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  • Optimizing Utility Façades: Sunshade & Ventilation Perforated Metal Cladding with Anti‑Dust Finish
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  • Optimizing Utility Façades: Sunshade & Ventilation Perforated Metal Cladding with Anti‑Dust Finish

    Utility Façade Cladding System: Shade + Ventilation + Anti-Dust
    This high-performance façade solution is engineered for utility and back-of-house zones exposed to dust, solar heat, and heavy airflow loads. The integrated system includes:

    • Sunshade Fins: Heavy-duty powder-coated aluminum fins projecting 250–300 mm, angled for solar control.

    • Ventilated Cavity: 30–50 mm deep air channel behind panels for passive exhaust, heat dissipation, and airflow from base intake to parapet outlets.

    • Perforated Panels: Open area 20–28%, aluminum with nano-ceramic anti-dust coating, reducing PM2.5 and PM10 particle adhesion by up to 78%.

    Case Study: Airport Facility, Doha

    • Before: Surface temperatures reached up to 68°C; filter maintenance required every 28 days.

    • After: Temperatures dropped to 58–60°C; filter cycle extended to 60 days; dust buildup reduced by 65%; 43% fewer maintenance interventions.

    Why It Works

    • Controls solar gain and surface temperature

    • Reduces HVAC stress in plant areas

    • Prevents dust clogging with anti-static coating

    • Supports long-term performance with minimal upkeep

    Ideal Applications

    • Industrial service façades

    • Airport mechanical enclosures

    • Utility walls in logistics centers

    • Rooftop plant zones


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Description

Utility Façade Cladding System: Shade + Ventilation + Anti-Dust
This high-performance façade solution is engineered for utility and back-of-house zones exposed to dust, solar heat, and heavy airflow loads. The integrated system includes:

  • Sunshade Fins: Heavy-duty powder-coated aluminum fins projecting 250–300 mm, angled for solar control.

  • Ventilated Cavity: 30–50 mm deep air channel behind panels for passive exhaust, heat dissipation, and airflow from base intake to parapet outlets.

  • Perforated Panels: Open area 20–28%, aluminum with nano-ceramic anti-dust coating, reducing PM2.5 and PM10 particle adhesion by up to 78%.

Case Study: Airport Facility, Doha

  • Before: Surface temperatures reached up to 68°C; filter maintenance required every 28 days.

  • After: Temperatures dropped to 58–60°C; filter cycle extended to 60 days; dust buildup reduced by 65%; 43% fewer maintenance interventions.

Why It Works

  • Controls solar gain and surface temperature

  • Reduces HVAC stress in plant areas

  • Prevents dust clogging with anti-static coating

  • Supports long-term performance with minimal upkeep

Ideal Applications

  • Industrial service façades

  • Airport mechanical enclosures

  • Utility walls in logistics centers

  • Rooftop plant zones


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