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Your Position: Home - Fans - Industrial Blowers' checklist to Ensure proper Installation

Industrial Blowers' checklist to Ensure proper Installation

Author: Ingrid

May. 13, 2024

Industrial Blowers' checklist to Ensure proper Installation

Various types of industrial blowers are critical components in any industrial environment. Industrial Blowers are utilized in processes that require the movement of gas or air, including conveying systems, ventilation, cooling, aspiration, and exhaust systems. Because industrial blowers play a crucial role in maintaining safe working environments by improving airflow, it is highly recommended to consult with experts during their installation.

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Incorrect installation can lead to electrical shocks, injuries from interacting with moving parts, and other potential dangers. Therefore, getting installation support from a Top-Quality Centrifugal Fan Manufacturer is suggested.

Essential Steps for Proper Installation of Industrial Blowers

Pre-Installation Planning:

Thorough Planning for a Flawless Setup of Industrial Blowers

  • Examine all design and setup documents, including fire and explosion protection requirements and minimum hood and duct velocities.
  • Check operating conditions and verify locations for test ports, dampers, balance valves, and fittings.
  • Confirm that the Ventilation System is correctly designed with all access doors closed and check for and eliminate duct interferences.
  • Review the blower’s operating requirements, motor, and drive system.
  • Ensure that the location for the fan installation is complete and ready to receive the blower upon arrival.
  • Verify availability of cranes, tools, and equipment needed for installation.
  • Ensure that properly trained personnel are ready to handle the blower installation.
  • Create and distribute an installation and startup evaluation procedure to all plant personnel to ensure proper system balance before startup.

Receipt and Inspection:

Upon receiving your blower, meticulously inspect it for any shortage or damage. Look for any dents, scrapes, bent shafts, or broken parts. Match the received items with the paperwork to confirm proper items and quantities. Make sure all parts are present, correctly assembled, and functional.

Handling Instructions:

Follow the instructions for lifting and moving the blower carefully. Handling the components with care is crucial as minor damage in any part can disrupt the entire unit's performance.

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Additional reading:
How much is a good blower?

Optimal Placement:

  • Place the blower on a level surface. Ensure the entrance to the blower room can accommodate the Blower package and moving equipment. The base's mass should withstand normal vibration.
  • Avoid placing the blower too close to the wall to prevent obstruction of cooling airflow. Ensure the blower is adequately grounded.
  • While it's ideal to install blowers indoors, if outdoor installation is necessary, protect them from harsh weather conditions.
  • Design the blower room with proper ventilation to ensure optimal performance and longevity. Install exhaust ventilation fans if needed.
  • Protecting blowers from dust and dirt accumulation extends their lifespan.
  • Isolate the blower from nearby vibrations.

Electrical Supply Checks:

Before installation, confirm that your electrical service voltage matches the blower's nameplate voltage. Ensure the blower is internally wired for the correct voltage. All electrical and wiring connections should be completed by a qualified electrician according to prescribed standards.

Start-Up Protocol:

Before starting the fan, take necessary precautions even if it has passed factory tests. Ensure all safety accessories are installed. Never exceed the blower's maximum recommended RPM, considering de-rating factors due to temperature and construction materials.

Final Checks:

  • Inspect all electrical connections and monitor the voltage.
  • Ensure the alignment of the blower’s components.
  • Verify that all drive and inlet/outlet guards are correctly installed.
  • Check if the bearings have been lubricated and verify that coupling, if provided, is lubricated.
  • Installation of industrial blowers should be carried out by a professional. Thus, finding an Experienced Manufacturer is crucial for getting a suitable Air Cleaning System. UDCI is among the most reliable industrial blower manufacturers in India. At UDCI, we offer expert solutions for commissioning air pollution control equipment.

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Visit for Industry Knowledge and Updates at Blowerfab

Blower Rotation Inquiry | Page 2

Many of you are aware of the power reduction when the outlet is blocked. The straightforward explanation is that the air circulates instead of accelerating out. There is windage drag but no work being done. In response to Armenius's comment about heating the air, both air and water change viscosity more than most people realize. A foreman at a large aluminum plant shared that they had a massive annealing oven with blowers circulating the air. The designer had underestimated the margins, causing the motors to blow their breakers if started in cold air conditions. He had to initiate the heaters first and wait until the air temperature rose, lowering the viscosity before starting circulation.

Using a blower with a blocked outlet is risky because the braking effect decreases as the air heats up. The leading edges may attempt to bite into the air, but the air from inside pushes that effect away. Inlet parts on highly developed turbines are curved to slice through air and push it into the throat, but there's no opposing flow.

Blocking the inlet is even more effective in reducing the load because the rotor runs in partial vacuum conditions. This understanding once got me in trouble but eventually paid off. I had designed a sharp audio filter, now called a Q multiplier, to detect a minor imbalance vibration from a gyro wheel inside a sealed can. The signal was masked by significant ball bearing noise. The gyro was spun up by an explosive charge and coasted for the few seconds of the missile's flight time. I would pick a frequency representing a given RPM on the filter and fire the gyro, timing the interval between run-up and filtering peak. After several tests, we plotted a rundown curve. A German engineer, who had previously trained in the Hitler Youth, believed I was wrong because extrapolating the logarithmic curve led to an unrealistic peak speed. I recorded a run to preserve gyros and created a more detailed curve. The rundown was nearly linear at first, then transitioned into a log decay. The wheel cover blocked some airflow, creating a partial vacuum, reducing drag at high speeds. Modifying the cover to amplify this effect extended the running time.

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