本帖最后由 choi 于 12-20-2018 14:39 编辑
(1) On Nov 21, 2018 Nature published three on the topic:
(a) Editorial: First Flight of Ion-Drive Aircraft; A remarkable machine propelled by ionic wind could signal a future with cleaner aeroplanes. Nature, 563: 443.
https://www.nature.com/articles/d41586-018-07477-9
("A News and Views article delves into the technical details and the challenges that must be addressed to scale up the prototype plane. Is such a goal achievable? Conventional wisdom would say probably not. But then it also said that aircraft with ion-drive, or electroaerodynamic, engines — which create thrust by using electrical forces to accelerate ions in a fluid to form an ionic wind — would never fly at all")
, which is available to the public but there is no need to read it.
(b) This is written for the public:
Franck Plouraboué, Flying with Ionic Wind. Aeroplanes use propellers and turbines, and are typically powered by fossil-fuel combustion. An alternative method of propelling planes has been demonstrated that does not require moving parts or combustion. Nature, 563: 476 (in the "News and Views" section).
https://www.nature.com/articles/d41586-018-07411-z
Quote:
"In Xu and colleagues' plane, an electric field is applied to the region that surrounds a fine wire called the emitter (Fig 1a). The field is strong enough to induce a chain reaction: free electrons in the region collide heavily enough with air molecules to ionize them, producing more electrons that then ionize more molecules. These electron cascades give rise to charged air molecules in the vicinity of the emitter — a phenomenon called a corona discharge. Finally, the charged molecules drift away from the emitter and generate a propulsive ionic wind as they are accelerated by the electric field towards a device called the collector (Fig. 1b). This process occurs only in gases, and not in liquids, justifying the authors' use of the term 'electro-aerodynamics.'
"The optimization technique [by Barrett group] found a feasible design at a wingspan of 5 metres, with a mass of 2.5 kilograms, a flight velocity of 4.8 metres per second and a power requirement of 600 watts. The authors built a full-scale plane based on this design (see Fig 1b of the paper [which is (1)(c) and listed below).
(i) Plouraboué is senior researcher at the Institute of Fluid Mechanics of Toulouse (French acronym: IMFT), University of Toulouse and CERN.
https://en.wikipedia.org/wiki/Ce ... herche_scientifique
(ii) Do not worry if you can not understand quotation 1. The notion will be explained in (3) below.
(iii) Fig 1(a) is viewed from (a person who is at) the collector toward the emitter. So outside the circle (marked with "corona-discharged region") the pink circle (marked with "+" inside) and the grey circle (labeled with "Neutral air molecule") are flying toward (but not necessarily at) the collector.
(iv) What is the orientation of Fig 1(b) relative to the plane (or unmanned aviation vehicle (UAV)? Plouraboué did not say; I figure out that the left of Fig 1(b) faces the front , and right does the rear of the plane. See (2) below.
(c) Xu et al, Flight of an Aeroplane with Solid-State Propulsion. Nature, 563: 532 (in the Letters section).
https://www.nature.com/articles/s41586-018-0707-9
("a fixed-wing aeroplane * * * All batteries and power systems, including a specifically developed ultralight high-voltage (40-kilovolt) power converter, were carried on-board. * * * We provide a proof of concept for electroaerodynamic aeroplane propulsion")
is locked behind paywall.
(i) The corresponding author, Steven Barrett, is an associate professor with MIT's Department of Aeronautics and Astronautics.
(ii) I am stumped by the term "solid-state propulsion." (Judging from the context of MIT's own press releases and the following news reports, the term appears to mean "no moving parts.") Beyond this burst of publicity (around Nov 21), the only two other use of this term are found in
(A) solid-state fan
https://en.wikipedia.org/wiki/Solid-state_fan
(in toto: "is a device used to produce an airflow with no moving parts. Such a device may use the principle of electro-aerodynamic pumping, which is based on corona discharge")
It has advantages over mechanical fans such as that it is noiseless and more reliable")
(B) a company name Digital Solid State Propulsion, Inc (based in Reno, Nevada. Compare solid-state physics (semiconductor, in contrast with vacuum tube) and solid-state storage/solid-state drive.
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