Pranaya Sangvai scite author profile

Pranaya Sangvai

4Publications

14Citation Statements Received

0Citation Statements Given

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Affiliations

Reliance Industries (India), Reliance Industries (United States), Romax Technology (United Kingdom)

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Resolving near-seabed velocity anomalies: Deep water offshore eastern India

et al. 2008

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Imaging in deep-water environments poses a specific set of challenges, both in data preconditioning and velocity model building. These challenges include scattered, complex 3D multiples, aliased noise, and low-velocity shallow anomalies associated with channel fills and gas hydrates. We describe an approach to tackling such problems for data from deep water off the east coast of India, concentrating our attention on iterative velocity model building, and more specifically the resolution of near-surface and other velocity anomalies. In the region under investigation, the velocity field is complicated by narrow buried canyons ([Formula: see text] wide) filled with low-velocity sediments, which give rise to severe pull-down effects; possible free-gas accumulation below an extensive gas-hydrate cap, causing dimming of the image below (perhaps as a result of absorption); and thin-channel bodies with low-velocity fill. Hybrid gridded tomography using a conjugate gradient solver (with [Formula: see text] vertical cell size) was applied to resolve small-scale velocity anomalies (with thicknesses of about [Formula: see text]). Manual picking of narrow-channel features was used to define bodies too small for the tomography to resolve. Prestack depth migration, using a velocity model built with a combination of these techniques, could resolve pull-down and other image distortion effects in the final image. The resulting velocity field shows high-resolution detail useful in identifying anomalous geobodies of potential exploration interest.

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Frontier exploration by electromagnetic scanning — A deep water example

Suffert¹,

Roth

Sangvai³

et al. 2008

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Interpreting SBL data in complex resistivity regime; integration of advanced EM‐ techniques with existing geophysical exploration data

Lorenz

Pedersen

Akella

et al. 2009

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Complex Imaging Challenges - Offshore South East India

Jones¹,

Sangvai²,

Biswal³

et al. 2008

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Pranaya Sangvai

Resolving near-seabed velocity anomalies: Deep water offshore eastern India

Frontier exploration by electromagnetic scanning — A deep water example

Interpreting SBL data in complex resistivity regime; integration of advanced EM‐ techniques with existing geophysical exploration data

Complex Imaging Challenges - Offshore South East India

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