Abstract A theoretical analysis considering the capabilities of nano electrokinetic thrusters for space propulsion is presented. The work describes an electro-hydro-dynamic model of the electrokinetic flow in nano-channels and represents the first attempt to exploit the advantages of the electrokinetic effect as the basis for a new class of nano-scale thrusters suitable for space propulsion. Among such advantages are their small volume, fundamental simplicity, overall low mass, and actuation efficiency. Their electrokinetic efficiency is affected by the slip length, surface charge, pH and molarity. These design variables are analyzed and optimized for the highest electrokinetic performance inside nano-channels. The optimization is done for power consumption, thrust and specific impulse resulting in high theoretical efficiency ∼99% with corresponding high thrust-to-power ratios. Performance curves are obtained for the electrokinetic design variables showing that high molarity electrolytes lead to high thrust and specific impulse values, whereas low molarities provide highest thrust-to-power ratios and efficiencies. A theoretically designed 100nm wide by 1μm long emitter optimized using the ideal performance charts developed would deliver thrusts from 5 to 43μN, specific impulse from 60 to 210s, and would have power consumption between 1–15mW. It should be noted that although this is a detail analytical analysis no prototypes exist and any future experimental work will face challenges that could affect the final performance. By designing an array composed of thousands of these single electrokinetic emitters, it would result in a flexible and scalable propulsion system capable of providing a wide range of thrust control for different mission scenarios and maintaining very high efficiencies and thrust-to-power ratio by varying the number of emitters in use at any one time.

    Highlights ► A new class of nano electrokinetic (EK) space thrusters is theoretically modeled. ► Electro-hydro-dynamic model and performance characteristics of EK emitters derived. ► EK design parameters are identified and optimized for Isp, power and efficiency. ► They can be grouped in arrays with thousands of EK emitters having high efficiency. ► An emitter 0.1×1μm2 delivers 43μN thrust and 210s specific impulse with 15mW power in.


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    Title :

    On the capabilities of nano electrokinetic thrusters for space propulsion


    Contributors:
    Diez, F.J. (author) / Hernaiz, G. (author) / Miranda, J.J. (author) / Sureda, M. (author)

    Published in:

    Acta Astronautica ; 83 ; 97-107


    Publication date :

    2012-09-24


    Size :

    11 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English





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