Abstract

In this paper, we establish the scientific basis for the generation of intense hydroacoustic waves in a liquid as a result of the detonation of a stoichiometric mixture of hydrogen and oxygen. The idea of the possibility of carrying out this process with the help of a deep-water electrolyzer, which was confirmed experimentally, is expressed. The processes of combustion and detonation of a stoichiometric mixture of hydrogen and oxygen surrounded by a liquid medium and the initial conditions for an increase in pressure and temperature at the interface between detonation products and a liquid medium at the moment of explosion decay, providing the emergence and propagation of a hydroacoustic wave in a liquid medium, were studied using mathematical modeling methods. The dependence of the peak pressure of the resulting wave, the duration of its positive phase, and the duration of the first wave period on the volume of hydrogen and oxygen, pressure, and other parameters is estimated. The possibility of using the established effect to enhance oil production in oil and gas production is shown.

中文翻译：

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氢氧混合物爆轰激发高强度水声波的科学依据

摘要

在本文中，我们建立了氢和氧的化学计量混合物爆炸产生液体中强烈的水声波的科学依据。表达了在深水电解槽的帮助下进行该过程的可能性的想法，该想法已通过实验证实。氢和氧的化学计量混合物被液体介质包围的燃烧和爆炸过程，以及爆炸衰减时爆炸产物与液体介质之间的界面处压力和温度升高的初始条件，提供了出现条件使用数学建模方法研究了水声波在液体介质中的传播和传播。所产生的波的峰值压力的依赖性，估计其正相的持续时间，以及第一波周期的持续时间，该持续时间取决于氢气和氧气的体积，压力以及其他参数。显示了在石油和天然气生产中利用已建立的效果来提高石油产量的可能性。