Customization: | Available |
---|---|
Body Material: | Carbon Steel |
Pipe Material: | Carbon Steel |
Still deciding? Get samples of $ !
Request Sample
|
Suppliers with verified business licenses
Audited by an independent third-party inspection agency
forede Foam Bladder Tank
The forede® foam bladder tank is a reliable and efficient solution for fire-fighting systems. Its features ensure high performance and durability, making it a popular choice for many industries.
One of the key features of the forede® foam bladder tank is its flange standard of proportioner, which meets ANSI, BS4504, and GB standards. This ensures that the tank is compatible with a wide range of systems, providing flexibility and ease of installation.
The body of the tank is made of carbon steel, which is a strong and durable material. The bladder material is made of rubber, which is resistant to chemical and physical damage, ensuring that the foam inside the tank is protected and kept in optimal condition.
The tank comes with a proportioner made of carbon steel as standard, with the option to upgrade to SS304 stainless steel. The ball valve and safety valve are also made of brass as standard, with SS304 stainless steel as an optional upgrade. The piping system is made of carbon steel as standard, with the option to upgrade to SS304 stainless steel.
Finally, the forede® foam bladder tank is finished with a high-quality paint coating, providing a protective layer against corrosion and wear. This ensures that the tank looks great and performs well for many years to come.
Model Number | Capacity | Description | Working Pressure | Ratio | Flow Rate Range |
PHYML-200 | 200 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 4-24LPS |
PHYML-300 | 300 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 4-24LPS |
PHYML-500 | 500 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 4-24LPS |
PHYML-600 | 600 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 4-24LPS |
PHYML-800 | 800 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 8-32LPS |
PHYML-1000 | 1000 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 8-32LPS |
PHYML-1200 | 1200 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 8-32LPS |
PHYML-1500 | 1500 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 8-32LPS |
PHYML-2000 | 2000 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 8-32LPS |
PHYML-2500 | 2500 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 8-32LPS |
PHYML-3000 | 3000 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 12-48LPS |
PHYML-4000 | 4000 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 12-48LPS |
PHYML-5000 | 5000 Liters | Vertical,Fixed | 0.8-1.2MPa | 3% or 6% | 12-48LPS |
Q1: How does the vertical installation of the PHYML tank affect its stability compared to horizontal models?
A: The vertical installation of the PHYML tank provides good stability when placed on a level and sturdy foundation. Its design distributes the weight evenly, reducing the risk of tipping. However, it's important to ensure the installation surface can support the tank's weight, especially for larger - capacity models.
Q2: Can the PHYML tank be installed outdoors?
A: Yes, the PHYML tank can be installed outdoors. Its carbon steel body with a painted surface finishing offers some protection against outdoor elements. However, it's advisable to provide additional shielding from direct sunlight and extreme weather conditions if possible, to prolong its lifespan.
Q3: What measures can be taken to prevent corrosion of the carbon steel components in the PHYML tank?
A: Regular inspection and maintenance are key. This includes checking for any signs of paint damage and promptly repainting any areas where the surface finishing is compromised. Additionally, ensuring proper drainage and avoiding water pooling around the tank can help prevent corrosion. In more corrosive environments, considering the optional SS304 stainless - steel components for parts like the piping system can enhance corrosion resistance.
Q4: How often should the rubber bladder in the PHYML tank be replaced?
A: The replacement interval for the rubber bladder depends on usage frequency and operating conditions. In normal, non - harsh environments with regular use, it may last around 10 - 15 years. But if the tank is frequently exposed to high temperatures, aggressive foam concentrates, or experiences significant pressure fluctuations, more frequent inspections and potential earlier replacement may be required.
Q5: Can the PHYML tank be used in areas with seismic activity?
A: The PHYML tank can be used in areas with seismic activity, but proper installation and anchoring are crucial. It should be securely fastened to a stable foundation using appropriate seismic - resistant mounting techniques. Consulting with a structural engineer or the tank manufacturer for specific guidelines based on the seismic zone is recommended.
Q6: What is the process for changing the foam ratio setting in the PHYML tank?
A: Changing the foam ratio setting typically involves adjusting the proportioner. This usually requires shutting down the system, following the manufacturer's instructions to access and modify the proportioner settings. It's important to ensure that the correct tools are used and that the system is properly calibrated after the change to maintain accurate foam mixing.
Q7: How does the flow rate range of the PHYML tank impact its application in different fire scenarios?
A: The flow rate range determines the volume of foam that can be discharged per second. In smaller - scale fires or areas with limited space, a lower flow rate may be sufficient. For larger fires or open - area protection, a higher flow rate is needed. Selecting a model with an appropriate flow rate range ensures effective fire suppression for the specific scenario.
Q8: Can the PHYML tank be connected to multiple fire suppression nozzles simultaneously?
A: Yes, the PHYML tank can be connected to multiple fire suppression nozzles simultaneously. However, the piping system should be properly designed and sized to ensure that the flow rate and pressure requirements of all connected nozzles are met. Hydraulic calculations may be necessary to optimize the distribution of foam.
Q9: What safety features does the PHYML tank have to prevent over - pressurization?
A: The PHYML tank is equipped with a safety valve. This valve is designed to open when the internal pressure exceeds the specified limit (within the working pressure range of 0.8 - 1.2MPa), releasing excess pressure and preventing over - pressurization, which could potentially damage the tank or pose a safety risk.
Q10: How does the choice of inlet and outlet material (carbon steel or optional SS304 stainless steel) affect the maintenance requirements of the PHYML tank?
A: If the standard carbon steel inlet and outlet are used, more frequent inspections for corrosion are required, especially in environments with high humidity or exposure to corrosive substances. In contrast, the optional SS304 stainless - steel inlet and outlet offer higher corrosion resistance, reducing the frequency of such inspections and potentially extending the lifespan of these components without the need for extensive maintenance.