期刊文献+
共找到3篇文章
< 1 >
每页显示 20 50 100
Downward shift of gas hydrate stability zone due to seafloor erosion in the eastern Dongsha Island,South China Sea 被引量:7
1
作者 JIN Jiapeng WANG Xiujuan +5 位作者 HE Min LI Jie YAN Chengzhi LI Yuanping ZHOU Jilin QIAN Jin 《Journal of Oceanology and Limnology》 SCIE CAS CSCD 2020年第4期1188-1200,共13页
New acquired and reprocessed three-dimensional(3D)seismic data were used to delineate the distribution and characterization of bottom simulating reflections(BSRs)in the Chaoshan Sag,in the eastern part of Dongsha Isla... New acquired and reprocessed three-dimensional(3D)seismic data were used to delineate the distribution and characterization of bottom simulating reflections(BSRs)in the Chaoshan Sag,in the eastern part of Dongsha Island,South China Sea.Three submarine canyons with different scales were interpreted from the 3D seismic data,displaying three stages of canyon development and are related with the variation of BSR.Abundant faults were identified from the coherence and ant-tracing attributions extracted from 3D seismic data,which provide the evidence for fluid migration from deeper sediments to the gas hydrate stability zone(GHSZ).The uplift of Dongsha Island created a large number of faults and leads to the increased seafloor erosion.The erosion caused the cooling of the seafloor sediments and deepening of the base of the gas hydrate stability zone,which is attributed to the presence of paleo-BSR and BSR downward shift in the study area.Hence,methane gas may be released during the BSR resetting and gas hydrate dissociation related with seafloor erosion. 展开更多
关键词 bottom simulating reflections(BSRs) downward shift seafloor erosion gas hydrate dissociation
下载PDF
High temperature effects in moving shock reflection with protruding Mach stem 被引量:1
2
作者 Xiaofeng Shi Yujian Zhu +1 位作者 Xisheng Luo Jiming Yang 《Theoretical & Applied Mechanics Letters》 CAS CSCD 2016年第5期222-225,共4页
The influence of high temperature effects on the protrusion of Mach stem in strong shock reflection over a wedge was numerically investigated. A two-dimensional inviscid solver applies finite volume method and unstruc... The influence of high temperature effects on the protrusion of Mach stem in strong shock reflection over a wedge was numerically investigated. A two-dimensional inviscid solver applies finite volume method and unstructured quadrilateral grids were employed to simulate the flow. Theoretical analysis was also conducted to understand the phenomenon. Both numerical and theoretical results indicate a wall-jet penetrating forward is responsible for the occurrence of Mach stem protrusion. The protrusion degree seems to depend on the thermal energy buffer capacity of the testing gas. Approaches to increase the energy buffer capacity, such as vibrational relaxation, molecular dissociation, and increase of frozen heat caoacitv, all tend to escalate the orotrusion effect. 展开更多
关键词 Shock reflection Numerical simulation Protruding Mach stem High temperature effects
下载PDF
Particle-in-Cell Simulation of the Reflection of a Korteweg-de Vries Solitary Wave and an Envelope Solitary Wave at a Solid Boundary
3
作者 张洁 齐新 +1 位作者 张恒 段文山 《Chinese Physics Letters》 SCIE CAS CSCD 2016年第6期62-66,共5页
Reflections of a Korteweg-de Vries (KdV) solitary wave and an envelope solitary wave are studied by using the particle-in-cell simulation method. Defining the phase shift of the reflected solitary wave, we notice th... Reflections of a Korteweg-de Vries (KdV) solitary wave and an envelope solitary wave are studied by using the particle-in-cell simulation method. Defining the phase shift of the reflected solitary wave, we notice that there is a phase shift of the reflected KdV solitary wave, while there is no phase shift for an envelope solitary wave. It is also noted that the reflection of a KdV solitary wave at a solid boundary is equivalent to the head-on collision between two identical amplitude solitary waves. 展开更多
关键词 in on is as of Particle-in-Cell Simulation of the Reflection of a Korteweg-de Vries Solitary Wave and an Envelope Solitary Wave at a Solid Boundary Wave
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部