Plot No. 71, Sewak Park, Dwarka More Metro Station, Near Pillar No. 776, Uttam Nagar
Call@ 9971365130, 9990360705
types of fire suppression system available
Direct low pressure system
✅ Direct Low-Pressure Fire Suppression System: Overview & Applications
A Direct Low-Pressure (DLP) fire suppression system is a self-contained, automatic system that uses a heat-sensitive detection tube to both detect and suppress fires at the source — with lower pressure (5–25 bar) than high-pressure gas systems. These systems are commonly used in small enclosures, localized protection zones, and compact critical equipment.
📘 Typical Applications of Direct Low-Pressure Systems:
Industry / Sector Protected Equipment Electrical panels MCCs, DBs, control cabinets, PLC panels IT & data Server racks, network closets, edge devices CNC & machine tools Enclosures, control boxes, HMI terminals Renewable energy Wind turbine cabinets, solar combiner boxes Transportation Railway electrical boxes, vehicle battery bays Telecom Outdoor telecom cabinets (BTS, RTUs, power units) ATMs & kiosks Compact systems protect critical internal gear Battery storage BESS enclosures, UPS systems.
🔒 Standards & Approvals:
- UL 2166: Clean agent extinguishing systems
- NFPA 2001: Clean agent systems
- CE & RoHS compliant systems
- Many vendors offer FM- or LPCB-certified solutions
indirect low pressure system
✅ Indirect Low-Pressure Fire Suppression System: Overview & Applications
An Indirect Low-Pressure (ILP) fire suppression system is an automatic fire protection system that uses a heat-sensitive detection tube to sense fire, but discharges the suppression agent through dedicated nozzles — not from the tube itself. It’s ideal when broader, controlled agent coverage is needed across a larger or more complex space than direct systems can handle.
Advantages of Indirect Low-Pressure Systems:
Feature Benefit Controlled agent distribution Uniform, directional suppression over larger areas No power needed 100% mechanical activation — reliable in power failure Modular design Easily installed into existing cabinets or machines Non-intrusive No interference with equipment layout or operation Customizable nozzle layout Better suppression around multi-point hazards .
Typical Applications of ILP Systems:
Industry / Sector Equipment or Zone Protected Industrial automation Electrical control cabinets, PLC boxes CNC / Machining CNC machine enclosures, EDMs, lube tanks Telecom & IT Multi-rack server enclosures, remote nodes Energy Wind turbines, BESS units, solar combiner boxes Manufacturing Production panels, robotic cells Transportation Locomotive cabs, marine switchgear .
Compliance & Certification:
- UL 2166, UL 2127 – Clean agent suppression systems
- NFPA 2001 – Standard on clean agent systems
- ISO 14520 – Global clean agent standard
- CE, LPCB, FM, or VdS depending on brand/system
Indirect Hight pressure system
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Indirect High-Pressure Fire Suppression System: Overview & Applications
An Indirect High-Pressure (IHP) fire suppression system is a clean agent-based system that uses a separate detection mechanism (like a sensor tube or electronic detection) and discharges the suppression agent via piping and dedicated nozzles under high pressure (typically 25–60 bar or more). It’s designed for larger or more complex enclosures, rooms, or equipment where rapid and directional suppression is critical.
Key Features of IHP Systems:
Feature Benefit High discharge pressure Enables long piping runs and multi-nozzle coverage Agent through nozzles Controlled, uniform suppression Fast response System activates and suppresses within seconds Safe for sensitive electronics Does not damage servers, PLCs, or controls Multiple detection options Can use electrical, pneumatic, or hybrid detection.
Typical Applications of Indirect High-Pressure Systems:
Industry / Sector Protected Area / Equipment Data centers Server rooms, UPS rooms, battery backup systems Power & Energy Control rooms, wind turbines, transformers Manufacturing CNC machines, robotics cells, paint rooms Marine Engine rooms, switchboards, electrical panels Telecom Base stations, network hubs, IT infrastructure Transportation Rail cabs, aviation equipment bays, metros Archives & Museums Paper documents, art, and irreplaceable assets .
Compliance & Standards:
- NFPA 2001 – Clean Agent Fire Suppression
- ISO 14520 – International standard for gaseous systems
- UL 2166, UL 2127 – Agent systems
- FM Approved, LPCB, VdS, CE, etc.
Direct High pressure system
LHS Cable based flooding system
Direct High-Pressure Fire Suppression System: Overview & Uses
A Direct High-Pressure (DHP) fire suppression system is a self-contained, automatic system that uses a heat-sensitive detection tube to both detect and discharge a fire suppression agent directly through the rupture point in the tube, but under higher pressure (typically 25–60 bar or more) than standard direct low-pressure systems.
