Optimization theory for ballistic conversion

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

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Abstract

The growing demand of renewable energy stimulates the exploration of new materials and methods for clean energy. We recently demonstrated a high efficiency and power density energy conversion mechanism by using jetted charged microdroplets, termed as ballistic energy conversion. Hereby, we model and experimentally characterize the physical properties of the ballistic energy conversion system.
Original languageUndefined
Title of host publication20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, MicroTAS 2016
PublisherThe Chemical and Biological Microsystems Society
Pages1503-1504
Number of pages2
ISBN (Print)978-0-9798064-9-0
Publication statusPublished - 9 Oct 2016
Event20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, µTAS 2016 - Convention Center Dublin, Dublin, Ireland
Duration: 9 Oct 201613 Oct 2016
Conference number: 20
http://www.microtas2016.org/

Publication series

NameInternational conference on Miniaturized Systems for Chemistry and LifeSciences (MicroTAS)
Publisherthe Chemical and Biological Microsystems Society
Number--
ISSN (Print)1556-5904

Conference

Conference20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, µTAS 2016
Abbreviated titleMicroTAS 2016
CountryIreland
CityDublin
Period9/10/1613/10/16
Internet address

Keywords

  • EWI-27514
  • METIS-319511
  • IR-102624

Cite this

Xie, Y., Versluis, M., van den Berg, A., & Eijkel, J. C. T. (2016). Optimization theory for ballistic conversion. In 20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, MicroTAS 2016 (pp. 1503-1504). (International conference on Miniaturized Systems for Chemistry and LifeSciences (MicroTAS); No. --). The Chemical and Biological Microsystems Society.
Xie, Yanbo ; Versluis, Michel ; van den Berg, Albert ; Eijkel, Jan C.T. / Optimization theory for ballistic conversion. 20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, MicroTAS 2016. The Chemical and Biological Microsystems Society, 2016. pp. 1503-1504 (International conference on Miniaturized Systems for Chemistry and LifeSciences (MicroTAS); --).
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abstract = "The growing demand of renewable energy stimulates the exploration of new materials and methods for clean energy. We recently demonstrated a high efficiency and power density energy conversion mechanism by using jetted charged microdroplets, termed as ballistic energy conversion. Hereby, we model and experimentally characterize the physical properties of the ballistic energy conversion system.",
keywords = "EWI-27514, METIS-319511, IR-102624",
author = "Yanbo Xie and Michel Versluis and {van den Berg}, Albert and Eijkel, {Jan C.T.}",
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Xie, Y, Versluis, M, van den Berg, A & Eijkel, JCT 2016, Optimization theory for ballistic conversion. in 20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, MicroTAS 2016. International conference on Miniaturized Systems for Chemistry and LifeSciences (MicroTAS), no. --, The Chemical and Biological Microsystems Society, pp. 1503-1504, 20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, µTAS 2016, Dublin, Ireland, 9/10/16.

Optimization theory for ballistic conversion. / Xie, Yanbo; Versluis, Michel; van den Berg, Albert; Eijkel, Jan C.T.

20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, MicroTAS 2016. The Chemical and Biological Microsystems Society, 2016. p. 1503-1504 (International conference on Miniaturized Systems for Chemistry and LifeSciences (MicroTAS); No. --).

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

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T1 - Optimization theory for ballistic conversion

AU - Xie, Yanbo

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AU - van den Berg, Albert

AU - Eijkel, Jan C.T.

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AB - The growing demand of renewable energy stimulates the exploration of new materials and methods for clean energy. We recently demonstrated a high efficiency and power density energy conversion mechanism by using jetted charged microdroplets, termed as ballistic energy conversion. Hereby, we model and experimentally characterize the physical properties of the ballistic energy conversion system.

KW - EWI-27514

KW - METIS-319511

KW - IR-102624

M3 - Conference contribution

SN - 978-0-9798064-9-0

T3 - International conference on Miniaturized Systems for Chemistry and LifeSciences (MicroTAS)

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BT - 20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, MicroTAS 2016

PB - The Chemical and Biological Microsystems Society

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Xie Y, Versluis M, van den Berg A, Eijkel JCT. Optimization theory for ballistic conversion. In 20th International Conference on Miniaturized Systems for Chemistry and LifeSciences, MicroTAS 2016. The Chemical and Biological Microsystems Society. 2016. p. 1503-1504. (International conference on Miniaturized Systems for Chemistry and LifeSciences (MicroTAS); --).