Sedimentation

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Short description: Tendency for particles in suspension to settle down


Sedimentation is the deposition of sediments.[1] It takes place when particles in suspension settle out of the fluid in which they are entrained and come to rest against a barrier. This is due to their motion through the fluid in response to the forces acting on them: these forces can be due to gravity, centrifugal acceleration, or electromagnetism. Settling is the falling of suspended particles through the liquid, whereas sedimentation is the final result of the settling process.

In geology, sedimentation is the deposition of sediments which results in the formation of sedimentary rock. The term is broadly applied to the entire range of processes that result in the formation of sedimentary rock, from initial erosion through sediment transport and settling to the lithification of the sediments. However, the strict geological definition of sedimentation is the mechanical deposition of sediment particles from an initial suspension in air or water.

Sedimentation may pertain to objects of various sizes, ranging from large rocks in flowing water, to suspensions of dust and pollen particles, to cellular suspensions, to solutions of single molecules such as proteins and peptides. Even small molecules supply a sufficiently strong force to produce significant sedimentation.

Principles

Settling

Classification

Classification of sedimentation:[2]

  • Type 1 sedimentation is characterized by particles that settle discretely at a constant settling velocity, or by the deposition of Iron-Rich minerals to streamlines down to the point source. They settle as individual particles and do not flocculate (stick to each other) during settling. Example: sand and grit material
  • Type 2 sedimentation is characterized by particles that flocculate during sedimentation and because of this their size is constantly changing and therefore their settling velocity is changing. Example: alum or iron coagulation
  • Type 3 sedimentation is also known as zone sedimentation. In this process the particles are at a high concentration (greater than 1000 mg/L) such that the particles tend to settle as a mass and a distinct clear zone and sludge zone are present. Zone settling occurs in lime-softening, sedimentation, active sludge sedimentation and sludge thickeners.

Sedimentation equilibrium

Main page: Biology:Sedimentation equilibrium

When particles settling from a suspension reach a hard boundary, the concentration of particles at the boundary is opposed by the diffusion of the particles. The distribution of sediment near the boundary comes into sedimentation equilibrium. Measurements of the distribution yields information on the nature of the particles.[3][4]

In geology

Siltation

In geology, the term sedimentation is broadly applied to the entire range of processes that result in the formation of sedimentary rock, from initial formation of sediments by erosion of particles from rock outcrops, through sediment transport and settling, to the lithification of the sediments. However, the term is more particularly applied to the deposition of sediments, and in the strictest sense, it applies only to the mechanical deposition of sediment particles from an initial suspension in air or water. Sedimentation results in the formation of depositional landforms and the rocks that constitute the sedimentary record.[5] The building up of land surfaces by sedimentation, particularly in river valleys, is called aggradation.[6]

The rate of sedimentation is the thickness of sediment accumulated per unit time.[7] For suspended load, this can be expressed mathematically by the Exner equation.[8] Rates of sedimentation vary from less than 3 millimeters (0.12 in) for pelagic sediment to several meters per year in portions of major river deltas. However, long-term accumulation of sediments is determined less by rate of sedimentation than by rate of subsidence, which creates accommodation space for sediments to accumulate over geological time scales. Most sedimentation in the geologic record occurred in relative brief depositional episodes separated by long intervals of nondeposition or even erosion.[9]

In estuarine environments, settling can be influenced by the presence or absence of vegetation. Trees such as mangroves are crucial to the attenuation of waves or currents, promoting the settlement of suspended particles.[10]

Siltation

Main page: Earth:Siltation

An undesired increased transport and sedimentation of suspended material is called siltation, and it is a major source of pollution in waterways in some parts of the world.[11][12] High sedimentation rates can be a result of poor land management and a high frequency of flooding events. If not managed properly, it can be detrimental to fragile ecosystems on the receiving end, such as coral reefs.[13] Climate change also affects siltation rates.[14]

Human-enhanced sedimentation

In chemistry

In chemistry, sedimentation has been used to measure the size of large molecules (macromolecule), where the force of gravity is augmented with centrifugal force in an ultracentrifuge.

In water treatment

See also

Notes

  1. sedimentation (3rd ed.), Oxford University Press, September 2005, http://oed.com/search?searchType=dictionary&q=sedimentation  (Subscription or UK public library membership required.)
  2. Coe, H.S.; Clevenger, G.H. (1916). "Methods for determining the capacities of slime-settling tanks". Transactions of the American Institute of Mining and Metallurgical Engineers 55: 356. 
  3. "The Nobel Prize in Physics 1926". 27 Nov 2021. https://www.nobelprize.org/prizes/physics/1926/summary/. 
  4. Piazza, Roberto; Buzzaccaro, Stefano; Secchi, Eleonora (2012-06-27). "The unbearable heaviness of colloids: facts, surprises, and puzzles in sedimentation" (in en). Journal of Physics: Condensed Matter 24 (28): 284109. doi:10.1088/0953-8984/24/28/284109. ISSN 0953-8984. PMID 22738878. Bibcode2012JPCM...24B4109P. https://iopscience.iop.org/article/10.1088/0953-8984/24/28/284109. 
  5. Jackson, Julia A., ed (1997). "sedimentation". Glossary of geology. (Fourth ed.). Alexandria, Virginia: American Geological Institute. ISBN 0922152349. 
  6. Jackson 1997, "aggradation".
  7. Jackson 1997, "rate of sedimentation".
  8. Paola, C.; Voller, V. R. (2005). "A generalized Exner equation for sediment mass balance". Journal of Geophysical Research 110: F04014. doi:10.1029/2004JF000274. Bibcode2005JGRF..11004014P. 
  9. Blatt, Harvey; Middleton, Gerard; Murray, Raymond (1980). Origin of sedimentary rocks (2d ed.). Englewood Cliffs, N.J.: Prentice-Hall. pp. 30–31, 122–123. ISBN 0136427103. 
  10. Van Santen, P.; Augustinus, P. G. E. F.; Janssen-Stelder, B. M.; Quartel, S.; Tri, N. H. (2007-02-15). "Sedimentation in an estuarine mangrove system". Journal of Asian Earth Sciences. Morphodynamics of the Red River Delta, Vietnam 29 (4): 566–575. doi:10.1016/j.jseaes.2006.05.011. Bibcode2007JAESc..29..566V. 
  11. "Siltation & Sedimentation". blackwarriorriver.org. http://blackwarriorriver.org/siltation-sedimentation.html. 
  12. "Siltation killed fish at Batang Rajang - Digest on Malaysian News". malaysiadigest.blogspot.com. http://malaysiadigest.blogspot.com/2009/02/siltation-killed-fish-at-batang-rajang.html. 
  13. Victor, Steven; Neth, Leinson; Golbuu, Yimnang; Wolanski, Eric; Richmond, Robert H. (2006-02-01). "Sedimentation in mangroves and coral reefs in a wet tropical island, Pohnpei, Micronesia". Estuarine, Coastal and Shelf Science 66 (3–4): 409–416. doi:10.1016/j.ecss.2005.07.025. Bibcode2006ECSS...66..409V. 
  14. U.D. Kulkarni. "The International Journal of Climate Change: Impacts and Responses » Rate of Siltation in Wular Lake, (Jammu and Kashmir, India) with Special Emphasis on its Climate & Tectonics". The International Journal of Climate Change: Impacts and Responses. http://ijc.cgpublisher.com/product/pub.185/prod.38. 




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