Main content:
Bremen State and University Library
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The refurbished University Library.
© Staats- und Universitätsbibliothek Bremen
The State and University Library in Bremen (Germany), built at the beginning of the 1970s, consumed enormous amounts of energy. For this reason, it was decided that there should be a comprehensive energy-oriented refurbishment of this building. At the same time, utilisability and attractiveness was to be significantly improved for the visitors. As the building had only a few bright window areas, a new lighting concept was to be developed. The building, the structural design, and the technical equipment constitute a representative example of fully air-conditioned buildings from the 1960s to 1980s, for which modernisation is due in the near future.
Building summary
| Project status |  |
|---|---|
| Location | Bibliotheksstraße 1, 28359 Bremen, Bremen |
| Year of construction | 1973 |
| Refurbished | 2004 |
| Building owner | Staats- und Universitätsbibliothek Bremen (+ Betreiber, Nutzer) |
| Investor | Zukunftsinvestitionsprogramm (ZIP) |
| Gross floor area | 27.429 m2 |
| Heated net floor area | 25.011 m2 |
| Gross volume | 118.972 m3 |
| Main usable floor area | 20.794 m2 |
| A/V ratio before refurbishment | 0,19 m2/m3 |
| A/V ratio after refurbishment | 0,19 m2/m3 |
| Key aspects |
|
Project description
Alongside the reference areas, the library from the year 1975 also has administration rooms, workshops, and a lecture theatre. In accordance with the concept of convenience and thermal comfort prevalent at that time, all areas in the building are automatically air-conditioned. Also typical of the time of construction is the facade with fixed glazing. The floor plan is of an almost square design, developed over 5 storeys. The generous reference area inevitably entails large deep rooms. This makes the building also very compact. The building structure is a reinforced concrete skeleton construction with a curtain wall facade. The intricate vertical subdivision of this facade is seen by the university as a distinctive design feature; therefore, it was requested that this be retained in the refurbishment. All measures had to be implemented during ongoing use of the building.
Refurbishment concept
The university's very high energy costs called for significant energy savings. The intention was to save over 50% of the original primary energy requirement. Also, library users complained repeatedly about the interior climate, unbalanced lighting, unopenable windows, the lack of possibilities to make adjustments, and permanent noise emission from the air conditioning and ventilation system. The refurbishment would also have to solve these problems. For the contractor, it was important to ensure a pleasant interior climate all year round, despite reduced air conditioning equipment. Alongside the energy-oriented refurbishment, the entrance area was to be redesigned, and the interior decoration, as well as the technical and IT equipment in the work areas, was to be modernised. In the administration rooms, openable windows were installed. The neutral solar protection glass (g=0.38), used in combination with the existing sun protection elements, guarantees thermal insulation in summer. The thermal insulation of the roof surfaces was improved.
Energy concept
Demand-oriented (and thus energy-saving) control of heating, cooling and ventilation of different areas was not possible with the old air conditioning and ventilation system. During the refurbishment, the original air only system was dismantled, and replaced by three separately controllable systems for heating, ventilation and cooling. Rooms with exterior walls are now ventilated naturally. A small, controllable air conditioning system with enthalpy recovery ensures that air renewal in rooms with no exterior walls reaches the minimum level. Water is the medium now used to transport energy for heating and cooling. In the glass facade areas, conventional radiators were retrofitted, so the window fan system could be abandoned. At night and on weekends, the air conditioning systems can be almost completely switched off. The higher thermal loads arising in the building's interior are now compensated for by room cooling devices, for which the required cold water is partly provided via free cooling. The waste heat is simultaneously used for preheating of outdoor air via heat exchangers. Despite significantly increased light levels, the connected load of the lighting system was reduced by approximately 40% due to more efficient technology. The building's thermal insulation was significantly improved by replacement of the glazing, and insulation of the roof.
Performance
Experience gathered in the first year of operation after the refurbishment shows that the primary energy consumption was reduced from 831 kWh/m² p.a. in 2002 to 230 kWh/m² p.a., i.e. by around 70%. An accompanying socio-scientific user survey attested to a significantly higher level of user satisfaction than before the refurbishment.
Optimisation measures and possibilities
Due to initiated measures for optimisation of operations, even higher total energy savings are expected for the second year of operation (2006). Evaluation and optimisation will be completed by the middle of 2007.
Construction costs and profitability
The energy-oriented refurbishment cost 7.24 million euros. Much of this was financed by the German federal government's Investment in the Future Programme (ZIP). For the university's own share of the cost, there was initially no investment capital available in the budget. After detailed examination, the contractor rejected the idea of enabling complete financing by means of a performance contracting agreement. Instead, a municipal loan was arranged, to be paid off by means of the reduced burden on the budget which the energy cost reductions entail. Thus, the university itself took on the role of contractor, including the risks, but also the financial opportunities of such a procedure ("intracting"). As yet, due to the fact that the predicted savings were even exceeded, and that energy prices are higher than calculated, this is working out very we
Key energy data
| Energy indices according to German regulation EnEV (in kWh/m2a) | before refurbishment | after refurbishment |
| Heating energy demand | 85,00 | |
|---|---|---|
| Primärenergie Gesamt | 329,00 | |
| Measured energy consumption data (in kWh/m2a) | before refurbishment | after refurbishment |
| Thermal heat consumption | 259,00 | 47,00 |
| Total source energy | 831,00 | 250,00 |
| Power for lighting | 35,00 | |
| Power for air conditioning plant | 33,00 | |
| Heat for room heating areas | 34,00 | |
| Heat for air conditioning plant | 13,00 | |
| Cooling | 7,00 |
Refurbishment costs
| Refurbishment costs in €/m2 | |
| Overall costs | 467 |
|---|---|
| Energy recovery refurbishment of the building construction | 69 |
| Energy recovery refurbishment engineering | 171 |
| Modernisation, equipment | 226 |
These figures represent established costs, Related to gross floor area
Operating costs
(Data according to main usable floor area)
| Operating costs in €/m2a | before refurbishment | after refurbishment |
| Total energy costs | 23,75 | 7,70 |
|---|---|---|
| Heating | 7,10 | 1,28 |
| Total electricity consumption | 13,38 | 6,01 |
| Lighting | 3,86 | 2,42 |
| Infiltration/ventilation/cooling | 11,15 | 2,64 |
