## Filled Porous(填充多孔)研究综述

Filled Porous 填充多孔 - In this report, we present improved NO2 gas sensing properties based on CdTe-functionalized ZnO filled porous Si (PSi) hybrid hierarchical nanostructured thin films (CdTe/ZnO@PSi).^{[1]}35 nm/% can be achieved for 20%, 40%, 60%, and 80% volume fraction of IPA, respectively, with a 30% porosity of TiO2, which is the maximum filled porous voids that provides the highest sensitivity.

^{[2]}The transport equations of the coupled multiphysics evolving from the thermal buoyancy (due to linear heating at one sidewall and isothermal cooling at the opposite sidewall), filled porous medium, spatially intermittently active magnetic fields, and the engineered working fluid of Cu–Al2O3/water hybrid nanofluid are solved by an indigenously developed computing code.

^{[3]}Results indicate that the mixing capability between the hot and cold fluid enhanced and hence the heat transfer rate increases upon the introduction of the corrugated wall in a partially filled porous channel.

^{[4]}Liquid-filled porous materials exist widely in nature and engineering fields, with the diffusion of substances in them playing an important role in system functions.

^{[5]}Lastly, the previous study results are compared with the current approach for the gas-filled porous medium application.

^{[6]}With such an interesting feature, the MHD bioconvection of oxytactic microorganisms in nanofluid-filled porous substance is not reported so far.

^{[7]}Generally, the presence of graphene alters the porous structure of geopolymer into a substantially filled porous structure, thus increasing compressive strength and flexural strength.

^{[8]}In this paper, we developed an innovative stiffness-tunable soft conducting elastomer by encapsulating liquid metal filled porous sponge with ecoflex.

^{[9]}In this report, recent advances in the numerical investigation of completely or partial filled porous media alone or in combination with wavy walls and nanofluids/nanoparticles have been reviewed.

^{[10]}Compared to the empty microchannel, the heat transfer coefficient is 12 times higher with a completely filled porous media and 2.

^{[11]}The magnetohydrodynamic conjugate heat transfer characteristics of a ferrofluid-filled porous inclined enclosure heated differentially have been investigated numerically in the present work.

^{[12]}Design/methodology/approach Heat transfer and pressure drop of fluid flow through a three-dimensional (3D) microchannel with different partially and filled porous media insert configurations are investigated numerically.

^{[13]}The oxidation product layer has the form of a borosilicate glass-filled porous network.

^{[14]}These are, first, water containing salt, and, second, an ion-exchange membrane, which is a water-filled porous layer containing a large concentration of fixed charges.

^{[15]}First, a partially filled porous layer open tubular capillary column containing active epoxy groups was synthesized by in situ polymerization of acrylamide, glycidyl methacrylate, and N,N'-methylenebisacrylamide.

^{[16]}Therefore, a methodology is formulated via direct and indirect characterization methods of a fluid-filled porous media.

^{[17]}In this experimental-numerical study, effects of transverse magnetic field of parallel magnet bars perpendicular to the fluid flow direction and partially filled porous media are investigated.

^{[18]}Cell proliferation within a fluid-filled porous tissue-engineering scaffold depends on a sensitive choice of pore geometry and flow rates: regions of high curvature encourage cell proliferation, while a critical flow rate is required to promote growth for certain cell types.

^{[19]}Fluid-filled porous materials are widely encountered in natural and artificial systems.

^{[20]}The present work involves the thermal numerical simulation of fluid flow inside an annular pipe completely filled porous material.

^{[21]}Remarkably, when performed in combination with 1D-imaging, such measurements yield information on the surface-to-volume ratio of the water-filled porous network, at different times, as a function of depth.

^{[22]}Application of an annular milling pattern to the frozen specimens leads to a needle-shaped morphology necessary for APT analysis with the targeted water-ice filled porous corroded silicate glass region of interest near the apex (Fig.

^{[23]}These findings suggest that hydrophilic polymer domains form a continuous network at levels above 55% hydrophilic TPU, thus facilitating a water‐filled porous network when exposed to water that provides a mechanism for accelerated drug diffusion.

