Industrial fans are oversized, high-performance fans designed for use in industrial environments. They can be used for many different purposes, such as ventilation, cooling, heating, humidity control, ventilated storage and ventilated production.

Industrial fans are generally designed to produce high airflow and pressure. However, different types of fans are available for different applications. For example, different types of fans can be designed according to factors such as impellers, number and shape of blades, rotor speed and diameter of the fan. Industrial fans generally use compressed air or water for cooling.

While industrial fans are used in large plants and factories, they can sometimes be used in commercial buildings and stadiums. These types of fans are ideal for large volume areas that require high airflow and pressure.

However, because industrial fans are powerful and large, they can be dangerous if not used correctly. For this reason, they should be installed, maintained and used by specialists.

Dedusting Systems

The First Step to Sustainable Performance and Economy

Ventilators…

One of the most important aspects of the design of a dust collection / ventilation system is the ventilators…

When it is incorrectly calculated/selected, it is one of the biggest factors in the inability to provide performance or inefficient operation throughout the life of the system.

A fan operating at less than the required flow rate already means that dust cannot be collected.

A fan that operates at a higher flow rate than necessary can cause many problems, from the waste of your most valuable product to the perforation of dust collection ducts.

The fan shown in the graphic on the side;

Is it at 2,000 m3/h flow capacity?

Is it at 1,000 m3/h flow capacity?

500 m3/h flow capacity?

All true or all false…

Flow rate alone is a meaningless term for a fan.

For it to be meaningful, it has to be accompanied by the question at least at what pressure?

If you have calculated losses for a system and calculated a flow rate to overcome this resistance, but the losses or the fan design is not correct, nothing will go right. In short, you will be on the wrong left or right side of the graph. So either you will not be able to collect the dust with too little flow, or you will lose product with too much flow.

Therefore, it is not possible to build a dust collection system with high performance and high energy efficiency with a poorly engineered fan selection.

Do you doubt this?

Please compare the filtered air flow rate from the chimney with the fan label value,

Or check if your product is included in the dust analysis you collect.

Many people report not getting even half of the fan label value and finding product in at least 20% of the filter dust…

Other parameters related to sustainable performance and efficiency will be continued in the next issues…

Dedusting systems take a very significant share of the general production costs of enterprises with the electrical energy they use for their fans, their compressed air consumption and their consumable filtration elements.

An inefficient dust collection unit not only threatens employee health, but also causes both loss of reusable product and wasted costs.

The most common causes of inefficiency are;

• Faulty collection ducts,
• Incorrect fan selection,
• Insufficient shaking air,
• Incorrect filter element selection

Asel Endüstriyel tries to use advanced engineering techniques to prevent these errors that may cause loss of efficiency in the dedusting systems it has established with 20 years of industrial industry experience.

Engineers within Asel Industrial design each dust collection system specifically for the customer.

First of all, solid modeling is done for dust collection ducts. Then these ducts are run virtually with fluid simulation software. The duct project is completed with the pressure loss from the system and flow data corresponding to the optimum velocity.

Thus, the duct diameters, duct form and ventilator selection are chosen correctly in terms of both efficiency and energy efficiency.

The most common mistakes in dust collection systems are narrow ducts causing excessive resistance or too wide ducts causing dust settling.

Cleaning/shaking the right filter element with the right air

Again, one of the factors that reduce the efficiency of dust collection units the most is the selection of the wrong filter element.

In the process,

• Dust load
• Grain distribution of the powder,
• Dust stickiness,
• Powder abrasiveness,
• Nem,
• Temperature

It is very critical to study such factors correctly and select the appropriate filter element.

An incorrectly selected filter element will not allow you to work efficiently even if everything else is in order.

Another critical issue is the cleaning/shaking air.

• At the appropriate pressure,
• Appropriate flow rate,
• Appropriate quality

The use of purge air is very important.

The most common mistake is that the diameter of the air line brought to the unit is smaller than it should be and air is supplied at a much lower pressure than that produced in the compressed air center.

Another issue is the condensation that occurs in long and uninsulated air lines and the problems caused by cleaning with wet air.

The most important points to be considered for an effective dust collection system with minimum operating costs are briefly explained in this article.

Written by: Dr. Barkın MİNEZ (Mechanical Engineer)

The History of Fans: Their Deep-Rooted Connection to Mechanical Engineering

Fans are one of the most important tools used for centuries to circulate air and meet the need for air conditioning. However, the development and modernization of fans is closely linked to the discipline of mechanical engineering. Read on to learn more about the history of fans and this deep connection with mechanical engineering.

The Origin of Fans: From Antiquity to the Present

The history of fans dates back to ancient times. In ancient Egypt and Greece, simple handmade fans were widely used for personal use. However, fans evolved greatly with the industrial revolution and became common in industrial applications.

Medieval and Renaissance Period: The Importance of Al-Jazari

Al-Jazari, a scientist who lived in the Islamic world in the Middle Ages, did important work on mechanical subjects. His research on automatic machines and devices made a significant contribution to the early development of fan technology.

Industrial Revolution and Modern Fan Technology

With the Industrial Revolution, fan technology underwent a significant evolution. Steam-powered fans were an important part of the industrial revolution and were widely used in factories, mines and other industrial areas. The advancement of mechanical engineering has enabled fans to become more efficient and powerful.

Fan Design with Mechanical Engineering

Today, the design and development of fans is based on the principles of mechanical engineering. Advances in fields such as aerodynamics, fluid mechanics and materials science have made fans more efficient, quiet and durable. Engineers are constantly working on new technologies and design methods to optimize the performance of fans and improve energy efficiency.

Fans have continuously evolved with advances in mechanical engineering. Thanks to the contributions of mechanical engineering, fans have become more powerful, efficient and environmentally friendly. This relationship will be an important guideline for the future development of fan technology.

Our board member Mustafa Yenipazar came together with high school students with his talk on “The Importance of Sharing and a More Livable World”.

Emphasizing the importance of sharing for a more livable future around the world, Yenipazar interacted with young people. Stating that sharing strengthens solidarity and cooperation in society, Yenipazar expressed that it is everyone’s responsibility to leave a more sustainable world to future generations.

This event, organized with high school students, aims to contribute to raising the leaders of the future as sharing and responsible individuals.