Solubility and mass transfer of H2, CH4, and their mixtures in vacuum gas oil: An experimental and modeling study

In this work,the solubility data and liquid-phase mass transfer coefficients of hydrogen(H2),methane(CH4)and their mixtures in vacuum gas oil(VGO)at temperatures(353.15-453.15 K)and pressures(1-7 MPa)were measured,which are necessary for catalytic cracking process simulation and design.The solubility of H2 and CH4 in VGO increases with the increase of pressure,but decreases with the increase of temperature.Henry’s constants of H2 and CH4 follow the relation of In H=-413.05/T+5.27 and In H=-990.67/T+5.87,respectively.The molar fractions of H2 and system pressures at different equilibrium time were measured to estimate the liquid-phase mass transfer coefficients.The results showed that with the increase of pressure,the liquid-phase mass transfer coefficients increase.Furthermore,the solubility of H2 and CH4 in VGO was predicted by the predictive COSMO-RS model,and the predicted values agree well with experimental data.In addition,the gas-liquid equilibrium(GLE)for H2+CH4+VGO system at different feeding gas ratios in volume fraction(i.e.,H285%+CH415%and H290%+CH410%)was measured.The selectivity of H2 to CH4 predicted by the COSMO-RS model agrees well with experimental data.This work provides the basic thermodynamic and dynamic data for fuel oil catalytic cracking processes.

Research on vacuum drying process and internal heat conduction of Li-ion battery core

In this research, an innovative cylindrical automatic battery core oven was designed to avoid the structural deformation that frequently occurs in traditional ovens. The oven could be automatically connected with the electrolyte injection process after baking, achieving improvement in a battery's baking consistency. This contributed to the feasibility of studying the internal heat conduction process of batch battery cores during actual baking processes. A mathematical model of a certain plate battery cell during the baking process was established. The simulation results of the temperature change inside the battery core during the baking process were consistent with the calculation results of the mathematical model. The temperature distribution at each point inside the battery core could be fitted through the thermal conductivity at different temperatures and the temperature distribution between the layers of the battery core.Finally, based on the thermodynamic balance energy conservation method, the relationship between the temperature change inside the battery core and the entire baking process was established. A feasible algorithm for studying the thermal conduction of complex material and internal structure objects in the baking process was obtained.

Continuously transferring cold atoms in caesium double magneto-optical trap

We have established a caesium double magneto-optical trap （MOT） system for cavity-QED experiment, and demonstrated the continuous transfer of cold caesium atoms from the vapour-cell MOT with a pressure of - 1 × 10^-6 Pa to the ultra-high-vacuum （UHV） MOT with a pressure of - 8 × 10^-8 Pa via a focused continuous-wave transfer laser beam. The effect of frequency detuning as well as the intensity of the transfer beam is systematically investigated, which makes the transverse cooling adequate before the atoms leak out of the vapour-cell MOT to reduce divergence of the cold atomic beam. The typical cold atomic flux got from vapour-cell MOT is - 2 × 10^7 atoms/s. About 5 × 10^6 caesium atoms are recaptured in the UHV MOT.

影响工业还原罐内铝热法炼镁过程还原效率的因素

在工业还原罐内进行铝热还原炼镁试验,分析影响还原效率的因素。结果表明:结晶镁的氧化和燃烧以及原料混合不均匀是导致还原效率降低的主要原因;原料混合不均匀导致贫铝区和MgO剩余,促进生成12CaO·7Al_(2)O_(3)和CaO·Al_(2)O_(3);对于富铝区域,MgO和CaO同时被还原,生成Mg_(2)Ca相。辐射传热和化学反应吸热是影响还原速率的关键因素;提高加热温度能够迅速提高球团层的温度,进而使球团获得足够的反应速度;此外,球团中含镁量越高,需要的反应时间越长。

Wireless Charger Design of Robot Vacuum Cleaners with Power Repeaters for High Compatibility

