three black arrows), which are interpreted as water following the high permeable Rannoch formation. Close to well C-33, we notice that this water causes brightening between top reservoir and the original oil-water contact. Te response at the oil-water contact has not changed, indicating untouched oil for the top 20m, followed by water flushing for the next 20m (these numbers are very approximate), followed by an untouched 20m sequence close to the oil-water contact. Tis behaviour was essentially confirmed by the well that was drilled, although the saturation log actually showed more details compared to the 4D seismic interpretation. Te difference section at the bottom of Figure 4.8 shows clear anomalies at the oil-water contact level (three blue anomalies). Notice that close to the well there are no significant differences at top reservoir and oil-water contact level, but stronger differences in the middle of the sequence. Tese examples illustrates that 4D seismic interpretation is an
arena where several disciplines meet: geology, geophysics, rock physics, reservoir engineering and petrophysics.
4.1.4 Repeatability – A Key Success Factor?
We all remember from medical X-ray imaging or from visits to the dentist: precision is important and in particular the need to repeat the images as perfectly as possible, so the dentist can decide whether it is necessary to take action or not. Time-lapse seismic experiments face the same challenges: how can we be sure that the differences we observe are due to production related changes and not some kind of spurious noise that can lead to false interpretations? Te quality of a 4D seismic data set is dependent on several issues, such as reservoir complexity, the complexity of the
Figure 4.7: Two 4D analysis techniques: notice there are no amplitude changes at top reservoir between 1985 and 1995, but huge amplitude changes at the oil-water contact (OWC). Also note the change in travel time (marked by the yellow arrow) for the seismic event below the oil-water contact.
overburden and so on. However, the most important issue that we can influence is the repeatability of the seismic data. In simple terms, repeatability is a measure of how accurately we can repeat the seismic measurement – the acquisition repeatability. Tis is dependent on several factors, including: • Varying source and receiver positions (x, y and z coordinates); • Changing weather conditions during acquisition; • Varying sea water temperature; • Tidal effects; • Noise from other vessels or other activity in the area (rig noise);
• Varying source signal; • Changes in the acquisition system (new vessel, other cables, sources etc.);
• Variation in shot-generated noise (from the previous shot).
Figure 4.8: Example of complex 4D interpretation: water is flowing in a thin high permeable layer (marked by three black arrows in the middle section). Well C-33 confirmed untouched oil at the top and base (original oil water contact) reservoir, and high water saturation in the middle.
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