Improved Reservoir Characterisation by Multisensor Towed Streamer Seismic Data at the Mariner Field

Østmo, S.; McFadzean, P.J.; Silcock, S.; Spjuth, C.; Sundvor, Eirik; Letki, L.P.; Clark, Derek

doi:10.3997/2214-4609.20141234

Cited by 4 publications

References 2 publications

(1 reference statement)

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A mollifier approach to seismic data representation

Strijbos

2024

Geophysical Prospecting

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The extension of the seismic bandwidth to lower frequencies enhances impedance contrasts that can be poorly represented by the broadband acquisition wavelet. Furthermore, long filters that are used to shape the wavelet of processed data can cause issues with noise, phase and interference between seismic events. In this paper, we use a mathematical technique known as mollification to resolve impedance variations with the highest detail allowed by the bandwidth of the data. The mollifier is integrated and windowed to match the low‐frequency content of the data to yield a convenient conversion to relative impedance. Synthetic data created from wedge models show that the windowed mollifier provides an improved representation of the impedance profile. This is replicated by application to an acoustic well log and a regular seismic dataset recorded in the Southern North Sea as well as a broadband dataset recorded in the North Sea.

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A mollifier approach to seismic data representation

Strijbos

2024

Geophysical Prospecting

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Relationship between bowl-shaped clastic injectites and parent sand depletion: implications for their scale-invariant morphology and composition

Cobain

Hodgson

Peakall

et al. 2019

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High-resolution model building and imaging workflow using multimeasurement towed streamer data: North Sea case study

Gupta

Cunnell

Cooke

et al. 2015

SEG Technical Program Expanded Abstracts 2015

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This paper discusses the workflow for high-resolution model building and imaging of a broadband multimeasurement towed streamer survey over the Mariner field in the North Sea. The model-building strategy combines the complementary techniques of full waveform inversion (FWI) and reflection tomography to generate an accurate, high resolution and geologically consistent velocity model, using both refraction and reflection energy. The 3D deghosted and reconstructed wavefield generated by the generalized matching pursuit (GMP) algorithm is densely sampled in all directions, and provides the ideal input for imaging techniques such as Kirchhoff prestack depth migration (KDM) and high-frequency reverse time migration (RTM). The combination of such a high resolution earth model and broadband, densely sampled input data provides the significant benefits for both overburden and reservoir characterization in this setting.

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Improved Reservoir Characterisation by Multisensor Towed Streamer Seismic Data at the Mariner Field

Cited by 4 publications

References 2 publications

A mollifier approach to seismic data representation

A mollifier approach to seismic data representation

Relationship between bowl-shaped clastic injectites and parent sand depletion: implications for their scale-invariant morphology and composition

High-resolution model building and imaging workflow using multimeasurement towed streamer data: North Sea case study

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