1. Tuning effect in time-lapse seismic inversion for CO2 plume monitoring at Sleipner field.
- Author
-
Izadian, Saeed
- Subjects
ACOUSTIC impedance ,CARBON dioxide ,SAND ,SHALE ,NOISE - Abstract
Over 20 million tons of CO 2 have been injected into the sandy Utsira formation of the Sleipner field in the North Sea basin. The thin layering of sands, CO 2 -saturated sands, and intra-formation thin shales cause interference effects in the seismic response of the monitor surveys. Initial analysis of the amplitude change suggests over 60 % change in the relative acoustic impedance of the reservoir between the 1996 and 2010 surveys. This study follows a multi-stage inversion scheme applied to time-lapse seismic monitoring of the Sleipner field. At each stage, the errors and uncertainties caused by noise and tuning are deeply analyzed. Time-shift estimation from seismic data shows spurious features caused by tuning, specifically using the window-based methods. The time-strain inversion builds a low-frequency initial model for the subsequent model-based inversion but is contaminated by remnants of noise and interference. The synthetic wedge modelling and analysis provides the origins and severity of the tuning error in time-shift and time-strain estimations at the Sleipner field. The model-based inversion removes noise and injects high-frequency components into the results, improving the outcome of time-strain inversion. However, it fails to fully eliminate the tuning imprints and leaves strong traces of error on the results. Afterward, the time-lapse Bayesian seismic inversion slightly adjusts the outcome and shows how deep the influence of interference effect on the time-lapse inversion is. In addition, the complementary discussion on rock physical models in estimating the saturation changes highlights how the tuning error can lead to flawed quantitative interpretation. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF