Rose, J., Lahme, A., Christensen, N. U., Heiselberg, P., Hansen, M., & Grau, K. (2009). Numerical method for calculating latent heat storage in constructions containing phase change material. 400-407. Afhandling præsenteret på 11th International IBPSA Conference - Building Simulation 2009, BS 2009, Glasgow, Storbritannien.

Scarpa, M., Sørensen, K. G., & Olesen, B. W. (2009). Development and validation of a versatile method for the calculation of heat transfer in water-based radiant systems. I University of Strathclyde, Glasgow 27th - 30th July, Proceedings of the 11th International Building Performance Simulation Association Conference (Eleventh International IBPSA Conference) (s. 688-695). IBPSA.

Larsen, O. K., Heiselberg, P., Felsmann, C., Poirazis, H., Strachan, P., & Wijsman, A. (2009). An Empirical Validation of Building Simulation Software for Modelling of Double-Skin Facade (DSF). I P. A. Strachan, N. J. Kelly, & M. Kummert (red.), Building Simulation 2009 : University of Stractclyde, Glosgow, 27th-30th July: Proceedings of the 11th International Building Performance Simulation Association Conference Energy Systems Research Unit : University of Strathclyde.

Jensen, R. L., Kalyanova, O., & Heiselberg, P. (2008). Modeling a Naturally Ventilated Double Skin Façade with a Building Thermal Simulation Program. I C. Rode (red.), Proceedings of the 8th Symposium on Building Physics in the Nordic Countries: Nordic Symposium on Building Physics 2008, NSB2008 (Bind 1, s. 143-150). Technical University of Denmark (DTU). BYGDTU Report Nr. R-189

Wargocki, P., & Knudsen, H. N. (2008). Saving energy for ventilation by careful selection of building materials. Nordic Journal of Building Physics: Acta Physica Aedificiorum.

Christensen, J.E. A Method for more specific Simulation of Operative Temperature in Thermal Analysis Programmes. Building Physics 2008 - 8th Nordic Symposium, p. 551-558. Copenhagen June 16-18, 2008.

Pedersen, F., Hansen, K., Wittchen, K. B., Sørensen, K. G., & Johnsen, K. (2008). Combining building thermal simulation methods and LCA methods. I C. Rode (red.), Proceedings of the 8th Symposium on Building Physics in the Nordic Countries: Nordic Symposium on Building Physics 2008, NSB2008 (Bind 2, s. 605-611). Technical University of Denmark (DTU). BYGDTU Report Nr. R-189

Rode, C., & Sørensen, K. G. (2008). Moisture buffering and its consequence in whole building hygrothermal modeling. Journal of Building Physics, 31(4), 333-360. https://doi.org/10.1177/1744259108088960

Kim B. Wittchen. Brug af BSim til simulering af bygningers kølebehov. Danske Køledage 2008. Odense, 13-14 marts 2008. 

Jensen, R. L., Sørensen, K. G., & Heiselberg, P. (2007). Integration of a Multizone Airflow Model into a Thermalsimulation Program: . I BS07: Proceedings of the 10th International Building Performance Simulation Association Conference and Exhibition (s. 7). Tsinghua University.

Grau, K., & Rode, C. (2006). A Model for Air Flow in Ventilated Cavities Implemented in a Tool for Whole-Building Hygrothermal Analysis. Working paper A41-T1-DK-06-1 for IEA Annex 41 Meeting, October 25-27, 2006. Lyon.

Tønnes, R. Udvidet mulighed for at simulere naturlig ventilation med BSim. Forsk22 - Nyhedsbrev fra Statens Byggeforskningsinstitut, December 2006.

Karl Grau and Carsten Rode. A model for air flow in ventilated cavities implemented in a tool for whole-building hygrothermal analysis. IEA Annex 41 meeting, October 2006, Lyon, France.

Wittchen KB, Løgberg E, Pedersen S, Djurtoft R & Thiesen J. Use of Weather Forecasts to Control Night Cooling. International Building Performance Simulation Association (IBPSA), Building Simulation 2005. 12-15 august 2005, Montreal, Canada.

Crawley DB, et al. Contrasting the capabilities of building energy performance simulation programs (paper). International Building Performance Simulation Association (IBPSA), Building Simulation 2005. 12-15 august 2005, Montreal, Canada.

