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Passive cooling

Passive cooling . Passive cooling . 1.Heat avoidance; Minimizing heat gain in the building 2. Passive cooling; lowering temperatures  mainly through ventilation 3. Mechanical cooling if not enough  Not passive . First avoid heat through:. First avoid heat through: Shading

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Passive cooling

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  1. Passive cooling

  2. Passive cooling 1.Heat avoidance; Minimizing heat gain in the building 2. Passive cooling; lowering temperatures  mainly through ventilation 3. Mechanical cooling if not enough  Not passive

  3. First avoid heat through:

  4. First avoid heat through: • Shading • Orientation • light colors • vegetation • insulated envelope

  5. Passive cooling • Passive cooling depends highly on the climate and it differs from one to another. • Hot and dry treatments: • Few & small windows. • Light surface colors • Massive construction (thick walls of adobe, brick or stone) • High ceilings

  6. Construction Thick walls Domes roof

  7. Thick walls Small openings Deep Courtyards Narrow alleys Shaded areas

  8. Mesa verde, colorado

  9. Old and new

  10. Differences in ceiling heights winter summer

  11. Hot and very humid climates treatment • Lightweight structures • Maximum ventilation • Shading • Minimize thermal mass

  12. Light structures Maximum ventilation Shadings Minimize thermal mass Movable wall panels Maximum ventilation

  13. built of a raised light wood frame tall openings to maximize ventilation very high ceiling Deep shaded verandas

  14. Passive cooling • Passive cooling is achieved through : • Ventilation • Radiant cooling • Evaporative cooling • Earth cooling

  15. 1-Passive ventilation • Ventilation: • Thermal mass thick and insulated • Operable windows opened at night & closed at day

  16. Passive Ventilation Ventilation forms: • Wind scoops

  17. Wind towers

  18. mashrabiya

  19. Smart facades • The Commerzbank Headquarters Building in Frankfurt, Germany, designed by Foster and Partners

  20. 2-Radiant cooling • Thermal mass  stores during the day  emits during the night Passive solar: collects heat during the day and warm the area at night Passive cooling: get rid on heat at night and have cooler mornings through the use of insulation (heat sink during the day)

  21. Harold Hay; plastic bags with water

  22. 3.Evaporative cooling • When water evaporates it draws heat out and temperatures drop 1.Direct evaporation

  23. Geothermal cooling systems

  24. InDirect evaporation

  25. Water for cooling • contact between cool water and hot dry air produces evaporations and results in a heat loss to surrounding areas.

  26. Combination of domes, wind catchers, courtyard and water

  27. Earth cooling

  28. the world’s first wind-powered mega structure

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