When to Use Rotary Dryer?

08 Jul.,2024

 

Rotary dryer

Single shell rotary drum dryer

A rotary dryer is a type of industrial dryer used to reduce or minimize the moisture content of the material it is handling by bringing it into contact with a heated gas.[1] The dryer is made up of a rotating cylinder ("drum" or "shell"), a drive mechanism, and a support structure (commonly concrete posts or a steel frame). The cylinder is inclined slightly with the discharge end is lower than the material feed end so that material moves through the dryer under the influence of gravity. Material to be dried enters the dryer and, as the dryer rotates, the material is lifted up by a series of fins (known as flights) lining the inner wall of the dryer. When the material gets high enough, it falls back down to the bottom of the dryer, passing through the hot gas stream as it falls.

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Applications

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Rotary Dryers have many applications but are most commonly seen in the mineral industry for drying sand, stone, soil, and ore.[2] They are also used in the food industry for granular material such as grains, cereals, pulses, and coffee beans.

Design

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edit

]

A wide variety of rotary dryer designs are available for different applications. Gas flow, heat source, and drum design all affect the efficiency and suitability of a dryer for different materials.

Gas flow

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edit

]

The stream of hot gas can either be moving toward the discharge end from the feed end (known as co-current flow), or toward the feed end from the discharge end (known as counter-current flow). The direction of gas flow combined with the inclination of the drum determine how quickly material moves through the dryer.

Heat source

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edit

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The gas stream is most commonly heated with a burner using gas, coal or oil. If the hot gas stream is made up of a mixture of air and combustion gases from a burner, the dryer is known as "directly heated". Alternatively, the gas stream may consist of air or another (sometimes inert) gas that is preheated. Where burner combustion gases do not enter the dryer, the dryer is known as "indirectly-heated".[3] Often, indirectly heated dryers are used when product contamination is a concern. In some cases, a combination of direct-indirect heated rotary dryers are also used to improve the overall efficiency.

Drum design

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edit

]

Double Shell Rotary Drum DryerTriple Shell Rotary Drum Dryer

A rotary dryer can consist of a single shell or several concentric shells, though any more than three shells is not usually necessary. Multiple drums can reduce the amount of space that the equipment requires to achieve the same throughput. Multi-drum dryers are often heated directly by oil or gas burners. The addition of a combustion chamber at the feed end helps ensure efficient fuel usage, and homogenous drying air temperatures.

Combined processes

[

edit

]

Some rotary dryers have the ability to combine other processes with drying. Other processes that can be combined with drying include cooling, cleaning, shredding and separating.

See also

[

edit

]

References

[

edit

]

Rotary Dryer FAQs

Rotary drum dryers are one of the most widely used types of industrial dryers on the market today. Their heavy-duty design, high throughput, long-term reliability, and simple operation has lent them to a wide range of applications in a variety of industrial process settings. They are the dryer of choice for processing fertilizers and soil amendments, animal feeds, minerals and ores, and so much more.   

While rotary dryers have a relatively straight-forward design, many questions often arise in considering a rotary drum dryer for a given application, even when the application is well-established. Below are answers to some of the most frequently asked questions surrounding rotary drum dryers.

How does a rotary dryer work? 

Rotary dryers consist of a large, rotating drum through which wet solids are passed. As the material moves through the dryer, heat and air are used to remove the desired amount of moisture, with the mode of heating dependent on whether the unit is of the direct or indirect configuration. Most dryers are of the direct design, in which the material is in direct contact with the combustion gases, as this is the most efficient approach to moisture removal. 

The material is cascaded in the dryer at carefully controlled temperatures for a predetermined amount of time (referred to as the retention or residence time) to reach the desired final moisture content.

In the case of direct dryers, internal flights, or lifters, are used to pick up material and cascade it through the stream of combustion gases in order to maximize heat transfer efficiency.  

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  • Rotary Dryer (Drier) Flights


Lifting flights inside a FEECO Rotary Dryer

What&#;s the difference between a direct dryer and an indirect dryer? 

