Conceptual Reference Database for Building Envelope Research Prev
Next

Prediction of driving rain intensities using potential flows

Hagentoft, C. and H?gberg, A.
2002
6th Symposium on Building Physics in the Nordic Countries, Trondheim, Norway, Jun 17

Hagentoft, C. and H?gberg, A., (2002), "Prediction of driving rain intensities using potential flows", 6th Symposium on Building Physics in the Nordic Countries, Trondheim, Norway, Jun 17.
Abstract:
brief review of driving rain studies.
Related Resources:

This publication in whole or part might be found online. Check the sources on the related article below. Or use search engines on the web.
Related Concepts

Author Information and Other Publications Notes
Hagentoft, C.
Chalmers University of Technology, Gothenburg, Sweden.
  1. A numerical method for calculating combined heat, air and moisture transport in building envelope components
  2. A numerically stable algorithm for simplified calculations of combined heat, air and moisture transport
  3. An algorithm to accelerate simulations of simulataneous heat and gas transfer in gas-filled foams
  4. An example of application of limit state approach for reliability analysis of moisture performance of a building component
  5. Assessment method of numerical prediction models for combined heat, air and moisture transfer in building components: benchmarks for one-dimensional cases
  6. Combined Heat, Air, and Moisture Transport in Loose-Filled Insulation - Experiment and Simulation
  7. Durability control by means of hygrothermal history in building components
  8. International building physics toolbox, general report
  9. Moisture conditions in a north-facing wall with cellulos loose-fill insulation: construction with and without a vapor retarder and air leakage
  10. Simulink modelling tool for HAM system analyses in building physics
  11. The International Building Physics Toolbox in Simulink  
H?gberg, A.
Department of Building Physics, Chalmers University of Technology, G?teborg, Sweden.
  1. Determination and validation of the microclimate load: Driving rain and solar radiation
  2. Microclimate: field measurements, driving rain analyses  


CRDBER, at CBS, BCEE, ENCS, Concordia,