Founded In 2014, Covers An Area Of More Than 10 Thousand Square Meters, With An Exhaust Fan, Cooling Pad, Blower, Cooling Pad Production Line Of The International Advanced Level, Manufacture And Installation Of Large Boilers, Sales And Service In One Of The Professional Enterpise Control.The Commpany Has High Quality Staff, Including 5 Senior Engineers, Junior Techinical Personnel 12 People, More Than 80 Employees, High Quality Products With Professional Customer Service.
Why Choose Us
Our Product
Exhaust Fan, Cooling Pad, Aircooler, Heater, Poultry Equipment, Kraft Paper, Resin Coated Paper, White Glue, Red Glue, Glue Powder, Cooling Pad Production Line.
Production Equipment
3 sets of yawei CNC punching machine, 5sets of yawei electro-hydraulic CNC bending machine, laser cutting machine, pressure shutter CNC machine, shutter and other punching machine equipment etc total of 21 sets.
Product Application
Production Factory, Warehouse, Store, Poultry Farm, Plantation, Mine Field.
Production Market
Bangladesh, India, Philippines, Vietnam, Thailand, Indonesia, Libya, Algeria, Egypt, Iraq, Iran, United States.
Our Service
Company To "Quality First, Customer First, To Concentrate On Professional, Good Faith" Business Philosophy, Set Up Professional Customer Service Department, Whatever After Sales Problem We Promise Will Settle Within 24 Hours.
Our Factory
Founded In 2014, Covers An Area Of More Than 10 Thousand Square Meters, With An Exhaust Fan, Cooling Pad, Blower, Cooling Pad Production Line Of The International Advanced Level, Manufacture And Installation Of Large Boilers, Sales And Service In One Of The Professional Enterpise Control.
Fiberglass fan refers to an axial flow fan made of FRP material. Its biggest feature is corrosion resistance, acid and alkali resistance. It is a kind of anti-corrosion fan.
Fiberglass Fan for Factory Use
Fiberglass fan refers to an axial flow fan made of FRP material. Its biggest feature is corrosion resistance, acid and alkali resistance. It is a kind of anti-corrosion fan.
Fiberglass fan refers to an axial flow fan made of FRP material. Its biggest feature is corrosion resistance, acid and alkali resistance. It is a kind of anti-corrosion fan.
Fiberglass fan refers to an axial flow fan made of FRP material. Its biggest feature is corrosion resistance, acid and alkali resistance. It is a kind of anti-corrosion fan.
Fiberglass fan refers to an axial flow fan made of FRP material. Its biggest feature is corrosion resistance, acid and alkali resistance. It is a kind of anti-corrosion fan.
Fiberglass fan refers to an axial flow fan made of FRP material. Its biggest feature is corrosion resistance, acid and alkali resistance. It is a kind of anti-corrosion fan.
What is Industrial Fiberglass Fan
Industrial fiberglass fans are robust machinery used to spread immense quantities of air or gas in industrial environments. These are made very powerful, long-lasting, and competent for working in challenging conditions and under serious burdens. Unlike standard fans, industrial fiberglass fans deliver high airflow, making them important for industrial operations. Industrial fiberglass fans are necessary for sustaining ideal conditions in industrial plants. They are employed for ventilation, cooling, heating, dust & smoke removal, material transferring, and working efficiency. The structure and types of industrial fiberglass fans change to fit specific requirements, from axial fans to specialized fans like high-pressure fans.
Advantages of Industrial Fiberglass Fan
Improved Air Quality
That they can significantly improve the air quality in the building. Proper ventilation helps prevent the buildup of harmful gases, dust, and other pollutants that can cause respiratory problems and other health issues. By removing impurities, allergens, and humidity, fiberglass fans create a healthier and more comfortable environment for workers.
Increased Energy Efficiency
Another significant benefit of fiberglass fans is their ability to reduce energy costs by decreasing the need for air conditioning and heating. By removing stale air and bringing in fresh air from outside, fiberglass fans can regulate the temperature and humidity levels in the building, reducing the load on HVAC systems. This can result in lower energy bills and a more sustainable facility.
Odour Control
Fiberglass fans can help control these odours by removing them from the building and ventilating them outside. Proper ventilation can also help prevent the buildup of harmful gases, which can cause health problems and unpleasant odours.
Moisture Control
Moisture can lead to mould growth, which can be a health hazard and damage the building's structure. Industrial fiberglass fans can help control moisture levels by removing humid air and circulating fresh air throughout the building. Proper ventilation can also prevent condensation from forming on walls and ceilings, which can lead to mould growth and water damage.
Application of Industrial Fiberglass Fan
Agriculture Industrial Fans
In the agricultural sector, industrial fiberglass fans are commonly utilized to generate airflow in livestock barns, dairy farms, and greenhouses. They help reduce condensation in stagnant areas, which in turn minimizes the impact of birds and insects.