The principle difference between a direct rotary drum dryer and an indirect one, is how heat is introduced to the material. Direct dryers rely on convective heat transfer from direct contact between the material being processed and the combustion gases to efficiently dry the material. Conversely, indirect dryers avoid contact between the material and combustion gases, instead relying on heat transfer to occur through the drum shell wall via conduction. 

While this approach is less efficient than the direct dryer type, it is an essential processing option when working with materials that must be processed in an inert atmosphere, such as when processing sterile products. The indirect configuration is also chosen when processing ultra-fine materials, as it avoids the risk of solids becoming entrained in the gas flow and ending up in the exhaust gas system. 

What types of fuel can rotary dryers accept?

Rotary dryers can accommodate a variety of fuel types, including:

  • Fuel oil
  • Natural gas/Propane
  • Waste heat
  • Biogas
  • Electricity
  • Steam

What does the rotary dryer design process look like? 

The design process differs across manufacturers and depends on whether or not the manufacturer relies on standardized designs. 

Since rotary dryers are best designed around the specifications of the given application and material to be processed, standardized designs, while less costly and requiring less production time, are inherently not as effective or efficient. 

For a truly high-performance rotary dryer, the design process must take into account a wide range of factors such as inlet and outlet moisture, bulk density, heat transfer properties, material consistency and fragility, and more. 

The rotary dryer manufacturer will gather the necessary data points and use computer dryer sizing calculations to determine the optimal drum size. Depending on the process goals and application, dryer feasibility testing may be necessary to assess the material&#;s behavior in the dryer and define the process data necessary for scale-up. 

In addition to the process data, the dryer manufacturer will also consider material characteristics and process goals that will influence the design. This might mean selecting different materials of construction, assessing flight design, adding customizations such as knocking systems or trommel screens, and more. 

What capacities can a drum dryer handle?

Rotary dryers are capable of handling a wide range of throughput &#; typically anywhere from 1 TPH &#; 200 TPH. Rotary dryer capacity is a function of drum size and allowable air velocity. 

What information is necessary to design a rotary dryer? 

Rotary dryer manufacturers will require the following information to design a rotary dryer:

  • Desired throughput
  • Inlet and outlet moisture
  • Material bulk density
  • Inlet and outlet temperature
  • Maximum material temperature
  • Specific heat
  • Particle size (minimum, maximum, and average)
  • Desired fuel source
  • Higher heating value of fuel source
  • Plant elevation
  • Ambient air temperature at plant
  • Special accommodations (is material explosive, abrasive, etc.)

  • FEECO Rotary Dryer (Drier)


FEECO Rotary Dryer prepared for shipment

How is a rotary dryer different from a rotary kiln?

Rotary dryers and kilns are similar in design, but are employed for different reasons. Rotary dryers serve to remove moisture from the material, while rotary kilns are intended to cause a chemical reaction or physical change in the material by adding heat. For this reason, rotary kilns are typically operated at higher temperatures than dryers, and therefore, are designed with a higher heat tolerance in mind. 

What materials is the dryer constructed from?

Rotary drum dryers can be constructed from a wide range of materials, the choice of which is dependent on the temperatures employed and the characteristics of the material to be processed. Common materials of construction include:

  • Carbon steel
  • Stainless steel
  • Specialty alloys
  • Explosion bonded steel
  • Abrasion-resistant (AR) steel

The dryer may also utilize multiple materials of construction to meet the needs of the material being processed as well. For example, the sticky nature of some materials may benefit from using polished stainless steel for the inlet section, and carbon steel for the remainder of the drum shell. The polished stainless steel will discourage sticking near the inlet and give material a chance to dry a bit before it reaches the carbon steel, at which point the potential for sticking will be reduced.

What other equipment is needed to support the rotary dryer?

