Mixing Powders: Ribbon Mixers vs Paddle Mixers

Efficiency In Mixing: Ribbon Mixers vs Paddle Mixers, Differences & Efficiencies Explained

Mixing is an important process in many industries, from food production to pharmaceuticals. It is used to combine multiple ingredients and form the desired end product. Mixers come in various shapes and sizes, but the two most commonly used types are ribbon mixers and paddle mixers. Both of these mixers have their own set of advantages and disadvantages, so it is important to understand the differences between them in order to make an informed decision about which type of mixer is best for your needs.

For more information, please visit Wldh Horizontal Ribbon Mixer machine.

Ribbon Mixers

Ribbon mixers are generally have a U shaped trough in regards to shape and feature a horizontal or vertical arrangement of two or more ribbons. These ribbons rotate in opposite directions and create a spiral mixing action that mixes the ingredients together. Ribbon mixers are often used for mixing large batches of materials, as they can mix a large amount of material and are easy to load given the open, U shaped trough with open top.

One of the main advantages of using a ribbon mixer is that it is able to mix materials that have different sizes, shapes, and densities, in large quantities. This makes it ideal for mixing ingredients such as powders, granules, and liquids. Additionally, ribbon mixers are able to mix at low speeds, making them ideal for delicate products that need to be mixed without being damaged.

However, one of the main drawbacks of using a ribbon mixer is that they are not as efficient at mixing smaller batches of materials. Ribbon mixers tend to have dead spots in the mixing chamber, which can lead to uneven mixing and product separation. Additionally, ribbon mixers may require additional scraping or tumbling to ensure a thorough mix. Heat transfer is also an issue if heating of products is needed. The open top as well as the void space between the product and top makes it an inefficient way of heating.

Paddle Mixers

Paddle mixers are generally cylindrical in shape and feature two or more paddles that rotate in the same direction and are staggered. Paddle mixers can create a shearing action if needed, or can be gentle with no shearing, and efficiently mixes the ingredients together in either need. Paddle mixers are often used for mixing smaller batches of materials as well as large batches, as they are able to rapidly mix an amount of material in a short amount of time.

One of the main advantages of using a paddle mixer is that it is able to slowly, delicately, and efficiently mix materials that have different sizes, shapes, and densities. Additionally, paddle mixers are able to mix at high speeds, making them ideal for products that need to be mixed quickly.

Heat transfer is also much better in the paddle mixers as the closed tops and cylindrical design has more surface area, as well as is closed, and increases efficiencies.

However, one of the main drawbacks of using a paddle mixer is that they are not as efficient in loading bulk materials directly into the mixer as the cylinder type configuration typically requires conveying when loading.

Types of Paddle Mixers

&#; Single Shaft Fluidized Zone Mixer

&#; Dual Shaft Fluidized Zone Mixer

&#; Paddle Mixer

&#; Vacuum Paddle Mixer & Dryer

Conclusion

When choosing a mixer, it is important to consider the size and type of material that needs to be mixed. Ribbon mixers are ideal for mixing large batches of bulk materials when loading without conveyors, while paddle mixers are better suited for mixing small or large batches, but typically require conveying for loading. Additionally, both types of mixers can mix materials with different sizes, shapes, and densities. Ultimately, the decision of which type of mixer is best for your needs will depend on the specific application. In the end, when you compare mixing times and efficiency of batch times, the paddle mixer outperforms the ribbon mixers.

As products become more specialized and the demand for quality rises, coatings are becoming increasingly more important in industries working with bulk solids. Whether intended to reduce dust, mitigate caking, or enhance performance, the ability to coat granules and other particles gives producers greater control over how their products look, behave, and perform.

Coating may be carried out using one of several devices. Oftentimes, and particularly in the fertilizer and soil amendment industry, the choice comes down to a coating drum or ribbon mixer. While both types offer an effective coating option, there are some settings where the coating drum provides a better approach to coating.

Here&#;s a look at these two types of coating equipment, and when it makes sense to choose a coating drum over a ribbon mixer.

About Coating Equipment

Coating equipment selection is just as important as the coating itself. The type of equipment chosen can have implications on critical aspects of the process and product, such as retention time, throughput, and even coating uniformity.

Both coating drums and ribbon mixers, also known as ribbon blenders, offer an effective coating solution in many different settings, but they each operate a little differently. In choosing between the two, it&#;s important to understand the fundamental differences between them.

The company is the world’s best types of powder mixers supplier. We are your one-stop shop for all needs. Our staff are highly-specialized and will help you find the product you need.

