Drum Flaker

drum flaker

Drum Flaker

Shell and tube heat exchangers stand as fundamental components in thermal processing systems, facilitating the efficient transfer of heat between fluids. In this guide, we’ll delve into the workings of shell and tube heat exchangers, exploring their design, applications, advantages, and maintenance considerations.

Understanding Shell and Tube Heat Exchangers:

  • Basic Principle: Shell and tube heat exchangers consist of tubes housed within a cylindrical shell. One fluid flows through the tubes (the tube side), while the other flows over the tubes within the shell (the shell side), facilitating heat exchange between the two fluids.
  • Construction: The tubes are typically made of stainless steel, copper, or titanium, while the shell is often constructed from carbon steel or stainless steel. The design allows for efficient heat transfer while ensuring structural integrity.

Operating Principles:

  • Counterflow vs. Parallel Flow: Shell and tube heat exchangers can operate in counterflow or parallel flow configurations. In counterflow, the two fluid streams flow in opposite directions, maximizing the temperature difference and, thus, the heat transfer rate. Parallel flow, on the other hand, involves both fluids moving in the same direction.

Applications Across Industries:

  • Petrochemical Industry: Shell and tube heat exchangers play a crucial role in refining processes, including condensation, distillation, and heating of various fluids.
  • HVAC Systems: These heat exchangers are commonly used in heating, ventilation, and air conditioning systems to regulate air temperature and humidity.
  • Power Generation: In power plants, shell and tube heat exchanger facilitate heat transfer between steam and water in boilers, condensers, and cooling systems.
  • Food Processing: Industries such as dairy, beverage, and pharmaceuticals utilize shell and tube heat exchangers for pasteurization, sterilization, and cooling.

Advantages and Limitations:

  • Advantages:
    • High Efficiency: Shell and tube heat exchangers offer efficient heat transfer due to their large surface area and turbulent flow.
    • Versatility: They can handle high pressures and temperature differentials, making them suitable for various applications.
    • Easy Maintenance: Their design allows for straightforward inspection, cleaning, and tube replacement if necessary.
  • Limitations:
    • Cost: Initial investment and maintenance costs may be higher than other heat exchangers.
    • Space Requirements: Shell and tube heat exchangers typically require more space than compact heat exchangers like plate heat exchangers.

Maintenance and Troubleshooting:

  • Regular Cleaning: Fouling of the tubes can reduce heat transfer efficiency, so periodic cleaning is essential to maintain optimal performance.
  • Tube Inspection: Inspecting for leaks, corrosion, or tube damage is crucial to prevent system failures and ensure safety.
  • Monitoring Performance: Monitoring temperature differentials and flow rates can help identify potential issues early and prevent costly downtime.

Conclusion:

Shell and tube heat exchangers are the cornerstone of thermal processing systems across various industries. They offer efficient heat transfer and reliable performance. Understanding their design, operation, and maintenance considerations is essential for maximizing their efficiency and longevity in industrial applications.

Product Description

High quality condensation rotary drum flaker can make the heated fluid which is in trough to stuck on the revolving cooling roller through the rotation of the cooling roller firstly, then cut it into flakes through adjustable scraper.

Thus it completes the conversion from liquid to solid flakes.

It is widely used in chemical and pharmaceutical and other industries.

The drum flaker improves the quality of the final flakes product compared with the product made by crusher.

Furthermore, this machine is easily to operate with good quality.

The thickness and output of this flaker depends on the raw material characteristics, drum speed and feeding speed.

The flake specifications can be customized.

Applications

1. For continuous drying of viscous, pasty and sticky materials in food, chemical and pharmaceutical industry. 

2. Heating area: 1.12-10.6 M2

3. Evaporation capacity: 40-60 kg water / hour 

4. Working type: continuous

5. Heat source: steam

Technical Advantages

1) High heat efficiency: Heat loss is mainly caused thermal radiation. Heat efficiency can be as high as 90%.

2) Short drying time: The drying process only takes 10-15 seconds. So drum dryer can be used for drying heat sensitive material.

3) Uniform drying: Heat transfer direction and coefficient all over the drum surface are the same. And wet material can be evenly spread over the drum surface. Wet material can be uniformly dried.

4) Long life span: Rotary drum is electro-polished and well heat treated to increase the smoothness and hardness.

5) Flexible application: Drum surface temperature, rotating speed, wet material film thickness are all adjustable to satisfy materials with different moisture and drying time.

6) Compact size: The drying chamber is very compact in size. Only need small installation space.

7) Low operation cost: The whole machine is very simple and reliable. It can be used for many years with little repair and maintenance.

8) Highest hygienic standard: Indirect heating and electro-polished drum surface can assure highest hygienic working conditions.


*Specification can be changed as per customers requirements