Rotary dryers are not an isolated device, but rather, require a few pieces of support equipment. A complete dryer system consists of:

  • Exhaust gas handling (or off-gas handling), where emissions are treated and any particulates are recovered. This includes scrubbers, cyclones, baghouses, electrostatic precipitators (ESP), and more.
  • Induced Draft (ID) fan, which draws air through the system to create a negative pressure
  • Burner, to produce the combustion reaction between the fuel source
  • Dilution air fan to allow for better control of the on gases
  • Combustion chamber (optional) to house the combustion reaction
  • Control system to control the drying rate
  • Material handling equipment, such as conveyors, to carry material to and away from the system

What temperatures do rotary dryers typically operate at? 

Rotary drum dryers typically operate at temperatures between 200°F and °F (93 to °C).

Which dryer type is best for my application &#; rotary drum dryer or fluid bed dryer? 

While there is some overlap between these two industrial dryer types, the choice between a rotary dryer and fluid bed dryer is a matter of capabilities. Rotary dryers are best suited for demanding drying applications, such as those found in the mining industry. They are also a better choice when variation in feedstock is common. For more information, see Rotary Dryer or Fluid Bed Dryer.

Can rotary dryers be automated? 

Yes: Rotary dryers are easily automated. Depending on the manufacturer, automation capabilities may differ. FEECO has partnered with Rockwell Automation to offer dryer automation capable of monitoring, collecting, and trending various data points such as current (amps), fan speed, feed rate, fuel usage, gas sampling & analysis, horsepower, system pressures, temperatures, and more. 

  • FEECO Rotary Drum Dryer (Drier)


FEECO Rotary Drum Dryer installed at customer site

Are rotary dryer specifications customizable?

Yes. In fact, FEECO recommends rotary dryers be customized for the application as much as possible, as this will produce the most efficient and reliable drying solution. 

Several aspects of the rotary dryer can be customized, including materials of construction, flight design and pattern, sizing, support equipment, and more. 

Conclusion

Rotary drum dryers offer efficient, reliable industrial drying; their high capacity, robust build, and flexible design makes them a fit for nearly any application.  

FEECO is the leading provider of custom rotary dryers, with hundreds of installations around the world. Our rotary dryers are built to the highest quality standards and are engineered around the unique characteristics of the material to be processed for an optimal drying solution. For more information on our dryers, contact us today!

Rotary dryer

Single shell rotary drum dryer

A rotary dryer is a type of industrial dryer used to reduce or minimize the moisture content of the material it is handling by bringing it into contact with a heated gas.[1] The dryer is made up of a rotating cylinder ("drum" or "shell"), a drive mechanism, and a support structure (commonly concrete posts or a steel frame). The cylinder is inclined slightly with the discharge end is lower than the material feed end so that material moves through the dryer under the influence of gravity. Material to be dried enters the dryer and, as the dryer rotates, the material is lifted up by a series of fins (known as flights) lining the inner wall of the dryer. When the material gets high enough, it falls back down to the bottom of the dryer, passing through the hot gas stream as it falls.

Applications

[

edit

]

Rotary Dryers have many applications but are most commonly seen in the mineral industry for drying sand, stone, soil, and ore.[2] They are also used in the food industry for granular material such as grains, cereals, pulses, and coffee beans.

Design

[

edit

]

A wide variety of rotary dryer designs are available for different applications. Gas flow, heat source, and drum design all affect the efficiency and suitability of a dryer for different materials.

Gas flow

[

edit

]

The stream of hot gas can either be moving toward the discharge end from the feed end (known as co-current flow), or toward the feed end from the discharge end (known as counter-current flow). The direction of gas flow combined with the inclination of the drum determine how quickly material moves through the dryer.

Heat source

[

edit

]

The gas stream is most commonly heated with a burner using gas, coal or oil. If the hot gas stream is made up of a mixture of air and combustion gases from a burner, the dryer is known as "directly heated". Alternatively, the gas stream may consist of air or another (sometimes inert) gas that is preheated. Where burner combustion gases do not enter the dryer, the dryer is known as "indirectly-heated".[3] Often, indirectly heated dryers are used when product contamination is a concern. In some cases, a combination of direct-indirect heated rotary dryers are also used to improve the overall efficiency.

