Ett självförsörjande utomhusbad
The municipal outdoor swimming pools of Bälingebadet, situated in Bälinge north of Uppsala, is today mostly heated by electric heating, and an insufficient solar heating system. Bälingebadet is managed by Sportfastigheter AB, which in turn is owned by Uppsala municipality. Today the facility is plag...
| Autores principales: | , , , , , , , |
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| Formato: | M2 |
| Lenguaje: | sueco Inglés |
| Publicado: |
SLU/Dept. of Energy and Technology
2017
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| Materias: |
| _version_ | 1855571913478242304 |
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| author | Dahlberg Rosell, Mårten Eriksson, Emil Jonasson, Erik Knudsen, Clara Leao, Theodorik Rahimi Ata, Kooscha-Kevin Strandler, Erik Widéen, Eric |
| author_browse | Dahlberg Rosell, Mårten Eriksson, Emil Jonasson, Erik Knudsen, Clara Leao, Theodorik Rahimi Ata, Kooscha-Kevin Strandler, Erik Widéen, Eric |
| author_facet | Dahlberg Rosell, Mårten Eriksson, Emil Jonasson, Erik Knudsen, Clara Leao, Theodorik Rahimi Ata, Kooscha-Kevin Strandler, Erik Widéen, Eric |
| author_sort | Dahlberg Rosell, Mårten |
| collection | Epsilon Archive for Student Projects |
| description | The municipal outdoor swimming pools of Bälingebadet, situated in Bälinge north of Uppsala, is today mostly heated by electric heating, and an insufficient solar heating system. Bälingebadet is managed by Sportfastigheter AB, which in turn is owned by Uppsala municipality. Today the facility is plagued by expensive energy costs related to heating of tap-water, pool water and off-season facility heating. Through accumulation of data, simulations and scoping the available market, the paper investigates the needs and alternatives for Bälingebadet. The report provides suggestions in three stages which all correlate to different degrees of lowered energy costs. As a result two solutions are presented. One solution which focuses on the first two stages, combining expanded use of solar heating, the introduction of a heat pump as well as various measures to improve the energy efficiency of the facility. The second solution and third stage expands on the previous stages and introduces photo voltaic-cells that match the new, lowered, electrical power need. Both solutions bring economical and environmental benefits with relatively short payback periods and a reduced electricity consumption of up to 70 %. |
| format | M2 |
| id | RepoSLU11654 |
| institution | Swedish University of Agricultural Sciences |
| language | swe Inglés |
| publishDate | 2017 |
| publishDateSort | 2017 |
| publisher | SLU/Dept. of Energy and Technology |
| publisherStr | SLU/Dept. of Energy and Technology |
| record_format | eprints |
| spelling | RepoSLU116542017-12-14T11:28:22Z Ett självförsörjande utomhusbad A selfsufficient outdoor swimming pool Dahlberg Rosell, Mårten Eriksson, Emil Jonasson, Erik Knudsen, Clara Leao, Theodorik Rahimi Ata, Kooscha-Kevin Strandler, Erik Widéen, Eric energi solfångare solceller pool elkraft värme värmepump The municipal outdoor swimming pools of Bälingebadet, situated in Bälinge north of Uppsala, is today mostly heated by electric heating, and an insufficient solar heating system. Bälingebadet is managed by Sportfastigheter AB, which in turn is owned by Uppsala municipality. Today the facility is plagued by expensive energy costs related to heating of tap-water, pool water and off-season facility heating. Through accumulation of data, simulations and scoping the available market, the paper investigates the needs and alternatives for Bälingebadet. The report provides suggestions in three stages which all correlate to different degrees of lowered energy costs. As a result two solutions are presented. One solution which focuses on the first two stages, combining expanded use of solar heating, the introduction of a heat pump as well as various measures to improve the energy efficiency of the facility. The second solution and third stage expands on the previous stages and introduces photo voltaic-cells that match the new, lowered, electrical power need. Both solutions bring economical and environmental benefits with relatively short payback periods and a reduced electricity consumption of up to 70 %. SLU/Dept. of Energy and Technology 2017 M2 swe eng https://stud.epsilon.slu.se/11654/ |
| spellingShingle | energi solfångare solceller pool elkraft värme värmepump Dahlberg Rosell, Mårten Eriksson, Emil Jonasson, Erik Knudsen, Clara Leao, Theodorik Rahimi Ata, Kooscha-Kevin Strandler, Erik Widéen, Eric Ett självförsörjande utomhusbad |
| title | Ett självförsörjande utomhusbad |
| title_full | Ett självförsörjande utomhusbad |
| title_fullStr | Ett självförsörjande utomhusbad |
| title_full_unstemmed | Ett självförsörjande utomhusbad |
| title_short | Ett självförsörjande utomhusbad |
| title_sort | ett självförsörjande utomhusbad |
| topic | energi solfångare solceller pool elkraft värme värmepump |