OverviewThe ANSUL IGS-300 uses a 300-bar design with 80 L or 140 L containers, significantly reducing footprint compared with 200-bar systems or systems limited to 80 L containers. The combination of high-pressure technology and higher-capacity containers provides advantages where space is constrained. The system employs enhanced regulated flow technology and uses clean agents INERGEN® or IG-55 to extinguish fires with reduced discharge turbulence, minimizing risk to sensitive equipment and materials.
Features- UL/ULC Listed, FM Approved
- Removable pressure gauge (UL Listed, FM Approved)
- Matrix bracket technology for flexible container footprint design
- Designed to meet NFPA 2001, EN 15004 and ISO 14520
- Master container actuation supports up to 84 subordinate containers (no pilot container required)
- Integrates optional INERGEN acoustic nozzles to attenuate sound during discharge
Benefits- Enhanced regulated flow improves pressure control, enabling smaller pipe diameters and reduced pipe schedule requirements.
- Uses naturally occurring gas blends (INERGEN, IG-55): non-flammable, ozone-neutral and with no global warming potential (GWP).
- Sound attenuation option protects sound-sensitive equipment from discharge noise.
- Cost-effective package: lower pipe scheduling, smaller diameters and reduced venting requirements reduce equipment and labor costs.
Technical specifications- System nominal pressure: 300 bar
- Container capacities: 80 L or 140 L
- Compatible suppression agents: INERGEN® or IG-55
- Reduced footprint compared with 200-bar systems and 80 L–only systems
- Enhanced regulated flow technology for improved pressure regulation
- Reduced discharge turbulence to protect sensitive equipment and materials
- Optional INERGEN acoustic nozzles for sound attenuation
- Master container actuation supports up to 84 subordinate containers
- Listings/Approvals: UL, ULC, FM
- Design standards: NFPA 2001, EN 15004, ISO 14520
- Removable pressure gauge (UL Listed, FM Approved)
- Matrix bracket technology for flexible container footprint design