Drum design

[

edit

]

Double Shell Rotary Drum DryerTriple Shell Rotary Drum Dryer

A rotary dryer can consist of a single shell or several concentric shells, though any more than three shells is not usually necessary. Multiple drums can reduce the amount of space that the equipment requires to achieve the same throughput. Multi-drum dryers are often heated directly by oil or gas burners. The addition of a combustion chamber at the feed end helps ensure efficient fuel usage, and homogenous drying air temperatures.

Combined processes

[

edit

]

Some rotary dryers have the ability to combine other processes with drying. Other processes that can be combined with drying include cooling, cleaning, shredding and separating.

See also

[

edit

]

References

[

edit

]

Rotary Dryer FAQs

Rotary drum dryers are one of the most widely used types of industrial dryers on the market today. Their heavy-duty design, high throughput, long-term reliability, and simple operation has lent them to a wide range of applications in a variety of industrial process settings. They are the dryer of choice for processing fertilizers and soil amendments, animal feeds, minerals and ores, and so much more.   

While rotary dryers have a relatively straight-forward design, many questions often arise in considering a rotary drum dryer for a given application, even when the application is well-established. Below are answers to some of the most frequently asked questions surrounding rotary drum dryers.

How does a rotary dryer work? 

Rotary dryers consist of a large, rotating drum through which wet solids are passed. As the material moves through the dryer, heat and air are used to remove the desired amount of moisture, with the mode of heating dependent on whether the unit is of the direct or indirect configuration. Most dryers are of the direct design, in which the material is in direct contact with the combustion gases, as this is the most efficient approach to moisture removal. 

The material is cascaded in the dryer at carefully controlled temperatures for a predetermined amount of time (referred to as the retention or residence time) to reach the desired final moisture content.

In the case of direct dryers, internal flights, or lifters, are used to pick up material and cascade it through the stream of combustion gases in order to maximize heat transfer efficiency.  

  • Rotary Dryer (Drier) Flights


Lifting flights inside a FEECO Rotary Dryer

What&#;s the difference between a direct dryer and an indirect dryer? 

The principle difference between a direct rotary drum dryer and an indirect one, is how heat is introduced to the material. Direct dryers rely on convective heat transfer from direct contact between the material being processed and the combustion gases to efficiently dry the material. Conversely, indirect dryers avoid contact between the material and combustion gases, instead relying on heat transfer to occur through the drum shell wall via conduction. 

While this approach is less efficient than the direct dryer type, it is an essential processing option when working with materials that must be processed in an inert atmosphere, such as when processing sterile products. The indirect configuration is also chosen when processing ultra-fine materials, as it avoids the risk of solids becoming entrained in the gas flow and ending up in the exhaust gas system. 

What types of fuel can rotary dryers accept?

Rotary dryers can accommodate a variety of fuel types, including:

  • Fuel oil
  • Natural gas/Propane
  • Waste heat
  • Biogas
  • Electricity
  • Steam

What does the rotary dryer design process look like? 

The design process differs across manufacturers and depends on whether or not the manufacturer relies on standardized designs. 

Since rotary dryers are best designed around the specifications of the given application and material to be processed, standardized designs, while less costly and requiring less production time, are inherently not as effective or efficient. 

For a truly high-performance rotary dryer, the design process must take into account a wide range of factors such as inlet and outlet moisture, bulk density, heat transfer properties, material consistency and fragility, and more. 

The rotary dryer manufacturer will gather the necessary data points and use computer dryer sizing calculations to determine the optimal drum size. Depending on the process goals and application, dryer feasibility testing may be necessary to assess the material&#;s behavior in the dryer and define the process data necessary for scale-up. 

In addition to the process data, the dryer manufacturer will also consider material characteristics and process goals that will influence the design. This might mean selecting different materials of construction, assessing flight design, adding customizations such as knocking systems or trommel screens, and more. 

What capacities can a drum dryer handle?

Rotary dryers are capable of handling a wide range of throughput &#; typically anywhere from 1 TPH &#; 200 TPH. Rotary dryer capacity is a function of drum size and allowable air velocity. 

What information is necessary to design a rotary dryer? 

