Hydrothermal Behavior(水热行为)研究综述
Hydrothermal Behavior 水热行为 - In this work, hydrothermal behavior and entropy generation of a heated cylinder placed between two oppositely rotating cylinders inside a vented cavity is studied numerically using the finite volume technique. [1] A comparative experimental study to examine the hydrothermal behaviors of the double tube heat exchanger with various modified twisted tape and wire coil inserts is performed using Al2O3+MWCNT hybrid nanofluid. [2] In addition, the hydrothermal behaviors of operating fluid were depicted in contours. [3] This work involved a comparative study of the hydrothermal behavior of four maize flours sold on the market and their starches, in order to identify their best use in food systems, especially in infant nutrition. [4] With systematically validated XEDFM, the impacts of fracture roughness and heat extraction strategy on hydrothermal behaviors and heat mining efficiency are investigated. [5] PurposeThis work aims to study the hydrothermal behavior of mortar cement toward certain environmental factors (ambient air temperature and air velocity) based on its drying kinetics data. [6] In the present study, the hydrothermal behavior of a magnetic nanofluid (4 vol% magnetite–water) in the annular space between two vertical circular cylinders under the influence of a linear magnetic field with negative gradient is numerically investigated. [7] Before installing an experimental underground thermal energy storage basin in this site, the thermomechanical and hydrothermal behaviors were modeled. [8] On the basis of the hydrothermal behavior of the α-carbonyl aldehydes, we mapped the hydrothermal degradation routes of carbohydrates (glucose, fructose, and xylose) and illuminated the formation details of α-carbonyl aldehydes, α-hydroxy acids, γ-lactones, furfural derivatives, and humins. [9] 06 ) with the diameter of 10 nm and positive and negative gradients of the magnetic field ( - 5 × 10 5 A / m 2 ≤ G ≤ 5 × 10 5 A / m 2 ) on the hydrothermal behavior of the ferrofluid flow. [10] ABSTRACT In this research, an experimental evaluation is conducted on the hydrothermal behavior of water-based manganese ferrite nanofluid flowing in a metal foam tube. [11] The hydrothermal behavior of steel slags which arise from basic oxygen furnace (BOF) operations and that of olivine, (Mg,Fe)2SiO4, the main mineral constituent of abyssal peridotites, is described here based on literature data. [12] In the present study, hydrodynamic and hydrothermal behavior of the laminar nano-fluid actuated by the non-uniform magnetic field in a horizontal semi-insulated tube was numerically investigated. [13] Before installing an experimental underground thermal energy storage basin in this site, the thermomechanical and hydrothermal behaviors were modeled. [14]在这项工作中,使用有限体积技术对放置在通风腔内两个相对旋转的圆柱体之间的加热圆柱体的水热行为和熵产生进行了数值研究。 [1] 使用 Al2O3+MWCNT 混合纳米流体进行了一项比较实验研究,以检查具有各种改性扭带和线圈插件的双管换热器的水热行为。 [2] 此外,以等高线描绘了工作流体的水热行为。 [3] 这项工作涉及对市场上出售的四种玉米粉及其淀粉的水热行为的比较研究,以确定它们在食品系统中的最佳用途,特别是在婴儿营养方面。 [4] 通过系统验证的 XEDFM,研究了裂缝粗糙度和热提取策略对水热行为和热开采效率的影响。 [5] 目的本工作旨在根据砂浆水泥的干燥动力学数据,研究砂浆水泥对某些环境因素(环境气温和风速)的水热行为。 [6] 在本研究中,数值研究了磁性纳米流体(4 vol% 磁铁矿-水)在具有负梯度的线性磁场的影响下,在两个垂直圆柱之间的环形空间中的水热行为。 [7] 在该地点安装实验性地下蓄热池之前,对热机械和水热行为进行了建模。 [8] 基于α-羰基醛的水热行为,我们绘制了碳水化合物(葡萄糖、果糖和木糖)的水热降解路线图,并阐明了α-羰基醛、α-羟基酸、γ-内酯的形成细节,糠醛衍生物和腐殖质。 [9] 06)直径为10nm和正负磁场梯度(-5×10 5 A/m 2 ≤G≤5×10 5 A/m 2 )对铁磁流体流动的水热行为的影响。 [10] 摘要 在这项研究中,对水基锰铁氧体纳米流体在金属泡沫管中流动的水热行为进行了实验评估。 [11] 本文根据文献数据描述了碱性氧气炉 (BOF) 操作产生的钢渣和深海橄榄岩的主要矿物成分橄榄石 (Mg,Fe)2SiO4 的水热行为。 [12] 在本研究中,数值研究了水平半绝缘管中由非均匀磁场驱动的层状纳米流体的流体动力学和水热行为。 [13] 在该地点安装实验性地下蓄热池之前,对热机械和水热行为进行了建模。 [14]
thermal energy storage 热能储存
The later part of the article covers the hydrothermal behavior of hybrid nanofluids in various heat transfer applications such as heat exchangers, heat sinks, heat pipes, solar panels, natural convection enclosures/cavities, air conditioning systems, impingement jet cooling, thermal energy storage, and boiling-related applications. [1]文章的后半部分介绍了混合纳米流体在各种传热应用中的水热行为,例如热交换器、散热器、热管、太阳能电池板、自然对流外壳/腔体、空调系统、冲击射流冷却、热能存储、和沸腾相关的应用。 [1]