Choosing the right fan helps businesses save energy

The choice of fan, which is the most important part of the ventilation process in companies and industries where low pressure technologies are used, such as food processing plants and cement plants, especially wastewater treatment plants, plays a major role in energy saving.

The choice of fan, which is the most important part of the ventilation process in companies and industries where low pressure technologies are used, such as food processing plants and cement plants, especially wastewater treatment plants, plays a major role in energy saving. Atlas Copco Compressor Technique Low Pressure Business Development Manager Taner Kasarcı says that the source of 75-80% of energy consumption in sewage treatment plants is the blower, stressing that the choice in this matter is of great importance in terms of business energy expenditure.

Playing an important role in the purification of pollutants not only in industry but also in the domestic wastewater of cities, burners also constitute the source of 75 to 80% of the energy used in this process. Taner Kasarcı, Low Pressure Business Development Manager of Atlas Copco Compressor Teknik, one of the world’s leading compressor manufacturers, draws attention to the importance of choosing a suitable blower for the process in terms of energy saving . Expressing that an efficient system means less energy consumption and fewer malfunctions, Kasarcı says, “System automation is a very difficult process in processing plants where systems are constantly communicating with each other. In aeration pool wastewater treatment processes, it is necessary to meet the different oxygen requirements of the system at different times in order to provide effective treatment. Operating the blowing systems in harmony with other factors such as oxygen meter, PLC, scada system increases the efficiency of the system. The use of speed-controlled fans, ie VSD, also contributes to energy savings by allowing the fan speed to be reduced or increased according to system needs.

What should be considered when buying a leaf blower?

While Taner Kasarcı recommends a complete installation and application analysis for the selection of the right technology in the browser before purchase, he explains it with an example: “For example, when choosing fans of small capacity, choosing a fan that takes up less space and produces less noise can be a priority. When selecting blowers with longer annual run times and higher capacity, energy efficiency should be a priority and the initial investment cost should be considered a secondary consideration.”

Atlas Copco Compressor Technique Low Pressure Business Development Manager Taner Kasarcı also advises industries and companies to consider selection based on need and total cost of ownership, instead of considering the initial investment cost of blowers as the only criterion for ‘purchase. Kasarcı, all the factors to consider when buying a ventilator; flow and pressure, application conditions, initial investment cost, operating noise levels, lifetime service and support, reliability, efficiency, maintenance requirements, space limitations, installation requirements and cost.

Compare Fan Features

While saying that there are many low pressure technologies in the market, Taner Kasarcı also points out that it is not easy to find the ideal solution in practice. Considering that each application has its own characteristics and requirements, Kasarcı says that companies must determine the most suitable type of low pressure blower for their needs and explains the comparison that can be used to determine if one technology is superior to another technology: It is a traditional and reliable technology at low In contrast, screw blowers offer greater reliability, higher output and higher energy efficiency for a better return on investment. Multi-stage blowers are best for specialty applications and provide industry standard performance. However, turbo or multi-stage turbo blowers are a reliable unified technology configuration with the highest performance on the market for a variety of air demands, offering low cost of ownership and high energy efficiency. More than 80% of the life cycle cost of a booster comes from the energy it consumes. In addition, the production of compressed air can represent more than 40% of a facility’s total electricity bill. VSD (Variable Speed ​​Drive) technology provides significant energy savings while helping to protect the environment for future generations.

Hibya News Agency

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