Your search keyword '"Menglin Zhang"' showing total 2 results

1. Sedimentary environment and shale gas exploration potential of Qiongzhusi Formation in the upslope area: A case study on Well W-207, Weiyuan area, Sichuan Basin

Author

Xiao Liang, Shaoguang Ma, Guoqin Li, Guoyong Xia, Ruolin Liu, Gensheng Ni, Menglin Zhang, Yilong Kou, Cuiping Yuan, and Jia Chen

Subjects

early cambrian, qiongzhusi formation, shale gas, paleo-ocean environment, paleo-productivity, adsorption capacity, upslope area, weiyuan area, Geology, QE1-996.5, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712

Abstract

To deeply analyze the thalassochemical conditions and organic matter enrichment mechanism during the Early Cambrian (541-509 Ma)and actively evaluate the potential of shale gas resources of the Lower Cambrian Qiongzhusi Formation(Fm) in the southwestern Sichuan Basin, based on the analysis of the petrology, organic geochemistry, element characteristics, pore structure and adsorption capacity of Qiongzhusi Formation, Well W-207, Weiyuan area, this study has discussed the Early Cambrian paleo-ocean environment, organic matter enrichment control factors and gas-bearing properties of shale gas in the upslope area of the Upper Yangtze Platform. Sedimentary cycle shows that multiple interactive conversioncycles of deep-water continental shelf and shallow-water continental shelf are developed during the fine-grained deposition period of Qiongzhusi Formation under the control of eustasy. In particular, the slope turbidite (fan) and gravity flow sediments indicate that shallow-water continental shelf facies are dominant, and the wells in the upslope of the Weiyuan area are not in deep-water for a long time, with the sedimentary thickness of organic-rich black shale limited. Organic geochemistry evidence indicates that the organic matter of Qiongzhusi Formation in Well W-207 is mainly Type-Ⅰ kerogen, with a high degree of thermal evolution, fewer residual hydrocarbons and a low hydrocarbon generation capacity. The redox parameters indicate that the marine environment on the upslope has a medium restrictive degree, and there is a certain degree of upwelling. The seawater has experienced the transformation process of "anoxic-oxidation-anoxic-secondary oxidation- oxidation". Therefore, the paleo-ocean productivity level in the upslope area is generally low, with an obvious downward trend from bottom to top. The pore structure and nitrogen adsorption curve show that the reservoirs of the Qiongzhusi Formation are mainly complex and irregular slit pores. The methane adsorption capacity is positively correlated with TOC but negatively correlated with temperature, indicating that the high-pressure and high-temperature conditions generally faced by the Qiongzhusi Fm are not suitable for methane adsorption. As a result, the geological conditions of shale gas for Qiongzhusi Fm in the upslope area are complex. With high exploration risk, this study suggests that the resource evaluation direction should change to the intracratonic sag (downslope area), which is characterized by deep-water continental shelf facies.

Published

2022

2. Image Classification Algorithm Based on Classification Activation Map Enhancement

Author

YANG Menglin, ZHANG Wensheng

Subjects

multiscale, Electronic computers. Computer science, classification activation map (cam), QA75.5-76.95, interpretability, visualization, image classification

Abstract

Classification activation map (CAM) has problems such as sparseness, discontinuity, incompleteness, etc.,and most of the current research only uses it for visual analysis. Based on this, this paper firstly utilizes the dilated convolution to design an automatic weighted multi-scale feature learning method in order to compensate for the defects of CAM and combines the multi-scale feature with the generation method of CAM to develop a multi-scale CAM generation method. Further, this paper embeds the multi-scale CAM into the network to form an end-to-end structure in order to enhance the classification performance. Taking the ResNet as the backbone, this paper proposes a classification enhancement model, ResNet-CE. Extensively experiments are conducted with ResNet-CE on three publicly available datasets, CIFAR10, CIFAR100 and STL10. Experiments show that the classification performance of ResNet-CE on these three datasets is significantly improved compared with the ResNet with similar parameters quantity. The error rates are reduced by 0.23%, 3.56% and 7.96%, respectively and the classification performance is better than most mainstream classification models. The proposed model can be easily transferred to the off-the-shelf model to improve its classification performance. At the same time, the algorithm retains the function of visualization and interpretation of the judgment of the model, which has certain application value and significance in scenes, such as diseases recognition in medical image and scene recognition in unmanned driving, etc.

Published

2020