TR2022001490A2 - Piezo Electrostatic Droplet Propulsion System - Google Patents

Abstract

The piezo electrostatic droplet propulsion system, which is the subject of the invention, consists of an accelerator grid electrode (2) and a sputtering grid electrode (3) located in parallel in the main housing (1). The electrodes have a high electrical potential difference. Piezoelectric discs (7) associated with the intermediate conductive discs (5) vibrate under the influence of high-frequency AC current, making the planar insulation (6) and peripheral insulation (4) coincident to the discs vibrate, and the sputtering grid electrode (3) coincident with the insulation. Ionized liquid; It sprays out from the micrometer holes of the vibrating electrode, splits into small droplets and partial atomization is achieved. The ionized liquid droplets gain momentum by accelerating in the electric field formed between the electrodes and pass through the holes of the accelerator grid electrode (2), providing thrust formation.

Description

DESCRIPTION PIEZO ELECTROSTATIC DROPLET IMPULSION SYSTEM Technical Field This invention; Electric power propulsion systems, especially electrostatic ion propulsion engines and ion propulsion systems, which are widely known in the prior art literature, work by ionizing a gas and accelerating it with a high potential difference in an electric field. Gaseous fuels are used in the mentioned systems, and storing gaseous fuels at high pressure and ensuring their transmission without leakage creates technical and practical difficulties. At the same time, the complex nature of the mentioned systems makes scaling difficult for small vehicles. In fuel injection, generally in small-scale electrospray systems, which are used as an alternative to the mentioned systems, atomization is achieved by spraying the liquid fuel through micrometer-sized cones with high pressure. Micrometer level production precision is required in the production of the specified cones. As a result of this situation, production difficulty and cost increase, and system life is significantly shortened due to wear of the electrode cones as a result of engine operation. Purpose of the Invention The main purpose of the invention is; The aim is to enable the use of liquid fuels in ion propulsion systems without increasing production difficulty and system complexity. Within the scope of the invention, fuel injection is provided with the support of a piezo transducer, and an additional pressure pump system is not required. In this way, the aim is to scale the systems and apply them to CubeSat and similar small-scale systems. Description of the Drawings The invention is explained with drawings. Figure 1: General view of the piezo electrostatic droplet propulsion system. Figure 2: Sectional view of the system from the side plane. Figure 3: Side plane sectional perspective view of the system. Figure 4: Exploded perspective view of the spraying grid electrode (3), environmental insulation (4), intermediate conductive discs (5), planar electrode (6) and piezoelectric discs (7) of the system. Figure 5: The cross-sectional view of the electric field created by the sprayer grid electrode (3) and the accelerator grid electrode from the electric potential contoured side plane. Explanation of References in the Figures The figures that will help understand the invention are numbered and their names are given below. (1) - Main housing (2) - Accelerator grid electrode (3) - Sprayer grid electrode (4) - Environmental insulation (5) - Interconductive discs (6) - Planar insulation (7) - Piezoelectric discs (8) - Electrodes insulation between insulation Description of the invention Invention; spaced spaced accelerator grid electrode (2) and sprayer grid electrode (3) for the main housing (l), environmental insulation (4) and planar insulation (6) overlapping the sprayer electrode, intermediate conductive disks (5) coincident concentrically with the insulation parts. It contains piezoelectric disks (7) and inter-electrode insulation (8) that provide vibration movement in the system. The accelerating grid electrode (2) and the spraying grid electrode (3) have a high potential difference (approximately 3kV). Piezoelectric discs (7) vibrate as a result of the application of high-frequency AC current transmitted through the intermediate conductive discs and transfer the vibration to the spraying electrode (3). The ionized liquid is sprayed through the micrometer holes of the vibrating sprayer electrode (3), ensuring the separation of the liquid into small droplets and partial atomization. The mentioned small droplets move away from the spraying grid electrode (3) due to their charges and are attracted to the oppositely charged accelerating grid electrode (2) by gaining acceleration and momentum on the electric field formed between the electrodes. The droplets pass through the holes of the accelerator electrode (2) and provide thrust generation. Thanks to the opposite charge of the liquid and spraying electrode (3), clogging in the holes is prevented and the electrode life is increased. By integrating a neutralizing cathode or an oppositely charged additional electrode into the system, which affects the output of the accelerating grid electrode (2) and ensures the formation of free electrons, impulse losses that may occur at the system output due to the electrode load can be prevented. Fields of Application of the Invention in Industry The idea and method that are the subject of the invention can be used in the space vehicle industry as a propulsion system for orbital protection and maneuvering purposes in electric powered space vehicles and similar low power vehicles. The engine can be used with an additional neutralizing cathode in small-scale vehicles, thanks to its suitability for scalability and simple structure compared to the systems common in the literature. TR TR TR

Claims (1)

1.CLAIMS The invention is a piezo electrostatic droplet propulsion system and its feature is; - accelerating grid electrode (2) located within the main housing (l), - spraying grid electrode (3) located at intervals parallel to the accelerating grid electrode (2), - environmental insulation (4) and planar insulation (overlapping) to the spraying grid electrode (3). 6), - planar insulation (6) and environmental insulation (4) and concentrically coincident interconductive disks (5), - piezoelectric disks (7) that provide vibration movement by interacting with the planar insulation (6) and spraying grid electrode (5). ), - It consists of piezoelectric disks (7) and insulation (8) between the coincident electrodes of the accelerator grid electrode (2). It is the piezo electrostatic droplet propulsion system mentioned in Claim 1 and its feature is; The spraying grid electrode (3) has micrometer diameter holes. It is the piezo electrostatic droplet propulsion system mentioned in claim 1 or 2, and its feature is; The spraying grid electrode (3) and the accelerating grid electrode (2) create an electric field with a high electrical potential difference. It is the piezo electrostatic droplet propulsion system mentioned in Claim 1, 2 or 3, and its feature is; The piezoelectric disks (7) vibrate and interact with the spraying grid electrode (3), causing the ionized liquid to spray from the electrode holes. It is a rotary expansion internal combustion engine mentioned in Claim 1, 2, 3 or 47, and its feature is; It is the acceleration of the sprayed ionized liquid under the influence of the electric field specified in Claim 3. TR TR TR