Curved coils constructed by flexible printed circuit board (PCB) or hand-wound Litz-wire have been steadily becoming popular due to its applicable potential on devices that have a curved body. Inductive Power Transfer (IPT) systems based on curved coils and flexible ferrite sheets may provide more flexible charging solutions for various electronic devices such as rice cookers and robot vacuum cleaners. Power repeaters are also used in IPT systems to extend wireless charging range by guiding magnetic fields to the receiving coil. The interaction of these three topics could be inspiring. In this paper, two adjustable power repeaters are applied to an IPT charging system with various curved receiving coils designed for vacuum cleaners. Two power repeaters share the identical structure as the Tx coil and could be rotated to mirror symmetrically. The input and output power are calculated by analyzing the equivalent circuit model. The self-inductance, mutual inductance, and coupling coefficient of the proposed system are obtained via finite element method simulation with variable rotating angles. Three typical IPT designs have also been simulated in ANSYS Maxwell and compared with the proposed magnetic design. The comparison indicates the enhancing feature of the passive power repeaters on coupling performance and the ability to guide the magnetic flux for better magnetic field coupling. Furthermore, two types of co-simulations defined by the power source via Simplorer are conducted to explore how much power could be transferred. The tuned system is shown to be able to provide about 32 W under 100 kHz operating frequency for charging the battery of a robot vacuum cleaner. The results from theoretical calculation and simulation align well with each other.

基于床层传热的皮江法炼镁过程优化

球团在还原罐内传热导致的温度梯度是限制皮江法还原反应的关键因素.本文采用数值方法研究了球团尺寸、装料方式、还原罐外壁温度等因素对床层温度分布、还原率分布的影响.结果表明:在球团直径为22.3 mm、还原时间相同时能够获得最大的还原率;生产过程中应尽量提高还原罐外壁温度;床层中心区域温度低,还原反应速率慢,反应滞后;通过中心留空的方法能够有效缩短还原周期,提高原料利用率;以单位体积、单位时间镁的产量为依据,对于内径为270 mm的还原罐,当中心留空区域的直径小于27 mm时,可获得最大生产效率.

侧向排汽凝汽器设计与研发

介绍了侧向排汽凝汽器的设计要点及关键技术,包括汽轮机与凝汽器的整体布置方案、凝汽器管束布置、凝汽器数值传热和真空力平衡方式等。侧向排汽机组布置紧凑,减少了土建成本,具有良好的社会及经济效益,通过对其设计与研发的介绍,为侧向排汽机组的推广提供了技术支持。

Methods for Increasing the Efficiency of Cleaning the Transfer Device

The article improves the quality of raw cotton by creating a new transfer device structure for the transportation of cotton in long-distance riots, located in the main building of the ginnery. Both foreign and domestic separator cleaners have been studied. Experiments were carried out on prototype transfer device and the results were obtained. The cleaning efficiency was determined by sampling the cotton entering the separator in the moving device and exiting after the inclined vibrating mesh surface installed after the separator.

真空绝热板芯材的研究进展与展望

随着我国经济的迅速发展和人们对生活水平的要求越来越高,节能减排对实现“碳达峰”和“碳中和”的目标显得越来越重要。真空绝热板(vacuum insolation panels,VIP)是一种新型的高效保温隔热材料,其中,芯材作为VIP的核心和骨架结构,不仅承担着支撑作用,而且是板内热量传递的主要通道,对保证VIP的保温性能具有关键作用。基于此,本文首先重点介绍了真空绝热板在绿色建筑和冷链物流领域应用的意义,明确了目前制约真空绝热板领域发展的关键问题;随后综述了真空绝热板芯材的研究现状和进展,比对了不同种类芯材(颗粒类芯材、泡沫类芯材、纤维类芯材、生物质材料类芯材和复合类芯材)在原料来源、保温性能、生产工艺及环境保护方面的优劣,将绿色、可再生的生物质基材料用作真空绝热板芯材进行了对比探讨;最后对真空绝热板芯材未来的研究方向和发展前景进行了总结和展望。本文指出,传统以玻璃纤维、有机泡沫或者气相二氧化硅为芯材的真空绝热板,存在生产成本高、不可再生、难降解、污染环境等问题,所以通过功能化手段获得新型、绿色、低成本、具有良好微观孔隙结构和高热阻的芯材是制约真空绝热板发展的关键。生物质材料具有来源广泛、成本低廉、绿色环保、孔隙结构丰富等优点,是一种极具潜力的VIP芯材原料,也将是真空绝热板芯材的重要研究方向。因此,生物质基芯材真空绝热板未来的发展还需进一步拓宽其原料来源、改善制备方法和工艺、明确老化和使役性能、关注复合芯材的开发,不断提高VIP的性能,扩展其应用领域。

