Taylor cone

Taylor cone

A Taylor cone refers to the cone observed in electrospray and hydrodynamic spray processes from which a jet of charged particles emanates above a threshold voltage. Aside from electrospray ionization in mass spectrometry the Taylor cone is important in colloid thrusters used in fine control and high efficiency (low power) thrust of spacecraft.

History

This cone was described by Sir Geoffrey Ingram Taylor in 1964 before electrospray was "discovered". [cite journal | author = Sir Geoffrey Taylor | year = 1964 | title = Disintegration of Water Droplets in an Electric Field | journal = Proc. Roy. Soc. London. Ser. A | volume = 280 | pages = 383 | url = http://links.jstor.org/sici?sici=0080-4630%2819640728%29280%3A1382%3C383%3ADOWDIA%3E2.0.CO%3B2-Q&size=LARGE | issue = 1382 | doi = 10.1098/rspa.1964.0151] This work followed on the work of Zeleny [cite journal| author=Zeleny, J. |title = The Electrical Discharge from Liquid Points, and a Hydrostatic Method of Measuring the Electric Intensity at Their Surfaces. | journal = Physical Review | date = 1914 | volume = 3 | pages = 69 | doi = 10.1103/PhysRev.3.69] where in 1917 he photographed a cone-jet of glycerine under high electric field and the work of several others, Wilson & Taylor (1925), [ cite journal|title=The bursting of soap bubbles in a uniform electric field|journal=Proc. Cambridge Philos. Soc.|date=1925|first=C. T.|last=Wilson|coauthors= G. I Taylor|volume=22|issue=|pages=728|id= |url=|format=|accessdate= ] Nolan (1926) [ cite journal|title= |journal=Proc. R. Ir. Acad. Sect. A|date=1926|first=J. J.|last=Nolan|coauthors=|volume=37|issue=|pages=28|id= |url=|format=|accessdate= ] and Macky (1931). cite journal|title=Some Investigations on the Deformation and Breaking of Water Drops in Strong Electric Fields|journal=Proceedings of the Royal Society of London. Series A|date=October 01, 1931|first=W. A.|last=Macky|coauthors=|volume=133|issue=822|pages=565–587|doi= 10.1098/rspa.1931.0168|url=http://www.journals.royalsoc.ac.uk/content/c6188343042555vw/fulltext.pdf|format=PDF|accessdate=2007-10-25] Taylor was primarily interested in the behavior of water droplets in strong electric fields, such as in thunderstorms.

Taylor cone formation

When a small volume of electrically conductive liquid is exposed to an electric field the shape of liquid starts to deform from the shape caused by surface tension alone. As the voltage is increased the effect of the electric field becomes more prominent and as it approaches exerting a similar amount of force on the droplet as the surface tension does a cone shape begins to form with convex sides and a rounded tip. This approaches the shape of a straight generatrix (cone) with a whole angle (width) of 98.6°. When a certain threshold voltage has been reached the slightly rounded tip inverts and emits a jet of liquid. This is called a cone-jet and is the beginning of the electrospray process in which ions may be transferred to the gas phase. It is generally found that in order to achieve a stable cone-jet a slightly higher than threshold voltage must be used. As the voltage is increased even more other modes of droplet disintegration are found. The term Taylor cone can specifically refer to the theoretical limit of a perfect cone of exactly the predicted angle or generally refer to the approximately conical portion of a cone-jet after the electrospray process has begun.

Theory

Sir Geoffrey Ingram Taylor in 1964 described this phenomenon, theoretically derived based on general assumptions that the requirements to form a perfect cone under such conditions required a semi-vertical angle of 49.3° (a whole angle of 98.6°) and demonstrated that the shape of such a cone approached the theoretical shape just before jet formation. This angle is known as the Taylor angle. This angle is more precisely pi- heta _0, where heta _0, is the first zero of P _{1/2} (cos heta _0), (the Legendre polynomial of order 1/2).

Taylor's derivation is based on two assumptions: (1) that the surface of the cone is an equipotential surface and (2) that the cone exists in a steady state equilibrium. To meet both of these criteria the electric field must have azimuthal symmetry and have sqrt{R}, dependence to counter the surface tension to produce the cone. The solution to this problem is:

:V=V_0+AR^{1/2}P _{1/2} (cos heta _0),

where V=V_0, (equipotential surface) exists at a value of heta _0 (regardless of R) producing an equipotential cone. The magic angle necessary for V=V_0, for all R is a zero of P _{1/2} (cos heta _0), between 0 and pi, which there is only one at 130.7099°. The complement of this angle is the Taylor angle.

References

External links


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