EDP Sciences logo
Web of Conferences logo
Search
Menu
All issues Volume 362 (2022) E3S Web Conf., 362 (2022) 03001 References
Open Access
Issue
E3S Web Conf.
Volume 362, 2022
BuildSim Nordic 2022
Article Number 03001
Number of page(s) 8
Section Users, Tools and Software
DOI https://doi.org/10.1051/e3sconf/202236203001
Published online 01 December 2022
  1. Adamson B. (1968). Värmebalans vid rum och byggnadder. Tekniska Högskolan i Lund (Sweden). [Google Scholar]
  2. Building Regulations - BR18, [Bygningsreglement], Danmark. (2018). Danish Building regulation 2018. Viewed 30 March 2022, from url: https://bygningsreglementet.dk/. (Denmark). [Google Scholar]
  3. Building Regulations Guide - BR18, [Bygningsreglement vejledning], Danmark. (2018). Bygningsreglementets vejledning om termisk indeklima og installationer til varme- og køleanlæg 2018. (Denmark). [Google Scholar]
  4. BSim (Building Simulation). (2022). Integrated computer tool for design of buildings and installations. BUILD & SBI - The Danish Building Research Institute. Aalborg University (Denmark). [Google Scholar]
  5. Christensen, J.E. (2017). Bygningsdynamik - kapitel 12, Energirigtigt drift af det rette indeklima i bygninger — EnDrIn. [Building Dynamic - chapter 12, Right operation of buildings with respect to indoor climate and energy consumption]. ELFORSK 2017, Project number 348-006 (Denmark). [Google Scholar]
  6. Christensen, J.E., Vergo W.K.K., Gimeno J.F., (2020). Simplified Tool for Pre-Designing Ventilation Air Flow in Greenland, Proceedingsfrom BSN 2020: BuildSim-Nordic 2020. Oslo (Norway), 13-14 October 2020. [Google Scholar]
  7. DMI - Danish Ministry of Climate, Energy and Building. Wang, P.G., Scharling, M., Nielsen, K.P., Wittchen, K.B. & Hansen, C.K. (2013). 2001 — 2010 Danish Design Reference Year — Reference Climate Dataset for Technical Dimensioning in Building, Construction and other Sectors. Technical Report 13-19. Copenhagen (Denmark). [Google Scholar]
  8. DS_EN 16798-2:2019. (2019-2). Energy performance of buildings — Ventilation for buildings — Part 2: Interpretation of the requirements in EN 16798-1 — Indoor environmental input parameters for design and assenssment of energy performance of buildings addressing indoor air quality, thermal environment, lighthing and acoustics — Module M1-6. Danish Standard. Nordhavn (Denmark). [Google Scholar]
  9. DS 474:1993 (rettet 2017-udgave). (1993). Dansk Standard, Norm for specifikation af termisk indeklima. [Danish Standard 474:1993 (Corrrected 2017-edition. Code for Indoor Thermal Climate], Danish Standard. Nordhavn (Denmark). [Google Scholar]
  10. Hansen, H.E., Kjerulf-Jensen, P., & Stampe, O.B. (1988). DANVAK — Varme- og klimateknik grundbog. Jørgen Erik Christensen Kapitel 4 - Varmebalance. [Heating and climate engineering basic book, Chapter 4 Heat Balance]. 1st Edition, pp. 91–108.. Teknisk forlag, ISBN 87-982652-1-0. Copenhagen (Denmark). [Google Scholar]
  11. IDA ICE: IDA Indoor Climate and Energy [simulation software]. (2022). EQUA Simulation AB. Stockholm (Sweden). [Google Scholar]
  12. IEA - International Energy Agency, Empirical validation of thermal building simulation programs using test room data, Volume 1: Final report, K.J. Lomas, H. Eppel, C. Martin, D. Bloomfield. A co-operative project between: IEA Energy Conservation and Community Systems Programme - Annex 21 and IEA Solar Heating and Cooling Programme - Task 12, September 1994. Viewed 19 March 2022. [Google Scholar]
  13. Johnsen K. (1985). Brugervejledning for edb- programmet, tsbi, termisk simulering af bygninger og installationer. [User Guide for the computer program, tsbi 2.1, thermal simulation of buildings and installations]. SBI forlag. ISBN 87-563-0611-3. Hørsholm (Denmark). [Google Scholar]
  14. TCD Vent. (2018). Christensen, J.E., Treschow, C.K. TCD Vent — Design of the overall ventilation system. Technical University of Denmark, Department of Civil Engineering, Kgs Lyngby (Denmark). [Google Scholar]
  15. TCD2. (2019). Gimeno J.F., Christensen, J.E. TCD2 — Thermal Calculation Design 2. Technical University of Denmark, Department of Civil Engineering, Kgs Lyngby (Denmark). [Google Scholar]
  16. MagiCAD for MEP. (2022). Design Software within Revit & AutoCAD. [Google Scholar]
  17. Valbjørn, O., Laustsen S., Høwisch J., Nielsen O., Nielsen P.A. (2000). Indeklimahåndbogen, 2. udgave [The indoor climate handbook, 2nd edition]. SBI- Anvisning 196, SBI - Statens Byggeforskningsinstitut. Hørsholm (Denmark) [Google Scholar]
  18. Vorre, M.H., Wagner, M.H., Maagaard S.E., Noyé P.L., Lynge, N. & Mortensen, L. (2017). Branchevejledning for indeklimaberegninger. [Industry guidelines for indoor climate calculations]. InnoBYG / The Danish Building Research Institute, ISBN 978-87-563-1850-1 (Denmark). [Google Scholar]
  19. Vergo, W.K.K (2018). Development of solar data from weather data for calculation of thermal indoor climate in Greenland, Report, Technical University of Denmark, Department of Civil Engineering, Kgs. Lyngby (Denmark). [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.