Tuning of flat spots with overlying bright spots, dim spots, and polarity reversals
Document Type
Article
Publication Date
8-1-2015
Abstract
© The Authors. Reflection seismic data from block F3 in the Dutch North Sea exhibit many large-amplitude reflections at shallow horizons typically categorized as bright spots. In most cases, these bright reflections show a significant flatness that contrasts with local structural trends. Although flat spots in thick reservoirs are often easily identified, others within thin beds or near reservoir edges can be difficult to identify and are poorly understood. Many of the shallow large-amplitude reflections in this block are dominated by flat spots. We investigated the tuning effects that such flat spots cause as they interacted with reflections from the top of the reservoir. We first studied the zero-offset wedge-model tuning effects of the flat spot with overlying bright spots, dim spots, or polarity reversals. We then expanded that model to examine prestack tuning effects, as well as the results from inclusion of postcritical flat spot reflections in the final stack. We observed that under certain conditions, the reflections could appear to be somewhat flattened bright spots; those conditions might be met frequently in practice, and they should be considered in routine interpretation. In the North Sea case, we concluded that this tuning effect was the primary cause of the brightness and flatness of these reflections.
Publication Title
Interpretation
Recommended Citation
Guo, Q.,
Islam, N.,
&
Pennington, W.
(2015).
Tuning of flat spots with overlying bright spots, dim spots, and polarity reversals.
Interpretation,
3(3), SS37-SS48.
http://doi.org/10.1190/INT-2014-0210.1
Retrieved from: https://digitalcommons.mtu.edu/michigantech-p/13077