Cement Industry
Cement production involves various processing fans that must resist abrasion and dust accumulation while functioning in high-temperature environments. The types of fans used in the cement industry include pre-heater exhaust fans, kiln induced draught fans, raw mill exhaust fans, cooler fans, forced draught fans, and mill exhaust fans.
Automotive Industry
Fans used in the automotive industry need to be robust, easy to maintain, and highly reliable. Following legislation enacted in January 2003, which mandates protection for workers from explosions, automotive industry fans are specifically designed to operate safely in hazardous and explosive environments, addressing the increased risk of such conditions in the industry.
Chemical Industry
In the chemical industry, handling hazardous and flammable materials demands secure storage and effective ventilation. Industrial fiberglass fans, specifically designed for this purpose, provide essential airflow to ensure proper ventilation. Correctly positioned fans help maintain chemical temperatures and prevent the accumulation of dangerous fumes.
Oil and Gas Industry
Industrial fiberglass fans for the oil and gas industry are designed to perform in the harshest and most severe conditions. They are made of exceptionally durable materials with welded flanges and components that provide resistance to weathering, abrasion, moisture, and other potentially harmful atmospheric elements. For extra protection, fans for the oil and gas industry undergo a coating process.
Power Generation Industry
The power generation industry relies on forced draft, induced draft, and dust control fans that must function at very high temperatures. These fans are built with heat-resistant paints and coatings, and feature specially designed bearings to withstand extreme conditions. Given the particulate matter in the air streams from power generation facilities, these fans are equipped with self-cleaning impellers to maintain efficiency.
Pneumatic Conveying
Industrial fiberglass fans are integral to conveying systems, transporting materials such as cereal, grains, wood chips, and powders. Pneumatic conveying, utilized by industries including food, minerals, plastics, coffee, and pharmaceuticals, relies on abrasion-resistant fans. These systems demand that industrial fiberglass fans be constructed from durable alloys with specialized linings and coatings to ensure safety and longevity.
Understand your requirements
Before selecting a fan, it's important to understand what you need from your ventilation system. Consider the size of the space, the type of activities conducted, and the average number of people present during peak times. This will help determine the volume of air movement required to maintain optimal conditions.
Assess the environment
The environment's characteristics are crucial in fan selection. High ceilings, open areas, or obstructions can impact air circulation efficiency. Spaces with dust or chemicals may need fans with sealed motors or corrosion-resistant finishes.
Select the fan purpose.
Different fiberglass fans serve various purposes:
Ventilation: Enhance air quality and airflow in industrial settings, warehouses, and manufacturing facilities.
Dust and Fume Extraction: Remove airborne contaminants, promoting a healthier workspace.
Air Pollution Control: Help exhaust pollutants and filter harmful particles before releasing air outside.
Material Handling: Move bulk materials like grains and powders through pipes or ducts.
Drying: Speed up moisture evaporation from surfaces or materials like textiles, lumber, or food products.
Combustion Air Supply: Provide necessary air for efficient fuel combustion in boilers or furnaces.
Process Cooling: Cool equipment and machinery in industrial processes, ensuring consistent performance and extended equipment lifespan.
Consider fan placement
Proper placement is essential for optimal performance. Decide whether the fan should be free-standing, wall-mounted, pedestal-mounted, or ducted based on your space's layout and limitations. Ensure there are no obstructions that could impede airflow.
Evaluate energy efficiency and operational costs.
Choose fans with energy-efficient features like variable speed controls or energy-efficient motors. These features can reduce energy consumption and lower operational costs, balancing initial investment with long-term savings.
Assess noise levels
In noise-sensitive areas or environments where communication is important, fan noise can be a critical factor. Check noise ratings and consider quieter models to maintain a comfortable working environment.
Consider maintenance and durability.
Look for fans that are easy to maintain and designed for durability. Fans that are simple to clean and maintain will perform better and last longer. Ensure the fan can withstand specific environmental conditions, such as moisture, dust, or corrosive elements.
Fundamental Components of an Fiberglass Fan
Motor
An electrical motor is the primary input source in an fiberglass fan assembly. The motor can be AC or DC as per the design and performance requirements. The motor transfers' electric power to the hub of the rotor shaft as the energy input.
01
Rotor Shaft
The rotor shaft is connected to an electric motor with an intermediate hub. The hub transfers electrical energy to the rotor shaft. The shaft rotates on receiving this electrical energy. This all suggests the conversion of electrical energy into mechanical to get the desired output.
02
Impellers/Blades
The blades or impellers are the components that cut through the surrounding air to form a fluid drag. The blades are mounted on the rotary shaft at a specific distance. The blades rotate to push or exhaust air drag. These blades can be designed in multiple shapes according to aerodynamic standards.
03
Fan Casing
The fan casing is a metal casing that houses the whole assembly. The main purpose of fan casing is to protect the assembly from dust, external damage, as well as the environmental impact such as corrosion, moisture, dust, etc.