数智化全自动标本转移系统在手术病理标本前处理流程中的应用

目的:探讨在数智化管理背景下,由手术室护士主导的数智化全自动标本转移系统在手术病理标本前处理流程中的应用效果,为提高手术病理标本质量提供参考。方法:构建数智化全自动标本转移系统,并将其应用于手术病理标本前处理流程中,比较系统应用前(2023年4月—7月)和系统应用后(2023年8月—11月)的病理标本送检效率、送检质量、手术室护士心理压力及医护人员满意度。结果:应用数智化全自动标本转移系统后,病理标本前处理流程时长较应用前平均减少3.66 min,一次性接收合格率由87.07%提高至96.42%,病理送检质量满意率较高,护士工作压力显著缓解,医务人员满意度明显提高,以上差异均具有统计学意义(P<0.05)。结论:数智化全自动标本转移系统应用于手术标本前处理流程中可有效提高手术标本前处理效率并缓解护士工作压力,保障病理标本送检质量,为医疗诊断提供可靠的依据,有效减少医务人员职业暴露,提升医护人员满意度。

电泳烘烤对EP/CF及EP/CF/GF复合材料力学性能的影响

采用真空辅助树脂传递模塑(VARTM)工艺制备了不同铺层方式的碳纤维增强聚合物基复合材料(CFRP):环氧树脂/碳纤维(EP/CF)和环氧树脂/碳纤维/玻璃纤维毡(EP/CF/GF)复合材料,重点研究了不同铺层纤维体系的CFRP渗透率以及电泳烘烤前后的力学性能变化,探究了其失效机理。结果表明,[±45°]铺层方式有利于体系中树脂的浸润,且加入GF能够明显提高体系的渗透率;电泳烘烤后,CF[0/90°]、CF[±45°]和CF/GF[±45°]的拉伸强度分别下降了15.65%、12.05%和6.77%,模量分别下降了9.08%、16.39%和10.04%,而CF/GF[0/90°]的拉伸强度和模量则分别提高了7.74%和6.95%;在弯曲性能方面,电泳烘烤后CF[0/90°]、CF/GF[0/90°]、CF[±45°]和CF/GF[±45°]的弯曲强度分别下降了7.62%、8.23%、15.89%和48.39%,模量分别降低了9.23%、3.69%、17.85%和34.38%;而电泳烘烤对4种材料的压缩性能影响较小;电泳后,CF[0/90°]和CF[±45°]的储能模量、损耗模量均有一定幅度提高,CF/GF[0/90°]和CF/GF[±45°]的储能模量、损耗模量均有下降。

基于混合FTMM-SEA法的高速列车真空玻璃车窗隔声特性预测与分析

真空玻璃在轻质高隔声方面的性能优势尤为突出,将其用于高速列车车窗是轻量化高速列车车内噪声控制的新型解决方案。将声波在真空玻璃中的传播分解为沿真空层和沿声桥结构的两条独立传播路径,分别使用有限传递矩阵法(FTMM)和统计能量分析法(SEA)计算两条路径的声功率传递系数,建立基于混合FTMM-SEA法的真空玻璃车窗结构隔声量预测模型,并通过实测真空玻璃混响隔声量验证模型的准确性。进一步调查分析声桥结构刚度对耦合板间能量传递、真空玻璃隔声特性的影响。结果表明:减小声桥结构刚度是提高真空玻璃车窗隔声性能的一种有效的方法。与刚性声桥相比,柔性声桥具备更好的能量吸收能力与隔振特性。

能量天平中砝码真空传递装置设计研究

能量天平是我国自主研制的千克量子化复现装置,千克重新定义后如何实现基于能量天平的质量量值传递就显得尤为重要。然而,能量天平在质量量值传递过程中存在标准砝码暴露于空气环境中影响量值传递准确性的问题。为了解决该问题,基于能量天平结构特点,设计提出一种组合式砝码传递方案,并研制出对应的砝码真空传递装置,能够实现标准砝码在真空环境下从能量天平传递至真空容器,确保质量量值传递的准确性。然后,根据能量天平悬挂系统建立了传递装置传递准确性模型,并基于该模型得到了砝码传递x、y轴的传递误差分别为0.0116μm、0.0092μm,论证了砝码传递过程的准确性。最后通过实验验证了砝码真空传递装置给能量天平引入小于10-9量级的准直误差,不会影响能量天平精密准直状态。

