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- Title
Simulation and verification of an air-gun array wavelet in time-frequency domain based on van der waals gas equation.
- Authors
Zhang, Dong; Liu, Huai-shan; Xing, Lei; Li, Qian-qian; Liu, Xue-qin; Wei, Jia; Wang, Jian-hua; Zhou, Heng; Ge, Xin-min
- Abstract
An air gun generates acoustic signals for seismic exploration by releasing a high-pressure gas. A large error is always gradually introduced into the ideal-gas model when the pressure in the air-gun chamber exceeds 100 atm. In the van der Waals non-ideal-gas theory, the gas in the air gun can be regarded as an actual gas, and the error is less than 2%. The van der Waals model is established in combination with the quasi-static open thermodynamic system and bubble-motion equation by considering the bubble rise, bubble interaction, and throttling effect. The mismatch between the van der Waals and ideal-gas models is related to the pressure. Theoretically, under high-pressure conditions, the van der Waals air-gun model yields results that are closer to the measured results. Marine vertical cables are extended to the seafloor using steel cables that connect the cement blocks, but the corresponding hydrophones are suspended in the seawater. Thus, noise associated with ships, ocean surges, and coupling problems is avoided, and the signal-to-noise ratio and resolution of marine seismic data are improved. This acquisition method satisfies the conditions of recording air-gun far-field wavelets. According to an actual vertical-cable observation system, the van der Waals air-gun model is used to model the wavelet of different azimuth and take-off angles. The characteristics of the experimental and simulated data demonstrate good agreement, which indicates that the van der Waals method is accurate and reliable. The accuracy of the model is directly related to the resolution, thus affecting the resolution ability of the stratum.
- Subjects
AIR guns; SIGNAL-to-noise ratio; EQUATIONS; AUTOMATED teller machines; GASES; SEISMIC prospecting
- Publication
Applied Geophysics: Bulletin of Chinese Geophysical Society, 2020, Vol 17, Issue 5/6, p736
- ISSN
1672-7975
- Publication type
Article
- DOI
10.1007/s11770-020-0874-y