Solid bowl centrifuge

A solid bowl centrifuge is a type of centrifuge that uses the principle of sedimentation. A centrifuge is used to separate a mixture that consists of two substances with different densities by using the centrifugal force resulting from continuous rotation. It is normally used to separate solid-liquid, liquid-liquid, and solid-solid mixtures. Solid bowl centrifuges are widely used in various industrial applications, such as wastewater treatment, coal manufacturing, and polymer manufacturing. One advantage of solid bowl centrifuges for industrial uses is the simplicity of installation compared to other types of centrifuge. There are three design types of solid bowl centrifuge, which are conical, cylindrical, and conical-cylindrical.

Range Of Applications

Wastewater Sludge Treatment[1]

During the industrial process of wastewater treatment, huge quantity of sludge is produced. The sludge needs to be disposed of or having further treatment. One of the treatment methods available is thickening the sludge by using solid bowl centrifuges. While prior sludge have the concentration around 0.5-1 % of dry solid, after the thickening process, it will contain up to 5-6% of dry solids. This process reduces the waste of active sludge volume by more than 80% as well as minimizing the sludge amount for digestion by 30-40%. Furthermore, less disposal sludge also lowers the cost of polymer and improves the characteristics of dewatering.

Coal Treatment Underflow Slurry[2]

Coal slurry, which contains around 6% solids by weight and nearly 60% of 10 mm material, is thickened using solid bowl centrifuges. By using this centrifuge technique, the concentration of the end product could reach up to 55-60% solids without extra chemical added. Additionally, solid bowl centrifuge is also used in the water removal process from waste slurry obtained from coal-cleaning facility.

Polymer Manufacture[3]

Solid bowl centrifuge is used in the manufacture of polymer to recover acetates from polymer slurry. The conical beach is used for internal washing for acetates recovery improvement. Previously, the centrifuge only consists of single lead conveyor, and then improved using double lead conveyor in order to increase the capacity. Furthermore, the extra double lead conveyor with minimized pitch is used to improve the acetate yield.

Advantages & Disadvantages

Advantages[4]

Disadvantages[4]

Designs Available

Solid bowl centrifuge designs are divided into three different types based on the solid bowl shapes, which are conical, cylindrical, and cylindrical-conical. The choice of the centrifuge design in a particular industry is determined by the characteristics of the slurry and solids.[5]

Figure 1 : Solid Bowl Centrifuge Part [5]

Solid Bowl Centrifuge Based on Shapes Design

Conical Solid Bowl Centrifuge

Among the three designs, initially conical bowl was the most preferable design due to its maximum allowance of water removal and its excellent classifying ability. However, this design is less effective in achieving a high centrate quality, which makes it a poor clarifier.

Cylindrical Solid Bowl Centrifuge

Unlike conical bowl design, cylindrical bowl design does not allow maximum water removal, and thus mainly produces wet cakes. In addition, it is also a less effective classifier. However, cylindrical bowl design is more effective in achieving a high centrate quality compared to the conical bowl design, which makes it a better dewatering device compared to the conical bowl design.

Conical-cylindrical Solid Bowl Centrifuge

Conical-cylindrical bowl design was developed based on the conical and cylindrical bowl designs. This design is basically a combination of the best individual characteristics of the previous two designs, and therefore is a more advanced design. This particular design allows efficient dewatering ability, effective clarification, and fairly good classification within one unit. It has the ability to change and control the balance between the water removal and the centrate quality by the adjustment of its pool length, depending on the required product. Thus, conical-cylindrical bowl design is the most widely used in the industry today.

A typical conical-cylindrical solid bowl centrifuge design contains a rotating bowl unit connected to a conveyor with a gear system. The gear system allows the rotating bowl and the conveyor to rotate at different speeds but in the same direction. Commonly, the conveyor operates at the speed between 1900 and 2400 rotation per minute, while the bowl unit operates at 100 rotation per minute higher.[6]

The performances of the shape designed centrifuge types can be seen in the table as follows:

Table 1 : Centrifuge Type [5]

Solid Bowl Centrifuge Based on Exit Stream Design

Based on the exit stream of the solid cake and liquid centrate, there are two types of solid bowl centrifuge designs, which are:[6]

Concurrent Design

For this design, the solid cake and the liquid centrate leave the centrifuge bowl at the same end.

Counter Current Design

This design allows the solid cake and the liquid centrate to leave the centrifuge bowl at opposite ends. For this design, the conveyor pushes the sludge towards the end streams and the supernatant liquid is allowed to exit over the weirs.

Process Characteristics

Process Description [7][8]

With the help of helical screw conveyor, solid bowl centrifuges separate two substances with different densities by the centrifugal force formed under fast rotation. Feed slurry enters the conveyor and is delivered into the rotating bowl through discharge ports. There is a slight speed difference between the rotation of conveyor and bowl, causing the solids to convey from the stationary zone where the wastewater is introduced to the bowl wall. By centrifugal force, the collected solids moves along the bowl wall, out of the pool and up the dewatering beach located at the tapered end of the bowl. At last the solids separated go to solid discharge while the liquids go to liquid discharge. The clarified liquid flows through the conveyor in the opposite direction through adjustable overflow parts.

Main Process Characteristics [9][10]

The table below shows the percentage of solid separation that has been achieved within different solids and cake solid formed while considering the effect of adding polymer:[12]

Table 2 : Dewatering Performance[11]

.

