Flow:50-5000 GPM Head: 3-16 Bar / 40-232 psi Power:11-1000 kw Frequency:50 or 60 Hz
·UL Standard: Flow:50-500GPM Head:6-16 Bar(90-230PSI) ·Non-UL Standard: Flow:50-5000 GPM Head:3-16 Bar(40-232 psi)
·UL Standard Flow:100-2500 GPM Head:90-250 PSI ·NON-UL Standard Flow:250-10000 GPM Head:30-200 m / 3-20 Bar / 40-290 psi
Flow:50-7500 GPM Head:3-20 Bar 40-300 psi Power:11-1000 kw Caliber:50-400 mm Frequency:50 or 60 Hz
The Portable Irrigation Pump is a portable and user-friendly tool used primarily by farmers and gardening enthusiasts for small-scale irrigation in fields, vegetable gardens, and flower beds. With its manual operation, this pump requires no external power source, making it suitable for remote areas lacking electricity or other energy supplies.
The Vertical Inline pump is used for conveying liquids. It consists of an electric motor, pump body, impeller, and sealing device. The pump is suitable for conveying various liquids and can be selected based on specific process requirements and medium characteristics.
·UL Standard: Flow:50-2000 GPM Head: 80-250 PSI
·NON-UL Standard: Flow:50-5000GPM Head: 40-250 PSI
-UL Standard: Flow:100-3000 GPM Head: 90-250 PSI – NON-UL Standard: Flow:100-10000GPM Head: 40-250 PSI
-UL Standard: Flow:100-3000 GPM Head: 90-250 PSI -NON-UL Standard: Flow:100-10000GPM Head: 40-250 PSI
Flow:50-7500 GPM Head:3-20 Bar 40-300 psi Power:11-1000 kw Caliber:50-200 mm Frequency:50 or 60 Hz Working Pressure:≤1.6 MPa
·UL Standard Flow:50-3000 GPM Head: 5-20 Bar (72.5-290 psi) Speed:740-2900 r/min ·Non-UL Standard Flow:30-9000 GPM Head: 3-20 Bar (40-300 psi) Speed:740-2900 r/min
Fire pump installations must consider factors such as temperature, humidity, and potential flooding. Pumps should be installed in environments that protect them from extreme conditions to ensure reliable operation.
Fire pumps are designed to run continuously during a fire emergency. They must be able to sustain operation for the duration required to control or extinguish the fire, which can be several hours.
With proper maintenance, a fire pump can last 15-20 years or longer. However, components such as seals, bearings, and impellers may need replacement during this period.
Signs include unusual noises or vibrations, reduced water pressure or flow, frequent tripping of the pump, leakage, and failure to start. Regular inspections and testing can help identify issues before they become critical.
The size of a fire pump is determined through hydraulic calculations based on the specific fire protection requirements of the building. Factors considered include the building’s height, area, occupancy type, and the required flow rate and pressure to meet fire protection standards.
Yes, fire pump rooms must meet certain requirements, including adequate ventilation, drainage, lighting, and accessibility. The room should also be protected from flooding and fire and have a reliable power supply.
– Rapid Evacuation: Ensuring the system supports rapid evacuation procedures to minimize risk to large crowds. – Flexible Design: Providing flexible design options to accommodate varying event setups and capacities. – Noise and Disruption Minimization: Ensuring minimal noise and disruption to maintain a pleasant environment. – Compliance with Event Space Standards: Adhering to fire safety regulations and standards specific to high-occupancy event spaces.
– Comprehensive Coverage for Extensive Areas: Ensuring fire protection systems can cover large industrial areas efficiently. – High Capacity and Reliability: Implementing high-capacity systems to meet the demands of large industrial operations. – Integration with Industrial Processes: Coordinating with industrial processes to avoid disruptions and ensure safety. – Compliance with Industrial Safety Regulations: Adhering to fire safety regulations specific to large-scale industrial complexes.
– Protection of Critical Data Infrastructure: Ensuring reliable fire protection for servers, storage, and network equipment. – Non-Disruptive Fire Suppression: Implementing systems that minimize the risk of data loss or equipment damage. – Redundant Systems for Reliability: Providing redundant fire protection systems to ensure continuous operation. – Compliance with Data Center Safety Standards: Adhering to fire safety regulations specific to data centers and IT infrastructure.
– Centralized Fire Protection Planning: Ensuring fire protection systems are integrated into the overall urban planning. – Real-Time Data Sharing with City Infrastructure: Enabling real-time data sharing with city infrastructure for enhanced fire protection. – Automated Control and Response: Using automated systems for efficient fire suppression in urban environments. – Compliance with Urban Development Standards: Adhering to fire safety regulations specific to urban development projects.
– Protection of Sensitive Research: Ensuring fire protection systems do not interfere with sensitive research activities. – Specialized Fire Suppression Methods: Implementing fire suppression methods suitable for different types of research environments. – Integration with Lab Safety Protocols: Coordinating with laboratory safety protocols to enhance overall safety. – Compliance with Research Safety Standards: Adhering to fire safety regulations specific to research laboratories and R&D facilities.
