Floating Airnode Temperature (No Heating or Cooling) 5 –166ĥ.4.1.16. Infiltration, Ventilation, and Convective Coupling 5 –165ĥ.4.1.15. Total Gains from Surfaces in a Airnode 5 –164ĥ.4.1.14. Adjacent, Internal Walls and Walls with Identical Boundary Conditions 5 –163ĥ.4.1.13.
Mathematical Description of Type 56 5 –146ĥ.4.1.1. Convective Heat Flux to the Air Node 5 –146ĥ.4.1.3. Radiative Heat Flows (only) to the Walls and Windows 5 –148ĥ.4.1.4. Integration of Walls and Windows 5 –149ĥ.4.1.5. Transfer Function Method by Mitalas 5 –151ĥ.4.1.7. Detailed Radiation Transfer Model 5 –157ĥ.4.1.8. Distribution of Long-Wave Radiation Internal gains 5 –158ĥ.4.1.9. Distribution of Solar Radiation 5 –159ĥ.4.1.11.
TRNSYS Component Configuration 5 –143ĥ.4. Input Data Limits of TRNBuild 5 –99ĥ.2.10. Building Input Description File(BUI) - Created By TRNBuild 5 –99ĥ.2.10.1. Coupling between airnodes of same zone 5 –88ĥ.2.7.1. Generating TYPE56 Standard Files 5 –94ĥ.2.7.2. Generating Shading / Insolation matrix 5 –95ĥ.2.7.3. Generating view factor matrix 5 –96ĥ.2.7.4. Maximum heat load calculation 5 –96ĥ.2.9. The Project Initialization Window 5 –19ĥ.2.4.1. Input of the Required Regime Data 5 –49ĥ.2.4.10. MULTIZONE BUILDING MODELING WITH T YPE56 AND TRNBUILD 5 –8ĥ.2.2.2. Opening and Creating a New File 5 –14ĥ.2.2.4. Specifying the Required Input 5 –16ĥ.2.3. Sections which are new compared to TRNSYS Version 16 are marked in red.ĥ. Programs and their availability can be obtained from the TRNSYS distributor from which youĮ-mail: which are new compared to TRNSYS Version 15 are marked in blue.
The TRNBuild program described in this manual was developed by TRANSSOLARĮnergietechnik GmbH, the German distributor of TRNSYS. Or by any means without prior written consent from the Solar Energy Laboratory, University of ExceptĪs permitted by any such license, no part of this manual may be copied or reproduced in any form
This manualĪnd the software may be used or copied only under the terms of the license agreement. The software described in this document is furnished under a license agreement. © 2005 by the Solar Energy Laboratory, University of Wisconsin-Madison Of any information, apparatus, product or process disclosed, or represents that its use would not Or implied, or assumes any liability or responsibility for the accuracy, completeness or usefulness Limited to the University of Wisconsin Solar Energy Laboratory, makes any warranty, expressed Their employees, nor any of their contractors, subcontractors, or employees, including but not Neither the United States or the United States Department of Energy, nor any of This report was prepared as an account of work partially sponsored by the United States
Solar Energy Laboratory, University of Wisconsin-Madison1500 Engineering Drive, 1303 Engineering Research BuildingĮmail: +1 (608) 263 1586Fax: +1 (608) 262 8464 Website or from the TRNSYS coordinator at the Solar Energy Lab: Registered users on the TRNSYS website (see here below).įurther information about the program and its availability can be obtained from the TRNSYS The latest version of this manual is always available for Detailed information concerning these programs can be found in other Intended to provide detailed information about the TRNSYS simulation software nor any of itsother utility programs. It includes a description of the building model (knownĪs Type 56) and a user guide for the associated visual interface (TRNBuild). Multizone building simulation with TRNSYS. The information presented in this manual is intended to provide a complete reference on TESS – Thermal Energy System Specialists, LLC of Wisconsin-MadisonĬSTB – Centre Scientifique et Technique du Bâtiment TRNSYS 17 – Multizone Building modeling with Type56 and TRNBuildĪ T R a N s i e n t S Y s t e m S i m u l a t i o n p r o g r a m