Rotary dryer manufacturers will require the following information to design a rotary dryer:

  • Desired throughput
  • Inlet and outlet moisture
  • Material bulk density
  • Inlet and outlet temperature
  • Maximum material temperature
  • Specific heat
  • Particle size (minimum, maximum, and average)
  • Desired fuel source
  • Higher heating value of fuel source
  • Plant elevation
  • Ambient air temperature at plant
  • Special accommodations (is material explosive, abrasive, etc.)

  • FEECO Rotary Dryer (Drier)


FEECO Rotary Dryer prepared for shipment

How is a rotary dryer different from a rotary kiln?

Rotary dryers and kilns are similar in design, but are employed for different reasons. Rotary dryers serve to remove moisture from the material, while rotary kilns are intended to cause a chemical reaction or physical change in the material by adding heat. For this reason, rotary kilns are typically operated at higher temperatures than dryers, and therefore, are designed with a higher heat tolerance in mind. 

What materials is the dryer constructed from?

Rotary drum dryers can be constructed from a wide range of materials, the choice of which is dependent on the temperatures employed and the characteristics of the material to be processed. Common materials of construction include:

  • Carbon steel
  • Stainless steel
  • Specialty alloys
  • Explosion bonded steel
  • Abrasion-resistant (AR) steel

The dryer may also utilize multiple materials of construction to meet the needs of the material being processed as well. For example, the sticky nature of some materials may benefit from using polished stainless steel for the inlet section, and carbon steel for the remainder of the drum shell. The polished stainless steel will discourage sticking near the inlet and give material a chance to dry a bit before it reaches the carbon steel, at which point the potential for sticking will be reduced.

What other equipment is needed to support the rotary dryer?

Rotary dryers are not an isolated device, but rather, require a few pieces of support equipment. A complete dryer system consists of:

  • Exhaust gas handling (or off-gas handling), where emissions are treated and any particulates are recovered. This includes scrubbers, cyclones, baghouses, electrostatic precipitators (ESP), and more.
  • Induced Draft (ID) fan, which draws air through the system to create a negative pressure
  • Burner, to produce the combustion reaction between the fuel source
  • Dilution air fan to allow for better control of the on gases
  • Combustion chamber (optional) to house the combustion reaction
  • Control system to control the drying rate
  • Material handling equipment, such as conveyors, to carry material to and away from the system

What temperatures do rotary dryers typically operate at? 

Rotary drum dryers typically operate at temperatures between 200°F and °F (93 to °C).

Which dryer type is best for my application &#; rotary drum dryer or fluid bed dryer? 

While there is some overlap between these two industrial dryer types, the choice between a rotary dryer and fluid bed dryer is a matter of capabilities. Rotary dryers are best suited for demanding drying applications, such as those found in the mining industry. They are also a better choice when variation in feedstock is common. For more information, see Rotary Dryer or Fluid Bed Dryer.

Can rotary dryers be automated? 

Yes: Rotary dryers are easily automated. Depending on the manufacturer, automation capabilities may differ. FEECO has partnered with Rockwell Automation to offer dryer automation capable of monitoring, collecting, and trending various data points such as current (amps), fan speed, feed rate, fuel usage, gas sampling & analysis, horsepower, system pressures, temperatures, and more. 

  • FEECO Rotary Drum Dryer (Drier)


FEECO Rotary Drum Dryer installed at customer site

Are rotary dryer specifications customizable?

Yes. In fact, FEECO recommends rotary dryers be customized for the application as much as possible, as this will produce the most efficient and reliable drying solution. 

Several aspects of the rotary dryer can be customized, including materials of construction, flight design and pattern, sizing, support equipment, and more. 

Conclusion

Rotary drum dryers offer efficient, reliable industrial drying; their high capacity, robust build, and flexible design makes them a fit for nearly any application.  

FEECO is the leading provider of custom rotary dryers, with hundreds of installations around the world. Our rotary dryers are built to the highest quality standards and are engineered around the unique characteristics of the material to be processed for an optimal drying solution. For more information on our dryers, contact us today!