| Customization: | Available |
|---|---|
| Agent: | CO2 |
| Type: | Automatic Total Flooding |
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| Product Description: |
A CO2 Total Flooding Fire Suppression System with a Weighing Device| Specifications: |
| Item | Specifications | Technical Parameters |
| 1 | Device Model | PCTW-70 PCTW-80 PCTW-90 PCTW-100 PCTW-120 |
| 2 | Capacity | 70L 80L 90L 100L 120L |
| 3 | Filling Volume of Gas | 45kg 50kg 58kg 65kg 76kg |
| 4 | Working Pressure | 5.7Mpa |
| 5 | Max Working Pressure | 15MPa |
| 6 | Spraying Time | ≤60s |
| 7 | Max Filling Rate | 0.786kg/L |
| 8 | Power | DC24V/1.6A |
| 9 | Working Pressure of Releasing Device | Container Valve: 19±0.95MPa; Manifold: 15±0.75MPa |
| 10 | Condition of Reserving Room for Container | Temperature: 0~50ºC |
| Detailed Components |
| 3. Fire Detection System Purpose: Detects a fire and activates the CO2 discharge. Components:Smoke Detectors: Sense the presence of smoke in the protected area. Heat Detectors: Trigger the system when the temperature rises to a predetermined level. Control Panel: Central system that processes signals from detectors and decides when to release the CO2. 4. Discharge Nozzles Purpose: Distribute CO2 evenly throughout the protected space to achieve the required concentration to suppress the fire. Design: Strategically placed to ensure full coverage. The nozzles are designed to release the gas in a fine mist or wide spray to flood the area quickly. |
5. Piping Network Purpose: Transports CO2 from the cylinders to the discharge nozzles. Design: Consists of durable pipes designed to withstand the pressure of the CO2 gas. The network is installed throughout the protected area to deliver CO2 where it's needed. 6. Automatic Release Mechanism Purpose: Initiates the release of CO2 when the system detects a fire. Components:Solenoid Valves: Electrically |
| Product Features |
| 1. Total Flooding Capability Full Coverage: The system floods the protected area with CO2 gas, displacing oxygen and extinguishing the fire. This ensures that all corners, including hard-to-reach areas, are covered. Rapid Suppression: CO2 works quickly to suppress fires, making the system highly effective in minimizing damage and reducing downtime. 2. Weighing Device for Continuous Monitoring Constant Cylinder Monitoring: The weighing device continuously monitors the weight of CO2 cylinders, ensuring that they are fully charged and ready for use. Leak Detection: Any decrease in cylinder weight triggers an alarm, indicating a potential leak or loss of CO2. This allows for proactive maintenance and reduces the risk of system failure during a fire. Safety Compliance: The weighing system ensures that the system complies with safety regulations, as it guarantees that the correct amount of CO2 is always available. |
3. Non-Conductive and Residue-Free Safe for Electronics: CO2 is non-conductive, making it ideal for environments with sensitive electrical and electronic equipment (such as data centers, server rooms, and control panels). No Clean-Up: CO2 is a gas, so there's no residue left behind after discharge. This eliminates the need for post-fire clean-up, reducing operational downtime. 4.Automatic and Manual Activation Automatic Detection: The system can be triggered automatically by smoke or heat detectors, ensuring rapid response in case of a fire. Manual Activation: In addition to automatic activation, the system includes manual pull stations, giving personnel the ability to release CO2 in an emergency. |
| 5. Pre-Discharge Warning System Audible and Visual Alerts: Since CO2 can be dangerous to humans at high concentrations, the system is equipped with alarms (audible sirens and flashing lights) to warn personnel to evacuate before the gas is discharged. Delay Mechanism: A time delay is often built into the system, allowing for a safe evacuation before CO2 release. 6. High Pressure and Efficient Delivery High-Pressure System: The CO2 is stored in high-pressure cylinders, allowing for rapid release and effective fire suppression. Strategic Nozzle Placement: Discharge nozzles are positioned to ensure even and thorough distribution of CO2 throughout the protected space. 7. Minimal Downtime Quick Suppression and Restoration: Since the system suppresses fires rapidly without leaving any residue or damaging equipment, affected areas can be back online faster than with water- or foam-based systems. |
8. Customization for Specific Applications Flexible Design: The system can be customized for different room sizes, environments, and hazards. The number of CO2 cylinders, nozzle placements, and system controls can be tailored to meet the needs of various facilities. Sector-Specific Protection: It is widely used in environments where water-based systems are not appropriate, such as power plants, marine vessels, chemical storage areas, data centers, and archives. 9. Reliable Control and Monitoring Control Panel: The system features a central control panel that manages the entire suppression system, including detection, activation, and weighing devices. System Diagnostics: The control panel can provide real-time diagnostics, monitoring the status of the detectors, CO2 cylinders, and the weighing system. It ensures the system is always operational. 10. Scalability Expandable System: The system can be scaled up to protect large areas or divided into zones, allowing it to protect multiple rooms or spaces within a facility. Integration with Other Systems: It can be integrated with other fire safety systems, such as alarms, sprinklers, and ventilation controls, for comprehensive fire protection. |
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