Crawley DB, et al. Contrasting the capabilities of building energy performance simulation programs (report). U.S. Department of Energy, Washington DC, USA. July 2005.

Andersen A, Havgaard M & Grau K. Naturlig ventilation i BSim2002. Danvak Magasinet, december 2003.
Johnsen, K. Simulering af gulvvarmesystemer. Danvak Magasinet, nr. 9, september 2003.

Rode, C., Salonvaara, M., Ojanen, T., Simonson, C., & Grau, K. (2020). Integrated hygrothermal analysis of ecological buildings. In Research in Building Physics (pp. 859-868). CRC Press.

Sørensen, K. G., & Wittchen, K. B. (2003). Visualisation of building models. I In Building Simulation 2003: Eigth International IBPSA Conference, For better building design (Bind 1, s. 415-420)

Wittchen, K. B. (2003). Building integrated photovoltaics in a thermal building simulation tool. I In Building Simulation 2003: Eigth International IBPSA Conference, For better building design (Bind 3, s. 1417-1421). IBPSA.

Rode, C., & Sørensen, K. G. (2010). Whole building hygrothermal simulation model. Afhandling præsenteret på American Society of Heating, Refrigeration and Air-Conditioning Engineers, Recent Advances in Energy Simulation: Building Loads, Symposium CH-03-09, Chicago, USA.

Wittchen KB. Beregn ydelsen fra solceller med BSim. Danvak magasinet, nr. 2, februar 2003.

Rode C & Grau K. Komplet beregning af bygningers varme- og fugttekniske forhold. VVS bladet, nr. 3, januar 2003.

Rode, C., Sørensen, K. G., Sørensen, L. C., & Christoffersen, L. D. (2002). Application of a computer model for integrated hygrothermal building analysis. Afhandling præsenteret på Symposium for Building Physics, Dresden, Tyskland.

Sørensen, K. G., & Rode, C. (2002). Simulation of whole-building hygrothermal conditions. Afhandling præsenteret på 8th International Conference - Air Distribution in Rooms, ROOMVENT 2002, København, Danmark.

Wittchen KB, Grau K & Johnsen K. Nye muligheder med BSim2002. Danvak magasinet, 6/7 juni/juli 2002. 

Rode, C., & Sørensen, K. G. (2002). Integrated calculation of hygrothermal conditions of buildings. I Proceedings of the 6th Symposium on Building Physics in the Nordic Countries (Bind 1, s. 23-30). Norwegian University of Science and Technology.

Clasen G. Fugt i facader kan simuleres. FORSK07 - Nyhedsbrev fra Statens Byggeforskningsinstitut, Juni 2002.

Rode, C., Sørensen, K. G., & Mitamura, T. (2001). Model and experiments for hygrothermal conditions of the envelope and indoor air of buildings. Afhandling præsenteret på Performance of exterior envelopes of whole buildings VIII. Integration of building envelopes 2, Florida, USA.

Rode, C., & Sørensen, K. G. (2001). Synchronous calculation of transient hygrothermal conditions of indoor spaces and building envelopes. I Building simulation 2001

Grau K, Ryberg H & Djurtoft R. Integreret bygningsprojektering med edb - afprøvning i praksis. Danvak VVS-bladet 2/2000.

Grau K. Integreret projektering med edb. Danvak VVS-bladet 1/2000.

Sørensen, K. G., & Wittchen, K. B. (1999). Building design system and CAD integration. I N. Nakahara (red.), Proceedings of the Sixth International IBPSA Conference (Bind 3, s. 1157-1164). IBPSA.

Johnsen, K. (1995). General shading model for solar building design. A S H R A E Technical Data Bulletin, 11(3), 100-112.

BSim har ikke været igennem en omfattende validering, men forløberen, tsbi3, var del af en større empirisk validering gennemført under det Internationale Energi Agentur's Solar Heating and Cooling program's task 12 - Building Energy Analysis and Design Tools For Solar Applications. De centrale algoritmer i BSim er for den største dels vedkommende de samme som i tsbi3.

Rapporten "Empirical Validation of Thermal Building Simulation Programs Using Test Room Data" med resultaterne fra valideringen der består af tre bind kan hentes i PDF format på projektets hjemmeside:
IEA-SHC || Task 12.