## **Natural Smoke Ventilation Systems**

Natural Smoke Ventilation Systems (NSVS) use natural airflow to extract smoke and heat from buildings during a fire. They play a vital role in life safety and fire protection, particularly in residential and low-rise commercial buildings. In the UK, they are guided by **Approved Document B**, **BS EN 12101-2**, and **BS 9991** (among others).

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### **Purpose of Natural Smoke Ventilation**

- Maintain smoke-free escape routes for safe evacuation.
- Assist fire and rescue teams by improving visibility.
- Reduce the build-up of smoke and hot gases.
- Minimise damage to structure and contents of the building.

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### **How Natural Smoke Ventilation Works**

Natural smoke ventilation relies on the **buoyancy of hot smoke**, which rises and exits through high-level vents, while cooler air enters from below.

**Basic process:**
1. A fire triggers smoke detection or manual control.
2. High-level vents (AOVs) automatically open.
3. Rising smoke escapes through these vents.
4. Cooler replacement air flows in through lower-level openings.

This creates a natural airflow path that extracts smoke without powered fans.

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### **Key Components of a Natural System**

| **Component**            | **Function** |
|--------------------------|--------------|
| **Automatic Opening Vents (AOVs)** | High-level windows, roof hatches or louvres that open during fire conditions. |
| **Smoke Shafts**         | Vertical ducts that collect and exhaust smoke from corridors/lobbies in multi-storey buildings. |
| **Control Panels**       | Manage signals from detectors or manual inputs to activate vents. |
| **Detectors / Manual Switches** | Trigger the system in the event of a fire. |
| **Low-Level Air Inlets** | Allow fresh air in to support smoke extraction. |

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### **Where Natural Smoke Ventilation is Used**

- Apartment stairwells and corridors (≤18m building height).
- Low-rise offices, schools, and healthcare premises.
- Commercial buildings with atriums or rooflights.
- Protected lobbies and escape routes.

> 📏 **Note**: According to **BS 9991:2024**, natural systems can be used in buildings up to **30m** tall under strict conditions. Beyond this, mechanical ventilation is usually required.

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### **Relevant UK Standards & Regulations**

| **Standard / Document**  | **Purpose** |
|--------------------------|-------------|
| **Approved Document B**  | Building Regulations guidance on smoke control design. |
| **BS EN 12101-2**        | Product standard for smoke and heat exhaust ventilators (NSHEVs). |
| **BS 9991 (Residential)**| Design guidance for residential fire safety (updated 2024). |
| **BS 9999 (Non-Res)**    | Fire safety design framework for commercial/non-domestic premises. |

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### **Advantages of Natural Systems**

| **Pros**                                    | **Cons** |
|---------------------------------------------|----------|
| Simple, passive design – fewer moving parts | Performance depends on external conditions |
| No fan power or backup generator needed     | Not suitable for tall or complex buildings |
| Cost-effective installation and operation   | Requires strategic vent placement and sizing |
| Lower maintenance requirements              | May not meet modern performance demands alone |

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### **Design Considerations**

- **Aerodynamic Free Area (AFA):** Vents must meet minimum AFA requirements (usually 1.0 m² for lobbies).
- **Location of Vents:** Typically installed at the highest point (roof or top-floor wall).
- **Travel Distances:** Corridor length and layout must allow occupants to reach fresh-air zones safely.
- **Vent Control:** System should integrate with fire detection and allow manual override.
- **Shaft Requirements:** If used, shafts must be vertical, fire-rated, and unobstructed.

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### **Maintenance & Testing (Basic Overview)**

Natural smoke systems must be maintained regularly to remain compliant and operational.

| **Test Type**             | **Frequency**         | **Details** |
|---------------------------|-----------------------|-------------|
| **Weekly Visual Inspection** | Weekly            | Check for physical damage or obstruction to vents. |
| **Monthly Functional Test**  | Monthly           | Simulate smoke input and confirm AOV activation. |
| **Six-Monthly Inspection**   | Every 6 months    | Engineer checks of panels, detectors, actuators, and control logic. |
| **Annual Service**           | Annually          | Full-duration test and certification of system performance. |

> 🔧 Vent actuators, batteries (if present), and manual call points should be function-tested to ensure reliability during an emergency.

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### **Best Practice Tips**

- All vents should have **manual override** for fire service use.
- Ensure vents are **clearly labelled** and unobstructed at all times.
- Maintain an **on-site logbook** for all inspections and servicing.
- Use **tested and certified** components in line with BS EN 12101-2.