^{[24]}

在本报告中，我们提出了基于 CdTe 功能化 ZnO 填充多孔 Si (PSi) 混合分级纳米结构薄膜 (CdTe/ZnO@PSi) 改进的 NO2 气体传感特性。

^{[1]}对于 20%、40%、60% 和 80% 体积分数的 IPA，可以分别实现 35 nm/%，其中 30% 的 TiO2 孔隙率是提供最高灵敏度的最大填充多孔空隙。

^{[2]}耦合多物理场的输运方程由热浮力（由于一个侧壁的线性加热和另一侧壁的等温冷却）、填充的多孔介质、空间间歇活动磁场和 Cu-Al2O3/水的工程工作流体演变而来混合纳米流体由本地开发的计算代码解决。

^{[3]}结果表明，在部分填充的多孔通道中引入波纹壁后，冷热流体之间的混合能力增强，因此传热速率增加。

^{[4]}充液多孔材料广泛存在于自然界和工程领域，其中物质的扩散对系统功能起着重要作用。

^{[5]}最后，将先前的研究结果与充气多孔介质应用的当前方法进行了比较。

^{[6]}由于具有如此有趣的特征，目前尚未报道纳米流体填充的多孔物质中催氧微生物的 MHD 生物对流。

^{[7]}通常，石墨烯的存在将地质聚合物的多孔结构改变为基本上填充的多孔结构，从而增加抗压强度和抗弯强度。

^{[8]}在本文中，我们通过用 ecoflex 封装液态金属填充的多孔海绵，开发了一种创新的刚度可调软导电弹性体。

^{[9]}在本报告中，回顾了单独或与波浪壁和纳米流体/纳米颗粒结合的完全或部分填充多孔介质的数值研究的最新进展。

^{[10]}与空微通道相比，完全填充的多孔介质的传热系数是 12 倍，而 2.

^{[11]}在目前的工作中，已经对不同加热的铁磁流体填充的多孔倾斜外壳的磁流体动力学共轭传热特性进行了数值研究。

^{[12]}设计/方法/方法 数值研究了流体通过具有不同部分填充和填充多孔介质插入配置的三维 (3D) 微通道的传热和压降。

^{[13]}氧化产物层具有硼硅酸盐玻璃填充的多孔网络的形式。

^{[14]}它们首先是含盐的水，其次是离子交换膜，它是一种含有大量固定电荷的充水多孔层。

^{[15]}首先，通过丙烯酰胺、甲基丙烯酸缩水甘油酯和N,N'-亚甲基双丙烯酰胺的原位聚合合成了含有活性环氧基团的部分填充多孔层开口管状毛细管柱。

^{[16]}因此，通过对充满流体的多孔介质的直接和间接表征方法制定了一种方法。

^{[17]}在这项实验数值研究中，研究了垂直于流体流动方向的平行磁棒的横向磁场和部分填充的多孔介质的影响。

^{[18]}充满液体的多孔组织工程支架内的细胞增殖取决于对孔隙几何形状和流速的敏感选择：高曲率区域促进细胞增殖，而临界流速需要促进某些细胞类型的生长。

^{[19]}充满流体的多孔材料广泛存在于自然和人工系统中。

^{[20]}目前的工作涉及完全填充多孔材料的环形管内流体流动的热数值模拟。

^{[21]}值得注意的是，当与一维成像结合使用时，这种测量会在不同时间产生关于充水多孔网络的表面与体积比的信息，作为深度的函数。

^{[22]}将环形铣削图案应用于冷冻样品会导致 APT 分析所需的针状形态，其中目标水冰填充的多孔腐蚀硅酸盐玻璃区域靠近顶点（图 1）。

^{[23]}这些发现表明，亲水性聚合物结构域在亲水性 TPU 含量高于 55% 时形成连续网络，从而在暴露于水时促进充满水的多孔网络，从而提供加速药物扩散的机制。

^{[24]}

## Partially Filled Porous

Results indicate that the mixing capability between the hot and cold fluid enhanced and hence the heat transfer rate increases upon the introduction of the corrugated wall in a partially filled porous channel.^{[1]}First, a partially filled porous layer open tubular capillary column containing active epoxy groups was synthesized by in situ polymerization of acrylamide, glycidyl methacrylate, and N,N'-methylenebisacrylamide.

^{[2]}In this experimental-numerical study, effects of transverse magnetic field of parallel magnet bars perpendicular to the fluid flow direction and partially filled porous media are investigated.

^{[3]}

结果表明，在部分填充的多孔通道中引入波纹壁后，冷热流体之间的混合能力增强，因此传热速率增加。

^{[1]}首先，通过丙烯酰胺、甲基丙烯酸缩水甘油酯和N,N'-亚甲基双丙烯酰胺的原位聚合合成了含有活性环氧基团的部分填充多孔层开口管状毛细管柱。

^{[2]}在这项实验数值研究中，研究了垂直于流体流动方向的平行磁棒的横向磁场和部分填充的多孔介质的影响。

^{[3]}

## Completely Filled Porous

Compared to the empty microchannel, the heat transfer coefficient is 12 times higher with a completely filled porous media and 2.^{[1]}The present work involves the thermal numerical simulation of fluid flow inside an annular pipe completely filled porous material.

^{[2]}

与空微通道相比，完全填充的多孔介质的传热系数是 12 倍，而 2.

