Characterization of multi-jet electrospray systems
Characterization of multi-jet electrospray systems
Experimental results obtained in multi-jet mode electrospray are presented for two fluids: propylene carbonate and triethylene glycol, each doped with sodium iodide. No structural features were provided in the electrospray emitting capillary in order to stabilize the multi-jet process. For a low number of jets emitted the meniscus is not bound to the rim of the capillary, however as the number of jets increases the mode becomes the so-called rim-mode electrospray. The data thus obtained shows that in all cases the relationship between current and flow rate observed in single cone-jet mode is maintained in multi-jet mode when the current and flow rate is normalized by the number of jets. The results were obtained here for a range of capillary external diameter and under either vacuum or atmospheric pressure; neither of these aspects influenced the observed relationships. The high accuracy flow metering system used demonstrates that in the multi-jet modes the minimum stable flow rate per cone-jet system is reduced below that observed in the single cone-jet mode. However multi-jet mode is seen to be less stable, in that each jet in multi-jet mode is unable to support the same volumetric flow as in the single jet mode; indeed it appears that there is a maximum total flow that can be maintained in an electrospray, independent of the number of jets through which the flow is achieved. A simple model is presented that links these observations to predict the maximum number of jets that may be obtained in the type of multi-jet processes observed here
electrospray, multi-jet, minimum flow, charge efficiency
35-48
Ryan, Charles
3627e47b-01b8-4ddb-b248-4243aad1f872
Smith, Katherine
9093b9f6-16a3-4d4d-8361-a8be37e4fe2d
John, Stark
897740b1-30e1-459f-af52-8baffeed089d
14 April 2012
Ryan, Charles
3627e47b-01b8-4ddb-b248-4243aad1f872
Smith, Katherine
9093b9f6-16a3-4d4d-8361-a8be37e4fe2d
John, Stark
897740b1-30e1-459f-af52-8baffeed089d
Ryan, Charles, Smith, Katherine and John, Stark
(2012)
Characterization of multi-jet electrospray systems.
Journal of Aerosol Science, 51, .
(doi:10.1016/j.jaerosci.2012.03.007).
Abstract
Experimental results obtained in multi-jet mode electrospray are presented for two fluids: propylene carbonate and triethylene glycol, each doped with sodium iodide. No structural features were provided in the electrospray emitting capillary in order to stabilize the multi-jet process. For a low number of jets emitted the meniscus is not bound to the rim of the capillary, however as the number of jets increases the mode becomes the so-called rim-mode electrospray. The data thus obtained shows that in all cases the relationship between current and flow rate observed in single cone-jet mode is maintained in multi-jet mode when the current and flow rate is normalized by the number of jets. The results were obtained here for a range of capillary external diameter and under either vacuum or atmospheric pressure; neither of these aspects influenced the observed relationships. The high accuracy flow metering system used demonstrates that in the multi-jet modes the minimum stable flow rate per cone-jet system is reduced below that observed in the single cone-jet mode. However multi-jet mode is seen to be less stable, in that each jet in multi-jet mode is unable to support the same volumetric flow as in the single jet mode; indeed it appears that there is a maximum total flow that can be maintained in an electrospray, independent of the number of jets through which the flow is achieved. A simple model is presented that links these observations to predict the maximum number of jets that may be obtained in the type of multi-jet processes observed here
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Accepted/In Press date: 28 March 2012
Published date: 14 April 2012
Keywords:
electrospray, multi-jet, minimum flow, charge efficiency
Organisations:
Astronautics Group
Identifiers
Local EPrints ID: 384333
URI: http://eprints.soton.ac.uk/id/eprint/384333
ISSN: 0021-8502
PURE UUID: 6e172017-4aa4-4c44-870b-2bf33a742a76
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Date deposited: 11 Dec 2015 15:06
Last modified: 14 Mar 2024 21:57
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Author:
Katherine Smith
Author:
Stark John
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