Rezumat
CZU 532:537
https://doi.org/10.52577/eom.2023.59.2.67
An algorithm of the stage-by-stage synthesis of combined energy sources based on a high-voltage electrochemical explosion (HVECHE) was developed. The algorithm provides the necessary space-time force and energy impact on processing objects to perform specified technological operations. At the first stage, the synthesis of an energy source based on a high-voltage electric discharge in condensed media was done by means of solving inverse synthesis problems and, as a result, determining the required total energy with its subsequent optimal separation into electrical and chemical components. Experimental studies of the dependence functions of the force impact on the processing object on the energy characteristics of the HVECHE were carried out. Based on those studies, the criteria for the optimal proportion between the electrical and chemical components of the required total energy were determined. An example of a specific use of the developed algorithm for the synthesis of a combined energy source based on the HVECHE was given, which confirms the possibility to use this algorithm for engineering calculations.
Keywords: pulse-discharge technologies, high-voltage electrical discharge, high-voltage electrochemical explosion, exothermic composition, pulse current generator, synthesis algorithm for energy sources, pressure pulse, specific electrical energy, efficiency of energy conversion.