Abstract
Reservoir transformation is essential for developing gas hydrate reservoirs. Predicting sediment brittleness is key to optimizing drilling design and evaluating engineering sweet spots. Constructing a brittleness index reflecting the brittle mineral content of a rock based on elastic parameters and predicting it using seismic data is a feasible solution for assessing reservoir brittleness. In addition, the elastic brittleness index can characterize the effect of complex pore types, fractures and pore fillings on rock brittleness. With the shallow hydrate reservoir in the sea as the research target. First, a novel brittleness index characterized by multiplying the Lamé parameter (λ) by Poisson's ratio (σ) is proposed. Its superiority in indicating brittle mineral content is verified by a rock-physics model. Second, a reflection coefficient approximation equation including the novel brittleness index is derived, enabling direct estimation of reservoir brittleness from seismic data. The new brittleness index has proven to better reflect brittle mineral content and effectively indicate the high brittleness characteristics of hydrate reservoirs. The accuracy of the proposed approximate equation is verified by a layered medium model, and the viability of predicting the new brittleness index using seismic data is also theoretically supported by the model test. Finally, the proposed method has obtained favorable results in the application of hydrate work area data collected at the South China Sea, confirming its availability and practicality.
Paper information:
Yang Wenqiang, Zong Zhaoyun*, Liu Xinxin, Qin Dewen, Liu Qingwen, 2024. Novel brittleness index construction and pre-stack seismic prediction for gas hydrate reservoirs. Geophysical Prospecting, 1-17. https://doi.org/10.1111/1365-2478.13628
