Thrust Vector Control within a Geometric Sphere, and the Use of Euler's Tips to Create Jet Technology

Yu. A. Sazonov, M. A. Mokhov, I. V. Gryaznova, V. Voronova, Kh. A. Tumanyan, Egor I. Konyushkov
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Abstract

This study aims to study the issues of choosing promising directions for the development of jet technology with the creation of energy-conserving technologies. The purpose of this article is to study the issues of choosing promising directions for the development of jet technology with the creation of energy-saving. Methodological approaches have been developed for solving inventive problems within the framework of training modern designers-inventors. A new patentable jet unit has been developed and presented, which makes it possible to control the thrust vector within a complete geometric sphere (when the thrust vector is capable of deviating to any angle ranging from +180° to -180°). For the first time, demonstration versions of a nozzle apparatus capable of realizing such flow reversals through annular channels are shown. The results of computer modeling of nozzle devices are focused on energy, production, and processing of hydrocarbons when distributing energy flows at process facilities. The individual results of the ongoing work can also be used in other industries, for instance, in the creation of small-sized high-speed unmanned vehicles for search and rescue operations. Proposals have been prepared to improve the methodology for solving inventive problems as part of the development of Leonard Euler’s ideas. Doi: 10.28991/CEJ-2023-09-10-011 Full Text: PDF
几何球体内的推力矢量控制,以及利用欧拉提示创建喷流技术
本文旨在研究在创造节能技术的前提下为喷气技术的发展选择有前途的方向的问题。本文旨在研究在创造节能技术的前提下为喷气技术的发展选择有前途的方向的问题。在培训现代设计师-发明家的框架内,已经制定了解决发明问题的方法论。开发并展示了一种可申请专利的新型喷气装置,该装置可以在一个完整的几何球体内控制推力矢量(当推力矢量能够偏离 +180° 至 -180° 之间的任何角度时)。首次展示了能够通过环形通道实现这种流动反转的喷嘴装置的演示版本。喷嘴装置的计算机建模结果主要集中在能源、生产和碳氢化合物加工设施的能量流分配方面。正在进行的工作所取得的个别成果也可用于其他行业,例如用于制造小型高速无人驾驶搜救车。作为伦纳德-欧拉思想发展的一部分,已经准备好了改进解决发明问题方法的建议。Doi: 10.28991/CEJ-2023-09-10-011 全文:PDF
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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