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Application of Axial Fans in Flat-Rack Warehouses

2021-05-11

In recent years, various new types of grain-storage equipment have emerged one after another. However, axial-flow fans have become the preferred choice for most storage units due to their large airflow and low energy consumption, and they are now widely used—particularly in high-rise warehouses. Next, we’ll discuss the specific functional applications of axial-flow fans in grain storage.

Is it true that the lower the noise of an axial-flow fan, the better? And how can we deal with high noise levels?

2021-04-26

Axial-flow fans, when operating normally, will always generate some level of noise. Research shows that noise begins to occur when wind speeds exceed 0.75 meters per second. The lower the wind speed, the quieter the fan operates. With advancements in fan technology, we’re increasingly able to reduce noise pollution. When choosing a fan, is it true that the lower the noise level, the better? While maintaining low noise is certainly desirable, we must also take economic factors into account. The lower the required noise level, the higher the cost of the fan. For every 10 dB reduction in noise level, the fan’s cost roughly doubles (this is an empirical observation, not a linear relationship). Most fans cannot achieve noise levels below 35 decibels. Therefore, when selecting a fan, there’s no need to obsess over extremely low noise levels—instead, you can focus on finding a balance between noise performance and cost-effectiveness.

Which cost-effective solution is suitable for cooling textile mills?

2021-04-14

Textile mills have numerous machines in their workshops, which generate substantial heat during operation, leading to high temperatures, stuffy and humid conditions, excessive flying fibers, and poor air quality—conditions that seriously affect workers' health. Therefore, textile mill cooling equipment can effectively address the current issues of high temperatures, stuffiness, and airborne fibers, enabling rapid air convection and exchange, ensuring a continuous influx of fresh air into the workshop, and thus creating a cool and comfortable working environment. For example, after installing negative-pressure fans and misting systems, the temperature in textile mill workshops can be reduced to an average range of 30–32 degrees Celsius, resulting in fresh, cool, and comfortable air. This solution is low-cost, maintenance-free, and highly effective.

Cooling Down Textile Factories: Why Cool Them Down? How to Cool Them Down?

2021-03-29

Why is it necessary to cool textile mills? If the temperature inside the workshop is too high, air circulation within the production area will be impaired, leaving the workshop in a hot and humid environment for extended periods, which can lead to heatstroke and oxygen deprivation. When people are exposed to high-temperature conditions for long periods, their bodies increase sweat production, resulting in excessive water loss and dehydration. This can also cause unnecessary production losses. Therefore, cooling systems must be installed in factory buildings.

The Importance of Spray Chambers to Factories

2021-03-18

What exactly is a spray chamber? It’s a versatile air-conditioning device capable of performing multiple air treatment processes, including heating, cooling, humidification, and dehumidification. It’s suitable for applications such as spray cooling, gas scrubbing, heat exchange, dust control, and chemical reaction processing. Its distinctive feature is its ability to generate a hollow conical spray pattern with a ring-shaped spray area and a spray angle ranging from 51 to 140 degrees. As for the characteristics and functions of the spray pipe array, this type of nozzle can produce uniformly distributed sprays with small to medium-sized droplets over a wide range of flow rates and pressures.

What is the water-passing capacity of a waterstop, and how does it affect air-conditioning energy savings when combined with water-cooled air supply?

2021-02-20

The baffle plate is one of the key components of the spray chamber. It not only has the ability to separate air from water but also plays a role in smoothing and evenizing the airflow. The so-called "water carryover rate" of the baffle plate refers to the amount of water droplets that remain entrained in the air after it has passed through the baffle plate. This portion of water, together with the air, travels directly into the workshop via the ductwork, where it absorbs heat and subsequently evaporates within the ducts or the workshop itself. Once transformed into water vapor, it increases the moisture content and humidity of the air.

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