^{[1]}目前的工作涉及完全填充多孔材料的环形管内流体流动的热数值模拟。

^{[2]}

## filled porous medium 填充多孔介质

The transport equations of the coupled multiphysics evolving from the thermal buoyancy (due to linear heating at one sidewall and isothermal cooling at the opposite sidewall), filled porous medium, spatially intermittently active magnetic fields, and the engineered working fluid of Cu–Al2O3/water hybrid nanofluid are solved by an indigenously developed computing code.^{[1]}Lastly, the previous study results are compared with the current approach for the gas-filled porous medium application.

^{[2]}In this report, recent advances in the numerical investigation of completely or partial filled porous media alone or in combination with wavy walls and nanofluids/nanoparticles have been reviewed.

^{[3]}Compared to the empty microchannel, the heat transfer coefficient is 12 times higher with a completely filled porous media and 2.

^{[4]}Design/methodology/approach Heat transfer and pressure drop of fluid flow through a three-dimensional (3D) microchannel with different partially and filled porous media insert configurations are investigated numerically.

^{[5]}Therefore, a methodology is formulated via direct and indirect characterization methods of a fluid-filled porous media.

^{[6]}In this experimental-numerical study, effects of transverse magnetic field of parallel magnet bars perpendicular to the fluid flow direction and partially filled porous media are investigated.

^{[7]}

耦合多物理场的输运方程由热浮力（由于一个侧壁的线性加热和另一侧壁的等温冷却）、填充的多孔介质、空间间歇活动磁场和 Cu-Al2O3/水的工程工作流体演变而来混合纳米流体由本地开发的计算代码解决。

^{[1]}最后，将先前的研究结果与充气多孔介质应用的当前方法进行了比较。

^{[2]}在本报告中，回顾了单独或与波浪壁和纳米流体/纳米颗粒结合的完全或部分填充多孔介质的数值研究的最新进展。

^{[3]}与空微通道相比，完全填充的多孔介质的传热系数是 12 倍，而 2.

^{[4]}设计/方法/方法 数值研究了流体通过具有不同部分填充和填充多孔介质插入配置的三维 (3D) 微通道的传热和压降。

^{[5]}因此，通过对充满流体的多孔介质的直接和间接表征方法制定了一种方法。

^{[6]}在这项实验数值研究中，研究了垂直于流体流动方向的平行磁棒的横向磁场和部分填充的多孔介质的影响。

^{[7]}

## filled porous material

Liquid-filled porous materials exist widely in nature and engineering fields, with the diffusion of substances in them playing an important role in system functions.^{[1]}Fluid-filled porous materials are widely encountered in natural and artificial systems.

^{[2]}The present work involves the thermal numerical simulation of fluid flow inside an annular pipe completely filled porous material.

^{[3]}

充液多孔材料广泛存在于自然界和工程领域，其中物质的扩散对系统功能起着重要作用。

^{[1]}充满流体的多孔材料广泛存在于自然和人工系统中。

^{[2]}目前的工作涉及完全填充多孔材料的环形管内流体流动的热数值模拟。

^{[3]}

## filled porous network

The oxidation product layer has the form of a borosilicate glass-filled porous network.^{[1]}Remarkably, when performed in combination with 1D-imaging, such measurements yield information on the surface-to-volume ratio of the water-filled porous network, at different times, as a function of depth.

^{[2]}These findings suggest that hydrophilic polymer domains form a continuous network at levels above 55% hydrophilic TPU, thus facilitating a water‐filled porous network when exposed to water that provides a mechanism for accelerated drug diffusion.

^{[3]}

氧化产物层具有硼硅酸盐玻璃填充的多孔网络的形式。

^{[1]}值得注意的是，当与一维成像结合使用时，这种测量会在不同时间产生关于充水多孔网络的表面与体积比的信息，作为深度的函数。

^{[2]}这些发现表明，亲水性聚合物结构域在亲水性 TPU 含量高于 55% 时形成连续网络，从而在暴露于水时促进充满水的多孔网络，从而提供加速药物扩散的机制。

^{[3]}

## filled porous layer

These are, first, water containing salt, and, second, an ion-exchange membrane, which is a water-filled porous layer containing a large concentration of fixed charges.^{[1]}First, a partially filled porous layer open tubular capillary column containing active epoxy groups was synthesized by in situ polymerization of acrylamide, glycidyl methacrylate, and N,N'-methylenebisacrylamide.

^{[2]}

它们首先是含盐的水，其次是离子交换膜，它是一种含有大量固定电荷的充水多孔层。

^{[1]}首先，通过丙烯酰胺、甲基丙烯酸缩水甘油酯和N,N'-亚甲基双丙烯酰胺的原位聚合合成了含有活性环氧基团的部分填充多孔层开口管状毛细管柱。

^{[2]}