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Experimental and numerical investigation of flow pattern inside a farmer house Model

Experimental and numerical investigation of flow pattern inside a farmer house Model. Wael A. Taha Mahmoud A. Hassan Nabil M. Guirguis Institute of environmental research - Munufiya - city of Sadat Housing and national building research center, p.o.box: 1770 - Cairo - Egypt.

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Experimental and numerical investigation of flow pattern inside a farmer house Model

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  1. Experimental and numerical investigation of flow pattern inside a farmer house Model Wael A. Taha Mahmoud A. Hassan Nabil M. Guirguis Institute of environmental research - Munufiya - city of Sadat Housing and national building research center, p.o.box: 1770 - Cairo - Egypt

  2. objectives • Investigate the air flow inside the farmer house with different angle of attack using the CFD. • Investigate the air flow inside the farmer house with different angle of attack using the smoke tunnel. • Comparison between the CFD results with the visualization in smoke tunnel. • Select the most angle of attack which give the best air flow distribution inside the farmer house. • .

  3. Experimental work • A farmer house model was built from transparent plexiglass sheet of thickness 5 mm. The model consists of three bed rooms, a bathroom, an internal half-covered courtyard, kitchen, small bathroom. In the back yard there are two animal hangers with an exposed courtyard. Figures 1 Fig. 1 farmer house

  4. Fig. 2 Photo of the Farmer's House Test Model.

  5. Computational Work • The distributions of air speed and direction inside the farmer house model for several orientations relative to the prevailing wind angles were computed in the form of contours and vectors using the commercial CFD software ANSYS CFD FLOTRAN • The program is based on the finite element approach and uses the k- turbulence model, solving the Reynolds equations, the energy equation and the equations for turbulence energy and its dissipation.

  6. Smoke Test Results Figure 3 Photos of smoke movement with wind normal to front facade

  7. Figure 4 Photos of smoke movement with south-west wind.(45o to façade)

  8. Figure 5 Photos of smoke movement with south-east wind

  9. Figure 6 Contours of Airflow inside House Model with wind Normal to Front Façade

  10. Figure 7 Contours and Vectors of Airflow inside House Model with South-West Wind

  11. Figure 8 Contours and Vectors of s Airflow Inside House Model with south-east Wind.

  12. From the results of laboratory and theoretical studies it can be concluded that:1- It must be taken into account with natural ventilation to separate living rooms from animal's hangers in order to reduce pollution.2- There is good agreement between experimental findings (visualization) and the computational results.3- South-East wind gives better air flow distributions and ventilation.4- Effects of surrounding environmental conditions on the performance of the farmer house must be examined. Conclusion

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