04
Fan Mountings
The mountings are bearing on which the fans are fixed on. The fiberglass fan assembly can be mounted by using a ball or sleeve bearings. The bearings are the foundation of the fan assembly therefore, the quality and function are very important.
05
Common Industrial Fiberglass Fan Safety Hazards
1) Contact With Rotating Blades
Contact with the rotating propeller is probably the most obvious hazard around an industrial fiberglass fan. That is why everytime a fan is on, it must be treated with vigilance and care. Even the smallest touch can lead to loss of limb or life.
Lockout and tag out the unit when working on industrial fiberglass fan equipment. Test it by operating the starter to ensure the unit is de-energized. Do this before removing any guards.
2) Debris Entering The Fan
It's not just fingers and appendages that you need to keep out of the path of the fan, but other material as well. Spinning fans are immensely powerful. Everything from hand tools to your cell phone will get chopped to pieces by a fan. Even A full brim phenolic hard can be reduced to fibers if it gets in the way of the fan.
Furthermore, this will assuradely damage the fan and get debris everywhere. Remove dunnage, shipping material, and equipment before start-up. This indirect contact can also lead to dangerous flying particulate which is particularly hazardous to eyes and respiratory system.
3) Pinch Points In Belts / Sheaves
Even if the fan wheel is rotating slowly, without power, a significant mechanical advantage is developed at the sheaves. This is especially true with large fans. A finger caught between the sheave and the rotating belt could result in severe injury or digit loss.
Also remember that even a slight wind can cause a still propeller to rotate without any power. For that reason, always be sure to secure the propeller before performing mainteance.
4) Contact With Hot Motor Surface
The fast rotation of fans generates lots of heat. As a resul, they will retain that heat for an extended period of time after they are deactivated. External unit temperatures can reach 220°F or higher. It is vital to let the unit cool down completely before starting work. Make sure to give the unit plenty of time to cool and wear the appropriate protective gear.
5) Fan Guards And Mounting
Fan guards keep foreign objects from entering the fan and keep objects from falling into the building below. However, a broken guard, or even the guard itself, can become an industrial fiberglass fan safety hazard.
Guards should be in good operating shape and properly secured to the fan housing. Use the correct number of sheet metal screws. If unsecured, guards can fall into the fan or onto workers.
During mainteance, be careful when removing guards. They tend to be large and flexible. This can result in loss of balance when working on elevated surfaces and ladders. Finally, guards often contain sharp edges from expanded metal and other screen materials. Wear gloves when handling all screens.
6) Blow Back
A large fiberglass fan propeller will have significant mass and can produce a lot of force. As a result, a burst of air can knock you off your feet. Depending on your location on the roof, this can be fatal.
Avoding Problems During Initial Start Up
Fans travel long distances to get to your facility. They encounter vibration, bumps, and weather along the way. That is why you inspection, and start-up is so important. Be sure to.
Look for loose/missing components and damage
Correct all discrepancies before starting the fan.
Listen for any unusual noises, squeaks, squeals, hum, or rubbing.
Make sure the blade does not contact any part of the spinning area or drum.
These issues should be cause for immediate unit rejection. Correct these problems immediately as running in this condition will result in very quick blade failure.
Regular Cleaning
Dust, particles, and impurities have the potential to gather on the fan blades and within the housing, which can impede airflow and diminish overall efficiency. To maintain optimal performance, it is essential to engage in routine cleaning of the blades, motor, and their immediate vicinity to deter the accumulation of these contaminants. The frequency of this cleaning process may vary based on the specific environmental conditions but typically falls within the range of monthly to quarterly.
Retention System Check
Most fiberglass fans are installed with a retention system. Every 12 months, check that the retention cable is properly attached to the building structure. Inspect the visible portions of the retention cable for damage, including fraying. The retention cable is an important part of the safety system and protects users in the unlikely event of a catastrophic situation. It is critical for fan owners to ensure that it is intact and properly secured.
Belt and Fan Motor Inspections
For belt-driven fans, inspect the belts for signs of wear and tension regularly. Replace worn or damaged belts promptly and ensure they are properly tensioned to prevent slipping. Also make sure to inspect the fan motor for signs of wear, overheating, or unusual noises. If you notice any issues, address them promptly to prevent motor failure.
Bearing and Equipment Maintenance
Proper lubrication is crucial for the longevity of industrial fiberglass fan motors. Follow the manufacturer's recommendations for lubrication intervals and use the recommended lubricants. Clean and lubricate fan bearings as recommended by the manufacturer. Properly maintained bearings reduce friction and extend the life of the fan motor.
Balance Check
Imbalanced fan blades can cause excessive vibration and noise, leading to premature wear. Use a balancing kit to ensure fan blades are properly balanced. Over time, fan blades can wear out or become damaged. Replace damaged or worn blades to maintain optimal performance.
FAQ
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