Search results for: Yiquan Yan

Authors: Yiquan Liao, Quanhong Jiang

Abstract:

Since terahertz was observed by German scientists, we have obtained terahertz through different generation technologies of broadband and narrowband. Then, with the development of semiconductor and other technologies, the imaging technology of terahertz has become increasingly perfect. From the earliest application of nondestructive testing in aviation to the present application of information transmission and human safety detection, the role of terahertz will shine in various fields. The weapons produced by terahertz were epoch-making, which is a crushing deterrent against technologically backward countries. At the same time, terahertz technology in the fields of imaging, medical and livelihood, communication and communication are for the well-being of the country and the people.

Keywords: terahertz, imaging, communication, medical treatment

Procedia PDF Downloads 110

Authors: Chenqi Ge, Dongqi Ji, Yiquan Yan, Zhewei Chen, Zhengdong Lei, Zhangxing Chen, Gang Hui

Abstract:

CO₂ injection has emerged as a promising technique to enhance oil recovery in continental shale reservoirs by addressing challenges such as low sweep efficiency caused by micro-to-nano-scale heterogeneities and rapid production decline due to low reservoir pressure. This study evaluates the potential of CO₂ injection for improving shale oil productivity and sequestration efficiency through numerical simulations that incorporate nano-confined phase behavior, oil displacement mechanisms, water-oil imbibition, cross-scale flow characteristics, and dynamic fracture properties. Two major continental shale oil reservoirs in China, Gulong (pure shale deposition) and Jimsar (mixed deposition), are analyzed to assess the feasibility of CO₂-enhanced oil recovery. The study models spatially dependent fluid phase behavior by differentiating between matrix and fractures, while multiscale fluid flow, ranging from nanopores to fractures and wellbores, is simulated using a hybrid multiple-interacting-continua and discrete fracture network approach. Model validation is achieved through comparison with historical production data, achieving over 85% agreement in production rates. The effects of cross-scale oil flow and CO₂ channeling on sequestration and oil production efficiency are investigated for both reservoirs. The comparative analysis reveals distinct mechanisms governing CO₂-enhanced oil recovery in the two reservoirs. In the Gulong shale, CO₂ injection at high pressure expands bedding fractures, enhancing connectivity between the nano-scale matrix and fractures. Additionally, slow CO₂ diffusion into the tight matrix promotes oil displacement and long-term sequestration. Conversely, in the Jimsar shale, CO₂ injection primarily enhances oil mobility by reducing viscosity from 50 cp to below 5 cp. The relatively larger matrix pore structure and lower minimum miscibility pressure in Jimsar lead to higher sweep efficiency during CO₂ displacement. Simulation results also indicate that CO₂ utilization efficiency in Jimsar surpasses that in Gulong. This study introduces an integrated numerical simulation approach that combines spatially dependent phase behavior with multiscale flow modeling to evaluate the interplay between oil productivity and CO₂ sequestration in shale reservoirs. The findings provide insights into optimizing CO₂ injection strategies for different shale reservoir types, offering a pathway for sustainable CO₂ utilization in enhanced oil recovery operations.

Keywords: shale oil, CO₂ displacement, CO₂ sequestration, enhanced oil recovery

Procedia PDF Downloads 6