Advanced use of HAMLab on Common Exercise 1 - Reference: A41-T1-NL-04-05

A.W.M. Schijndel, van

Advanced use of HAMLab on Common Exercise 1 - Reference: A41-T1-NL-04-05

A.W.M. Schijndel, van

Building Physics

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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Abstract

In this paper, the advanced use of HAMLab (Heat, Air & Moisture simulation Laboratory) on Common Exercise 1 (CE1) is given. The aim to show more capabilities of HAMLab compared with paper [TUE Oct 2004 Paper A41-T1-Nl-04-4]. The first Section presents a comparison between the post processing approach and a full coupling between HAMBase and FemLab. It seems that the post processing approach can be applied in this case. Section 2 shows how the 1D FemLab model can be extended to 2D and 3D. Section 3 shows the results of a parameter study. A preliminary conclusion is that non-material based parameters as mentioned in Section 3.1, whose values are uncertain in reality, have a great impact on the Rh of the indoor air. Appendix A contains the complete mfiles for used S-Function of the full coupling model of Section 1. Appendix B contains the complete mfile for 2D extension of the roof. Appendix C contains the complete mfile for 3D extension of the roof.

Original language	English
Title of host publication	Whole building heat, air and moisture transfer : IEA ECBCS Annex 41, working meeting, Trondheim, October 2005
Pages	1-22
Publication status	Published - 2004
Event	Whole building heat, air and moisture transfer : IEA ECBCS Annex 41, 4th working meeting, Trondheim - Duration: 26 Oct 2005 → 28 Oct 2005

Conference

Conference	Whole building heat, air and moisture transfer : IEA ECBCS Annex 41, 4th working meeting, Trondheim
Period	26/10/05 → 28/10/05

Cite this

@inproceedings{6dd709a64817410cbe4c74008b1246be,

title = "Advanced use of HAMLab on Common Exercise 1 - Reference: A41-T1-NL-04-05",

abstract = "In this paper, the advanced use of HAMLab (Heat, Air & Moisture simulation Laboratory) on Common Exercise 1 (CE1) is given. The aim to show more capabilities of HAMLab compared with paper [TUE Oct 2004 Paper A41-T1-Nl-04-4]. The first Section presents a comparison between the post processing approach and a full coupling between HAMBase and FemLab. It seems that the post processing approach can be applied in this case. Section 2 shows how the 1D FemLab model can be extended to 2D and 3D. Section 3 shows the results of a parameter study. A preliminary conclusion is that non-material based parameters as mentioned in Section 3.1, whose values are uncertain in reality, have a great impact on the Rh of the indoor air. Appendix A contains the complete mfiles for used S-Function of the full coupling model of Section 1. Appendix B contains the complete mfile for 2D extension of the roof. Appendix C contains the complete mfile for 3D extension of the roof.",

author = "{Schijndel, van}, A.W.M.",

year = "2004",

language = "English",

pages = "1--22",

booktitle = "Whole building heat, air and moisture transfer : IEA ECBCS Annex 41, working meeting, Trondheim, October 2005",

note = "Whole building heat, air and moisture transfer : IEA ECBCS Annex 41, 4th working meeting, Trondheim ; Conference date: 26-10-2005 Through 28-10-2005",

}

TY - GEN

T1 - Advanced use of HAMLab on Common Exercise 1 - Reference: A41-T1-NL-04-05

AU - Schijndel, van, A.W.M.

PY - 2004

Y1 - 2004

N2 - In this paper, the advanced use of HAMLab (Heat, Air & Moisture simulation Laboratory) on Common Exercise 1 (CE1) is given. The aim to show more capabilities of HAMLab compared with paper [TUE Oct 2004 Paper A41-T1-Nl-04-4]. The first Section presents a comparison between the post processing approach and a full coupling between HAMBase and FemLab. It seems that the post processing approach can be applied in this case. Section 2 shows how the 1D FemLab model can be extended to 2D and 3D. Section 3 shows the results of a parameter study. A preliminary conclusion is that non-material based parameters as mentioned in Section 3.1, whose values are uncertain in reality, have a great impact on the Rh of the indoor air. Appendix A contains the complete mfiles for used S-Function of the full coupling model of Section 1. Appendix B contains the complete mfile for 2D extension of the roof. Appendix C contains the complete mfile for 3D extension of the roof.

AB - In this paper, the advanced use of HAMLab (Heat, Air & Moisture simulation Laboratory) on Common Exercise 1 (CE1) is given. The aim to show more capabilities of HAMLab compared with paper [TUE Oct 2004 Paper A41-T1-Nl-04-4]. The first Section presents a comparison between the post processing approach and a full coupling between HAMBase and FemLab. It seems that the post processing approach can be applied in this case. Section 2 shows how the 1D FemLab model can be extended to 2D and 3D. Section 3 shows the results of a parameter study. A preliminary conclusion is that non-material based parameters as mentioned in Section 3.1, whose values are uncertain in reality, have a great impact on the Rh of the indoor air. Appendix A contains the complete mfiles for used S-Function of the full coupling model of Section 1. Appendix B contains the complete mfile for 2D extension of the roof. Appendix C contains the complete mfile for 3D extension of the roof.

M3 - Conference contribution

SP - 1

EP - 22

BT - Whole building heat, air and moisture transfer : IEA ECBCS Annex 41, working meeting, Trondheim, October 2005

T2 - Whole building heat, air and moisture transfer : IEA ECBCS Annex 41, 4th working meeting, Trondheim

Y2 - 26 October 2005 through 28 October 2005

ER -

Advanced use of HAMLab on Common Exercise 1 - Reference: A41-T1-NL-04-05

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