Note: A spray system mounted above a belt conveyor is another common approach to coating. However, this produces inferior results due to the significantly uneven distribution of coating and for this reason, has not been included here. For more information on how coating drums outperform belt conveyors, see our article, Improving the Fertilizer Coating Process With a Coating Drum.

The Coating Drum

A coating drum is a type of rotary equipment. Granules or particles are fed into the drum, which is typically set on an incline to help move material through the unit. A spray system distributes the liquid coating over the bed of material as the drum rotates. The rotation of the drum causes the granules to tumble and roll in the bed as they move through the unit, causing the coating agent to evenly distribute throughout the bed onto each granule.

The Ribbon Mixer

A ribbon mixer is a type of horizontal mixer. Granules or particles are fed into one end of the mixing trough, and a centrally mounted agitator, typically in the design of helical &#;ribbon(s)&#; helps to move material through the unit while also promoting a mixing action to distribute the coating throughout.

When to Choose a Coating Drum

Coating drums boast several advantages that make them the preferred device in a variety of settings. Most notably, coating drums are chosen over ribbon mixers when:

A Long Retention Time is Needed

The most common reason for which a coating drum is selected over a ribbon mixer is when the process demands a long retention (also known as residence time) &#; the amount of time the material must be processed in the unit to reach the desired results. A longer retention time is sometimes needed to accommodate a chemical reaction or the absorption of an additive.

While in some settings the coating drum&#;s size may be considered a disadvantage, in many settings, it is its size that offers this distinct advantage; coating drums can offer a significantly longer retention time compared to ribbon mixers, often doing the work of what would otherwise require multiple ribbon mixers.

The Process Has a High Throughput

Also because of their size, coating drums can handle a much higher throughput compared to ribbon mixers, making them ideal in high-capacity settings such as potash processing plants.

The Product Requires Gentle Handling

Coating drums also offer the best coating solution when the material to be coated is fragile or requires gentle handling. This is because coating drums impart a gentle rolling action, in contrast to the forced &#;pushing&#; movement that occurs in the ribbon mixer. Impact forces such as those that occur in the ribbon mixer tend to break down fragile particles. Similarly, pinch points within the mixer can also lead to product breakdown.

As such, when processing any particles that are fragile or in a wet state where deformation could occur, a coating drum offers the best solution.

Maintenance is a Concern

Due to their low maintenance requirements, coating drums are also the device of choice in settings where downtime must be kept to a minimum.

Ribbon mixers tend to have higher maintenance and cleaning requirements than coating drums, requiring ribbon placement as needed.

Another advantage in terms of maintenance is that the maintenance required of a coating drum typically occurs on the drum&#;s exterior components, meaning operators usually have a visual indicator of when maintenance is necessary. In contrast, the ribbon mixer&#;s maintenance requirements occur on the unit&#;s interior and are therefore often not discovered until the unit has been shut down.

The Material is Heat Sensitive

Because a ribbon mixer uses mechanical action to distribute the coating and move material through the unit, frictional forces can generate a slight increase in temperature. In most cases this is not a concern, but when working with materials that are sensitive to heat, the coating drum is the preferred type of equipment to mitigate the potential for product degradation due to heat.

Confirming Coating Drum Feasibility

The coating of granules can be a highly specialized endeavor; diversity in both granule and coating characteristics creates an endless set of operating conditions required to reach specific product quality.

Those unsure of whether or not a coating drum would work for their intended operation can take advantage of testing facilities such as the FEECO Innovation Center. Here, producers can test coating feasibility with their specific coating and material to not only confirm proof of concept, but also to gather the process data necessary for commercial-scale equipment design and scale-up of the process.

The FEECO Innovation Center is unique in that it allows for coating drum testing in isolation, or as part of a larger agglomeration/granulation and drying process.

Conclusion

While coating drums and ribbon mixers are often compared side-by-side in coating equipment selection, recognizing their many differences is critical to selecting the most appropriate device for the application at hand. When a long retention time or gentle handling are needed, as well as when the process has a high throughput, can&#;t afford downtime, or the material is sensitive to heat, coating drums provide the best option.

FEECO engineers and manufactures custom coating drums to meet specific processing requirements. In addition to equipment design and parts and service support, we also offer both testing and tolling capabilities to support coating operations. For more information on our coating drums and services, contact us today!

For more horizontal Ribbon Mixing Machineinformation, please contact us. We will provide professional answers.