These systems are ideal for critical, confined areas with intense fire risk, especially where fast response and clean suppression are essential.
Advantages of Direct High-Pressure Systems:
Feature Benefit Direct discharge Agent releases right at the fire source Fast suppression Minimal time between detection and action Compact design Perfect for small, enclosed fire-prone spaces No electricity required Fully mechanical, ideal for power outage scenarios Safe for sensitive equipment Clean agents won't harm electronics .
Typical Applications:
Industry / Sector Equipment Protected CNC machines Fire-prone machining zones, tool enclosures Electrical panels Control panels, distribution boards, PLCs Telecommunications Remote cabinets, network switches Automotive / EV Battery enclosures, engine compartments Data centers Rack-level fire protection Renewables Solar inverters, BESS, wind turbine cabinets Marine & Aviation Compact control units, switchgear Industrial automation Robotic cells, switch cabinets .
Compliance & Certifications:
- NFPA 2001 – Clean Agent Fire Suppression Systems
- UL 2166 / UL 2127 – Agent and system approvals
- ISO 14520 – International standard for gaseous agents
- CE / FM / LPCB / VdS – Depending on manufacturer
Total flooding system
LHS Cable based flooding system
LHS Cable based flooding system
Total Flooding Fire Suppression System: Overview & Uses
A Total Flooding System is a fire suppression method designed to completely fill (or "flood") an enclosed space with a gaseous or clean agent to extinguish fire in the entire area — not just at the fire source. It is highly effective for protecting rooms, data centers, equipment bays, or sealed enclosures where early and complete fire suppression is critical.
Common Suppression Agents Used:
Agent Type Properties Notes Novec 1230 (FK-5-1-12) Clean, fast, low global warming potential (GWP) Safe for electronics and occupied spaces FM-200 (HFC-227ea) Clean, effective, moderate GWP Widely used in data and control rooms Inert gases (IG-55, IG-541) Natural gases (N₂, Ar, CO₂), no environmental impact Requires tight room integrity; safe for people CO₂ Non-conductive, effective, but not safe for humans Used in unoccupied areas like generators or turbines Halon (phased out) Legacy systems; ozone-depleting Still in use in some aviation/military applications .
Key Features & Benefits:
Feature Benefit Full-room coverage Protects both visible and hidden fire risk areas Fast suppression Suppresses fire within seconds of detection Safe for sensitive electronics Most agents leave no residue or moisture No power dependency Works even during power failure Minimal downtime Little to no cleanup required (for clean agents) Configurable zones Can protect multiple rooms or sections via zoning .
Typical Applications of Total Flooding Systems:
Industry / Sector Protected Area Data centers Server rooms, UPS rooms, network closets Telecom BTS stations, control rooms, switching hubs Industrial automation Control rooms, electrical substations Power & energy Wind turbine hubs, battery energy storage Marine & aviation Ship engine rooms, avionics compartments Oil & gas Analyzer rooms, MCCs, off-shore control cabins Military & defense Radar rooms, command centers Libraries & museums Archives, document vaults .
Compliance & Standards:
- NFPA 2001 – Standard on Clean Agent Suppression Systems
- ISO 14520 – Global clean agent system standard
- UL 2166, UL 2127 – Agent and system certifications
- FM Approved, LPCB, VdS, CE – Manufacturer certifications
- NFPA 12 / ISO 6183 – CO₂ and inert gas suppression
LHS Cable based flooding system
LHS Cable based flooding system
LHS Cable based flooding system
LHS Cable-Based Fire Suppression System: Overview & Uses
An LHS (Linear Heat Sensing) cable-based fire suppression system uses a Linear Heat Detection Cable to detect abnormal heat or fire along its length. It's widely used in fire-prone, linear, or enclosed environments where traditional point detectors are inadequate. When combined with an automatic fire suppression system, it offers early detection and rapid extinguishing of fires.
How LHS-Based Fire Suppression Works:
- Installation of LHS Cable
- The Linear Heat Sensing cable is installed along electrical panels, conveyors, cable trays, ducts, or inside enclosures.
- The cable is sensitive to a preset temperature (e.g., 68°C, 88°C, 105°C, 138°C, etc.).
- The Linear Heat Sensing cable is installed along electrical panels, conveyors, cable trays, ducts, or inside enclosures.
- Heat Detection
- When a fire or overheating occurs, the cable’s internal insulation melts at the pre-set temperature.
- This causes the two conductors to short circuit, triggering an alarm or actuating the suppression system.
- When a fire or overheating occurs, the cable’s internal insulation melts at the pre-set temperature.
- Fire Suppression Activation
- Upon detection, the suppression system discharges an extinguishing agent (Novec 1230, FM-200, CO₂, or others) via piping and nozzles to suppress the fire.