Talks and Poster Presentations (with Proceedings-Entry):
M. Kiziroglou, Th. Becker, E. Yeatman, U. Schmid, J. Evans:
"Comparison of methods for static charge energy harvesting on aircraft";
Talk: SPIE Microtechnologies 2017,
Barcelnoa, Spanien;
2017-05-08
- 2017-05-10; in: "Proc. SPIE 10246, Smart Sensors, Actuators, and MEMS VIII",
SPIE,
(2017),
ISSN: 1996-756x;
Paper ID 102460X,
6 pages.
English abstract:
In this paper, the possibility of using the static charge that accumulates on aircraft during flight as a source to power
monitoring sensors is examined. The assessed methods include using a pair of materials with different air-flow charging
rates, contact discharging of the fuselage to neutral metallic bodies, charge motion induction by the fuselage field and
inductive harvesting of fuselage-to-air corona discharges at static discharge wicks. The installation and potential
advantages of each method are discussed. The feasibility of directly charging a storage capacitor from accumulated static
charge is studied experimentally, demonstrating a voltage of 25V on a 25nF capacitor.
German abstract:
In this paper, the possibility of using the static charge that accumulates on aircraft during flight as a source to power
monitoring sensors is examined. The assessed methods include using a pair of materials with different air-flow charging
rates, contact discharging of the fuselage to neutral metallic bodies, charge motion induction by the fuselage field and
inductive harvesting of fuselage-to-air corona discharges at static discharge wicks. The installation and potential
advantages of each method are discussed. The feasibility of directly charging a storage capacitor from accumulated static
charge is studied experimentally, demonstrating a voltage of 25V on a 25nF capacitor.
"Official" electronic version of the publication (accessed through its Digital Object Identifier - DOI)
http://dx.doi.org/10.1117/12.2264890
Created from the Publication Database of the Vienna University of Technology.