--> Abstract: Enhancing the Low-Frequency Content of Vibroseis Acquisitions with Maximum Displacement Sweeps: A Case History from Kuwait, by Claudio Bagaini, Adel El-Emam, and Ayman Shabrawi; #90077 (2008)
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Enhancing the Low-Frequency Content of Vibroseis Acquisitions with Maximum Displacement Sweeps: A Case History from Kuwait

Claudio Bagaini1*, Adel El-Emam2, and Ayman Shabrawi3
1Schlumberger, UK
2KOC
3WesternGeco, Egypt
*[email protected]

Several applications of the Previous HitseismicNext Hit method to hydrocarbon exploration and reservoir characterization would greatly benefit from the presence of energetic low frequencies in the acquired Previous HitdataNext Hit. Some of these applications are deep imaging, imaging beneath high-velocity and highly absorbing formations, inversion of surface waves to characterize the near-surface elastic properties, velocity model estimation in geophysically complex areas and acoustic impedance inversion. Unfortunately, the generation and the accurate recording of low frequencies was and, to some extent, remains challenging in both marine and Previous HitlandNext Hit Previous HitseismicNext Hit. In the case of Previous HitlandNext Hit Previous HitseismicNext Hit Previous HitacquisitionNext Hit, the growing use of accelerometers in surface and borehole Previous HitseismicNext Hit enables the Previous HitacquisitionNext Hit, with an high signal-to-noise ratio of frequencies lower than 2 Hertz. On the source side, hydraulic vibrators, which are the most widely used onshore Previous HitseismicNext Hit sources, have their output energy limited at low frequencies by mechanical constraints such as the maximum reaction-mass displacement. Only low actuator forces can be used to drive the vibrators at these low frequencies, which in turn can yield extremely long sweeps in the absence of a design criterion or if a too-conservative one is used. In this presentation, we first analyse the reasons why the above-mentioned Previous HitseismicNext Hit applications do benefit from the presence of energetic low frequencies. We then focus on two of these applications, namely: (1) imaging beneath high-velocity formations, and (2) acoustic impedance inversion. We show the enhancements obtained during a recent point-receiver surface Previous HitseismicNext Hit survey over the Minagish field in Kuwait acquired using a sweep design method (maximum displacement sweep) developed to enhance the low-frequency content of Previous HitlandNext Hit Previous HitseismicNext Hit Previous HitacquisitionTop.

 

AAPG Search and Discovery Article #90077©2008 GEO 2008 Middle East Conference and Exhibition, Manama, Bahrain