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How to Choose the Best EDJ FIRE PUMP SET for Your Needs

·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

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The EDJ Fire Pump Set includes diesel engine pumps, electric pumps and jockey pumps.

 

Types of pumps used for fire service include: End Suction Pump,  Split Case Pump, Vertical In-line Pump and Vertical Turbine Pump.

 

1. Electric motor driven pump, can use single stage pump, horizontal split case pump, end suction pump,multistage pump.

2.Diesel engine pump, with capacity and head equal to electric pump, with fuel tank, water tank, fan,control box.

3. Jockey pump, horizontal or vertical, capacity will be small, but head should be higher than electric and diesel engine pump.

4. Control panel: Auto Control of electric pump, diesel engine pump and Jockey Pump with overload, over current protection.

In various fields, our products find applications in large hotels, hospitals, schools,commercial buildings, supermarkets,subway stations, train stations, airports, various transportation tunnels, petrochemical plants, thermal power plants,oil storage tanks, large warehouses, industrial and mining enterprises, seawater injection, etc.

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    1. When the pipeline fire pump noise occurs, the most likely fault is the imbalance of the fire pump rotor. Since the water output of the fire pump mainly depends on the high-speed rotation of the rotor, when the rotor is unbalanced for some reason, it will cause the fire pump to deviate from the original rotation track during the rotation process, resulting in the fire pump appearing in the pipeline. When judging the failure of the rotor, it is mainly to replace the rotor of the pump or make a balance hole on the rotor blade of the pump to find out the balance difference.

    2. The production noise of the fire pump pipeline has a certain effect. For example, forcing a small flow of a pipe “fire pump” to increase power to increase the original flow will create vibrations in the fire pump. Therefore, whether you use a pipeline fire pump or other types of water pumps, you should follow the water pump use standards to prevent the water pump from making noise, which will affect the service life of the water pump. The solution is to use the pump according to the instructions. If the efficiency of use is affected, it is recommended to replace the appropriate pipeline “fire pump” for use.

    3. The installation did not meet the standards, resulting in abnormal noise from the pipeline fire pump. Fire pumps and fire hydrant pumps vibrate at a high frequency during operation, so they must be fixed during installation. If the bolt between the pump body and the base or between the base and the base is loose when installing the pipe fire pump, the transmission shaft between the pump body and the motor of the pipe pump will be bent. It lowered the concentricity and caused an imbalance in the fire pump rotor. This is one of the noise phenomena of fire pumps. In order to improve this phenomenon, the pump shaft of the fire pump needs to be balanced and then reinstalled. Finally, the base of the pump was reinforced.

    4. Blockage of the impeller passage can also cause fire pump noise. When the internal flow channel of the fire pump is blocked by foreign matter, it will cause uneven resistance of the fire pump impeller and vibrate the fire pump. Therefore, it is necessary to regularly disassemble and maintain the fire pump to prevent foreign matter from blocking the pipeline.

    5. The bearing of the fire pump is damaged. Bearing damage generally does not occur on the main body of an in-line fire pump. If there is a problem with the quality of the pump, or because some hard objects enter the pump body of the tube pump, the bearing is damaged, and the rotor is unstable at first. Causes noise from pipeline fire pumps.

    6. Finally, cavitation, cavitation occurs in any type of pump, but some are obviously not noticeable. If cavitation occurs, consider raising the fire pump or increasing the pressure in the piping. If the cavitation phenomenon cannot be changed, the fire pump model needs to be redesigned and replaced.

    Choosing a good fire pump is crucial for ensuring the effectiveness and reliability of your fire protection system. Here are some key factors to consider when selecting a fire pump:

    Flow and Pressure Requirements: Determine the required flow rate and pressure for your specific application. Consider factors such as the size of the protected area, the type of fire hazards, and any applicable fire safety regulations. Ensure that the fire pump you choose can meet these requirements.

    Pump Type: Select the appropriate pump type based on your needs. The two common types of fire pumps are centrifugal pumps and positive displacement pumps. Centrifugal pumps are widely used due to their high flow rates and ability to handle large volumes of water. Positive displacement pumps, on the other hand, are better suited for applications that require high pressure but lower flow rates.

    Performance and Efficiency: Look for a fire pump that offers high performance and efficiency. Consider the pump’s rated capacity, which indicates the maximum flow rate it can deliver. Additionally, check the pump’s efficiency rating to ensure it operates optimally and minimizes energy consumption.

    Reliability and Durability: A good fire pump should be reliable and durable to withstand the demands of fire protection operations. Consider the quality and reputation of the manufacturer, as well as the pump’s construction materials. Look for features such as corrosion-resistant coatings, sturdy construction, and reliable seals and bearings.

    Compliance with Standards: Ensure that the fire pump you choose complies with relevant industry standards and codes, such as the National Fire Protection Association (NFPA) standards. Compliance with these standards ensures that the pump meets essential safety and performance requirements.

    Maintenance and Support: Consider the ease of maintenance and availability of support for the chosen fire pump. Look for pumps with accessible components, clear maintenance instructions, and readily available spare parts. Additionally, check if the manufacturer or supplier provides technical support and assistance.

    Testing and Certification: Check if the fire pump has undergone rigorous testing and certification by reputable organizations. Look for certifications from recognized bodies that validate the pump’s performance, efficiency, and safety.

    Budget and Cost Considerations: While it is essential to choose a reliable and efficient fire pump, consider your budget and cost constraints. Compare prices, warranties, and ongoing maintenance costs to find a balance between quality and affordability.

    System Integration: Consider how the fire pump will integrate with your overall fire protection system. Ensure compatibility with other components, such as fire alarms, sprinklers, and control panels. Coordinate with system designers or consultants to ensure seamless integration.

    Consult with Experts: If you are unsure about the specific requirements or complexities of selecting a fire pump, consult with fire protection experts, engineers, or consultants. They can provide valuable insights and recommendations based on your unique needs and circumstances.

    Remember that selecting a good fire pump is a critical decision that requires careful consideration. By evaluating the factors mentioned above and seeking professional guidance, you can choose a fire pump that meets your requirements and ensures the safety of your property and occupants in the event of a fire.