Journal
ENERGIES
Volume 12, Issue 21, Pages -Publisher
MDPI
DOI: 10.3390/en12214134
Keywords
positive phase pressure function; pressure attenuation characteristic; supercritical carbon dioxide phase transition; liquid carbon dioxide blasting system
Categories
Funding
- China Postdoctoral Science Foundation [2018M632936]
- Fundamental Research Funds for the Central Universities [WUT: 2019IVA092]
- Research Fund of the State Key Laboratory of Coal Resources and Safe Mining, CUMT [SKLCRSM19KF020]
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As environmental requirements become more stringent, the liquid carbon dioxide blasting system is one of the non-explosive blasting technologies that, with low tensile stress energy, will replace the chemical explosive blasting technology, and the impact pressure characteristic of high-pressure fluid is a crucial factor in the process of rock breaking. To further investigate the impact and pressure attenuation characteristics of high-pressure fluid during the phase transition of liquid carbon dioxide blasting system, the pressure curves of high-pressure fluid in liquid carbon dioxide blasting systems at different distances were measured in the laboratory. Based on the mechanism analysis of phase transition kinetics, the initial jet velocity of the four experiments was calculated, and the rationality of results was verified by the Bernoulli equation. The general expression of the positive phase pressure-time function was proposed, and the idealized impact pressure curve can be divided into five stages. The impact pressure field of the liquid carbon dioxide blasting system can be divided into three areas at different distances: the explosive jet impact zone, the jet edge zone and the shock wave action zone, and the pressure-contrast distance fitting equation of the liquid carbon dioxide blasting system were obtained.
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