Assessment of the Characteristics

Heuristics

Table 3 : Process Variables Effects
Table 4 : Machine Variables Control to Improve Solid Recovery

Production of Waste Stream

The post-treatment of the waste stream produced by the solid bowl centrifuge diverse depending on the industrial application. Since different industries have different feed for the centrifuge system, the waste stream will be different as well, and thus require different post treatments. Below are some examples of the waste stream production and its necessary post treatment in various applications in the industry.

Wastewater Sludge Treatment[14]

In water treatment, the wanted product is the clean water, while the waste is the sludge containing dissolved organic and inorganic materials, fibrous matter, and extracellular polymer (ECP). The sludge is commonly discarded down the sewer or to landfill. Occasionally, the sludge is used in the production of bricks and concrete, in agriculture as a soil additive, or for land reclamation. In this application, solid bowl centrifuge is used as the final step of the water treatment sludge before disposal in order to reduce landfill charges and transport costs.

Coal Treatment Underflow Slurry[2]

Solid-bowl centrifuge is used for dewatering the coal waste slurry along with plate-and-frame filter press in coal manufacturing to dewater the slurry before being disposed of. The slurry feed was attained from the underflow of a functioning bituminous coal-cleaning thickener device. As for the waste stream, it is usually disposed of into slurry cells or deserted underground mine site if available, or more commonly in slurry impoundments.

Polymer Manufacture[3]

In this industry, acetate is recovered during the manufacturing of polymers. In this case, the wanted product is actually the polymer; however, the acetate is not a waste either since it is recovered. While the polymer solids are discharged through the solid exit port and further processed, the acetate that is recovered through the liquid exit port and further separated from the washing liquid to recover pure acetate.

New Development

There are various aspects that can be improved from the current solid bowl centrifuges in order to increase its performance and reliability. To allow more control and simpler operation, support systems such as feed equipment, chemical dosing facility and better transfer pumps were designed and added. Moreover, the operating parameters can be adjusted to optimize the sludge dewatering process. It relies on rotational force in order to throw the solids out and for the sludge to stick to the outer all surfaces. The use of a metal screen or some suitable filtering material can also be added to achieve better solids dryness.[15]

References

  1. 1 2 3 4 Ratter, E.A., Schip, R.. (1994). Solid-bowl centrifuges for wastewater sludge treatment. Filtration & Separation Science Direct, Volume 31, Issue 4, p. 387–390, 386.
  2. 1 2 Peeters, B., Weis, S. (2004). Relationship between pool depth and internal washing on the beach of a solid bowl decanter centrifuge. Filtration & Separation Science Direct, Volume 41, Issue 6, p. 36-400
  3. 1 2 Klima, M.S, Coffman, R. (2011). Baseline Testing of A Filter Press and Solid-Bowl Centrifuge for Dewatering Coal Thickener Underflow Slurry. International Journal of Coal Preparation and Utilization,Volume 31, p. 258–272
  4. 1 2 Toprak Waterwaste Engineering (2006), Sludge Disposal & Design Examples. (accessed 12 October 2013)
  5. 1 2 3 4 5 Orris E. A, Eugene E.G. (1969). Centrifugation of Waste Sludges. Journal Water Pollution Control Federation, Volume 41, Issue 4, p. 607-628
  6. 1 2 Water Waste System (2009). Solid Bowl Centrifuge for Sludge Dewatering. http://www.wastewatersystem.net/2009/11/solid-bowl-centrifuge-for-sludge.html (Accessed 12 October 2013)
  7. Broadbent T. (2001). Centrifuges: the choice. Filtration & Separation Science Direct, Volume 38 Issue 3, p. 30-33
  8. 1 2 3 FSA Environment (2002). Case Study 10 Centrifuge Decanter, Solid Separation Systems for the Pig Industry. http://www.fsaconsulting.net/pdfs/Case%20Study%2010%20-%20Centrifuge.pdf (accessed 10 October 2013)
  9. Armenante P.M., (2011). Centrifuge, New jersey Institute of Technology. Lecture notes 10 http://cpe.njit.edu/dlnotes/CHE685/Cls10-1.pdf (accessed 11 October 2013)
  10. 1 2 3 4 5 Smidth, F.L (2010). Decanter Solid Bowl Centrifuge. Cement Technologies and Corporate Matters. http://www.flsmidth.com/enUS/Products/Product+Index/All+Products/Classification/Cen trifuges/SolidbowlCentrifuge/Solidbowl+Centrifuge (accessed 11 October 2013)
  11. 1 2 Porteous G.C. (2009). Dewatering Sewage Sludge by Centrifuge. Directorate General Water Engineering Research and Development Division. http://dwi.defra.gov.uk/research/completed-research/reports/dwi0183.pdf (accessed 10 October 2013)
  12. Water Environment Federation (2005). Solids Thickening and Dewatering Systems, National Manual of Good Practice for Biosolids http://www.wef.org/Biosolids/page.aspx?id=7767
  13. 1 2 3 4 5 6 7 NCD Separation Solutions Ltd (2005). Centrifuge focus: Evaluation, testing and optimisation. Filtration & Separation Science Direct, Volume 42, Issue 6, p.22-24
  14. Stickland, A.D. (2005). Solid-Liquid Separation in the Water and Wastewater Industries. The University of Melbourne, Australia
  15. Industrial Wastewater Treatment System (2009). Design and Process on Latest Effluent Plant Technology. http://www.wastewatersystem.net/2009/11/solid-bowl-centrifuge-for-sludge.html (accessed 12 October 2013)
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