre. It concerns the choice of solutions and materials in design and construction. Requirement for quality of for example surfaces to prevent infection spreading through cleaning. The technical installations had to be adapted to different needs, as the hospital building should have several different functions. According to the Norwegian Technical Regulations (2007), a university hospital should have an annual net energy of 238 kWh/square meter. Helsebygg Midt-Norge wanted to go even lower than the requirement, and aimed for only 200kWh/square meter per year and achieve  a passive house standard. In order to cater for the full life cycle of the building, the technical solutions needed to be flexible to make any future renovations easier. Helsebygg Midt-Norge sought a contractor to provide a total technical solution.

 

Solution

Energy saving affects every part of the planning process, and the energy consumption is reduced through passive measures, such as additional insulation, extra density and heat recycling. Other measures are differentiated low-energy lighting, exterior shading devices and demand control of light and air flow. By installing our own patented ClimaCeil in offices, open plan offices and in 20% of the teaching area (40% of the total area), the passive house standard is achieved. Caverion won the technical solution contract on the basis of previous involvement in parts of the development, and being the only contractor that offered a total technical solution.



Result

The Knowledge Centre at St. Olav's Hospital is the first hospital buildings with passive house standard. All the technical solutions are saving energy, along with the very well-insulated building - intelligently controlled from a centralized system. For instance; indoor lighting with daylight sensors are turned on / off as umbrellas go up and down, and 90% of the indoor heat is recycled, and ventilation is controlled by CO2 sensors. All materials used are sustainable and safe for people’s health, which makes a very versatile and patient friendly hospital building. The energy demand will be around 45 percent lower than the regulatory requirements, according to the latest estimates there will only be an energy need of 128 kWh/m2 in the new center, which is more than 100 kWh/m2 below the government’s demands. Of a total of 10 new buildings, the Knowledge Centre was the only building that got completion certificate before scheduled occupancy.

 

Year

May 2011 – September 2013

 

Facts about the building

  • Hospital
  • Research, teaching and patient treatment
  • Passive house standard
  • Gross floor area: approx. 17 000 m2
  • Construction costs: approx. MNOK 695
  • Funding from the government agency Enova: MNOK 6
  • Added investment into energy efficient solutions: about MNOK 14
  • Facts about Caverion's solution

  • Gross floor area: approx. 17 000 m2
  • Building systems contract: approx. MNOK 195
  • Energy source: District heating
  • Lighting systems with KNX og daylight sensors through Dalicontrol
  • Heating and sanitation
  • Cooling
  • Ventilation and air conditioning
  • Electricity
  • ICT (including AV-system)
  • Medical gasspipes
  • Automation
  • ClimaCeil
  • 90%
    of the indoor heat is recycled

    Gross floor area
    approx. 17 000 m2