Investigation of Non-Newtonian Characteristics of Water Flow in Micro-/Nanochannels and Tight Reservoirs

Abstract: The characteristic scale of pore flow in tight reservoirs is generally in the range of 0.1 μm to 1 μm, which shows the obvious micro- and nanoscale effect. The traditional oil and gas seepage theory cannot accurately describe the flow law of liquid in the micro- and nanopores. The determination of seepage characteristics is crucial to the development, layout, and prediction of tight oil. Therefore, a non-Newtonian fluid model is established to discuss the flow characteristics of confined liquid in the heteroge… Show more

“…Qinfeng Di et al found that the velocity of the water flow on the surface of the nanoadsorption layer was no longer zero, and the water flow rate increased. The effect of reducing pressure and increasing injection was remarkable. ,,− Hua and Di developed a calculation model of the microscopic interaction energy, and the results showed a hydrogen bond interaction between nanoparticles and the wall of reservoir microchannel, indicating that nanoparticles are absolutely dominant in the competitive adsorption process with water molecules. Gu et al established a mathematical model for the flow slip of the nanoparticle adsorbent layer and deduced the slip length formula.…”

Mechanism of Nano-depressurization and Injection-Augmenting Technology and Its Application in China’s Oilfields: Recent Advances and Perspectives

“…Qinfeng Di et al found that the velocity of the water flow on the surface of the nanoadsorption layer was no longer zero, and the water flow rate increased. The effect of reducing pressure and increasing injection was remarkable. ,,− Hua and Di developed a calculation model of the microscopic interaction energy, and the results showed a hydrogen bond interaction between nanoparticles and the wall of reservoir microchannel, indicating that nanoparticles are absolutely dominant in the competitive adsorption process with water molecules. Gu et al established a mathematical model for the flow slip of the nanoparticle adsorbent layer and deduced the slip length formula.…”

Mechanism of Nano-depressurization and Injection-Augmenting Technology and Its Application in China’s Oilfields: Recent Advances and Perspectives

Catalytic cracking and catalyst deactivation/regeneration characteristics of Fe-loaded biochar catalysts for tar model compound

Productivity model for multi-fractured horizontal wells accounting for cross-scale flow of gas and total factor characteristics of fractures