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Science and Technology for the Built Environment Volume 23, 2017 - Issue 3: Selected Extended Papers from the 8th International Cold Climate HVAC Conference (Cold Climate 2015)
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Original Articles

Low-temperature heating in existing Swedish multi-family houses—An assessment of the significance of radiator design and geometry

Qian WangDivision of Fluid and Climate Technology, School of Architectural and Civil Engineering, KTH Royal Institute of Technology, Brinellvagen 23, Stockholm100 44, Sweden;Uponor AB, Västerås, SwedenCorrespondence[email protected]
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,
Adnan PloskićDivision of Fluid and Climate Technology, School of Architectural and Civil Engineering, KTH Royal Institute of Technology, Brinellvagen 23, Stockholm100 44, Sweden;Bravida Holding AB, Hägersten, SwedenView further author information
&
Sture HolmbergDivision of Fluid and Climate Technology, School of Architectural and Civil Engineering, KTH Royal Institute of Technology, Brinellvagen 23, Stockholm100 44, SwedenView further author information
Pages 500-511 | Received 15 Jun 2016, Accepted 19 Dec 2016, Published online: 17 Mar 2017

References

  • Beck, S.B., S.G. Blakey, and M.C. Chung. 2001. The effect of wall emissivity on radiator heat output. Building Services Engineering Research and Technology 22(3):185–94.
  • Beck, S.M.B., S.C. Grinsted, S.G. Blakey, and K. Worden. 2004. A novel design for panel radiators. Applied Thermal Engineering 24(8):1291–300.
  • Björk, C., P. Kallstenius, and L. Reppen. 2002. Så Byggdes Husen 1880–2000 (As Built Houses 1880–2000). Stockholm, Sweden: Forskningsrådet Formas.
  • Boerstra, A., P. Opt Veld, and H. Eijdems. 2000. The health, safety and comfort advantages of low temperature heating systems: A literature review. In Proceedings, Healthy Building, Espoo, Finland, August 6–10.
  • Boverket (Swedish National Board of Housing, Building and Planning). 2009. Så Mår Våra Hus. Redovisning av Regeringsuppdrag Beträäfande Byggnaders Tekniska Utformning m.m (So Feel Our House. Accounting for Government Mandate Building Technical Design, etc.). Karlskrona, Sweden: Boverket.
  • Embaye, M., R.K. Al-Dadah, and S. Mahmoud. 2015. Thermal performance of hydronic radiator with flow pulsation—Numerical investigation. Applied Thermal Engineering 80:109–17.
  • Företagen, V.V.S. 2009. Renoveringshandboken—för Hus Byggda 1950–75 (Renovation Handbook for Houses Built in 1950–75). Stockholm: Wallén Grafiska AB. http://www.e-magin.se/v5/viewer/files/viewer_s.aspx?gKey=7k3vb6s1&gInitPage=9
  • Hasan, A., J. Kurnitski, and K. Jokiranta. 2009. A combined low temperature water heating system consisting of radiators and floor heating. Energy and Buildings 41(5):470–9. http://doi.org/10.1016/j.enbuild.2008.11.016
  • Johansson, P.-O., P. Lauenburg, and J. Wollerstrand. 2011. The Impact from Building Heating System Improvements on the Primary Energy Efficiency of a District Heating System with Cogeneration. Lund, Sweden: Department of Energy Sciences, Lund University. http://www.ees.energy.lth.se/fileadmin/ees/Publikationer/2011/Johansson_et_al_-_The_impact_from_building_heating_system_improvements_-_ECOS_2011.pdf
  • Lauenburg, P., and J. Wollerstrand. 2014. Adaptive control of radiator systems for a lowest possible district heating return temperature. Energy and Buildings 72:132–40. http://doi.org/10.1016/j.enbuild.2013.12.011
  • Li, H., and S. Svendsen. 2012. Energy and exergy analysis of low temperature district heating network. Energy 45(1):237–46. http://doi.org/10.1016/j.energy.2012.03.056
  • Myhren, J.A., and S. Holmberg. 2008. Flow patterns and thermal comfort in a room with panel, floor and wall heating. Energy and Buildings 40(4):524–36. http://doi.org/10.1016/j.enbuild.2007.04.011
  • Myhren, J.A., and S. Holmberg, S. 2013. Performance evaluation of ventilation radiators. Applied Thermal Engineering 51(1–2):315–24. http://doi.org/10.1016/j.applthermaleng.2012.08.030
  • Ploskić, A. 2013. Technical solutions for low-temperature heat emission in buildings. http://www.diva-portal.org/smash/record.jsf?pid=diva2:660277
  • Ploskić, A., and S. Holmberg. 2013. Low-temperature ventilation pre-heater in combination with conventional room heaters. Energy and Buildings 65:248–59. http://doi.org/10.1016/j.enbuild.2013.04.011
  • Ploskić, A., and S. Holmberg. 2014. Performance evaluation of radiant baseboards (skirtings) for room heating—An analytical and experimental approach. Applied Thermal Engineering 62(2):382–9. http://doi.org/10.1016/j.applthermaleng.2013.09.053
  • Purmo. n.d. Purmo radiators. http://www.purmo.com/en/products/radiators.htm
  • Statistiska Centralbyrån (Central Statistics). 2011. Väder (Weather).
  • SVEBY (Standardisera och verifiera energiprestanda för byggnader; Standardize and verify the energy performance of buildings) and P. Levin. 2016. Klimatdatafiler för Sveriges Kommuner (Climate Data Files for Sweden's Municipalities). Göteborg, Sweden: Sveby.
  • Teodosiu, C., F. Kuznik, and R. Teodosiu. 2014. CFD modeling of buoyancy driven cavities with internal heat source—Application to heated rooms. Energy and Buildings 68:403–11.
  • Trüschel, A. 2005. Värdet av Injustering (Value of adjustments; Forskning och Utveckling (Research and Development) No. Art nr FOU 2005:134). Svensk Fjärrvärme (Swedish District Heating). Göteborg, Sweden: Svensk Fjärrvärme AB.
  • Väder Väderprognoser Klimat- & Vädertjänster i Sverige (National Weather Forecast Climate & Weather Services in Sweden). n.d. http://www.smhi.se/#ws=wpt-a,proxy=wpt-a,geonameid=2673730(text)
  • Wang, Q., A. Ploskić, and S. Holmberg. n.d. Retrofitting with low-temperature heating to achieve energy-demand savings and thermal comfort. Energy and Buildings http://doi.org/10.1016/j.enbuild.2015.09.047.
  • Wang, Q., A. Ploskić, and S. Holmberg. 2015. Retrofitting with low-temperature heating to achieve energy-demand savings and thermal comfort[J]. Energy and Buildings 109:217–229.
  • Wang, Q., A. Ploskić, X. Song, and S. Holmberg. 2016. Ventilation heat recovery jointed low-temperature heating in retrofitting—An investigation of energy conservation, environmental impacts and indoor air quality in Swedish multifamily houses. Energy and Buildings 121:250–64. http://doi.org/10.1016/j.enbuild.2016.02.050

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