渗透汽化膜过程乙醇水蒸气真空分馏热质传递

对透醇选择性渗透汽化膜下游的渗透蒸气进行分级冷凝,重点研究了真空冷凝分馏器的热-质传递行为,分析了进口渗透蒸气流速对真空冷凝分馏器传热系数与冷凝行为的影响.进口蒸气流速从3.09 m/s提高至8.05 m/s时,总传热系数由37.06 W/(m^(2)·K)提高至145.27 W/(m^(2)·K),渗透蒸气侧冷凝给热系数也由55.81 W/(m^(2)·K)提高至544.60 W/(m^(2)·K).不同流速下,传热过程各步骤热阻占比不同,3.09 m/s时,渗透蒸气侧热阻占比较大,高达82.99%;流速提高至8.05 m/s后,冷却介质侧热阻占比增大,达到65.66%.随进口蒸气流速的提高,真空冷凝分馏器中蒸气冷凝量在总渗透蒸气中的占比由41.82%提高至68.19%,乙醇质量分数由3.45%提高到10.66%.

平直翅片管式捕水器换热性能实验研究

为研究平直翅片管式捕水器换热性能,设计了一种真空捕水器实验系统,并对其换热性能进行测试,系统运行约450 s,真空室内的模拟热源温度从80℃降至25℃,凝结水量约2.9 kg。实验结果表明:蒸发动力越高,水蒸发越剧烈;捕水器凝结水蒸气的峰值制冷量为45.0 kW,峰值传热系数约为53.68 W/(m^(2)·K),平均传热系数为38.34 W/(m^(2)·K);相比光管折流板式捕水器,平直翅片管式捕水器所需冷却时间缩短17%,凝结水量提高7.41%。

基于VARTM的碳纤维单向与三维编织混杂织物树脂灌注工艺

为探究碳纤维单向与三维编织混杂增强环氧树脂基复合材料地铁转向架侧梁的树脂灌注成型工艺,首先基于渗透率理论模型采用非饱和径向流法分别测试得到碳纤维单向与三维编织织物的渗透率。通过数值模拟的方法对典型复合材料方形管结构进行缩比建模与网格划分,并利用PAM-RTM软件对树脂灌注成型过程进行仿真分析,预测了制备复合材料方管所需的灌注时间、灌注压力以及树脂流动过程缺陷的产生。最后根据模拟的灌注方案通过真空辅助树脂传递模塑(VARTM)成型工艺制备了碳纤维单向和三维编织混杂织物增强环氧树脂复合材料方管结构件。结果表明,通过PAM-RTM模拟VARTM工艺制备复合材料方管时树脂的流动,预测得到灌注时间为3897 s,VARTM工艺实际制备复合材料方管的灌注时间为4052 s,误差约为3.8%,在合理误差范围内。方管内部灌注压力随着与注胶口距离的增加而逐渐减小。模拟与实验的误差可能是由于实际铺层和灌注过程中树脂流动引起织物的剪切变形以及真空度的差异导致渗透性能产生变化。仿真模拟和实际制备复合材料方管均无明显缺陷产生,证明径向法织物渗透率的理论模型计算测试和仿真结果具有可靠性。

真空绝热板内保温板缝漏热的测试与解决措施

真空绝热板是一种具有低导热系数和高防火性能的保温材料,因此在严寒和寒冷地区受到越来越多的关注。由于真空绝热板的尺寸一般是固定的,其用于建筑墙体需要拼接且容易产生热桥效应,通过实验研究几组真空绝热板发现板缝处的传热系数相较于板中心较高。当采用双真空绝热板与单层真空绝热板+聚苯乙烯泡沫板的保温墙体时,板缝处的传热系数明显降低且两种组合方式都可以满足75%标准的墙体节能要求,同时,文章还提出了减小真空绝热板产生热桥效应的外墙构造做法。

太阳能真空集热管热损分析与试验研究

基于热平衡法提出了一种动态热平衡热损计算方法,并进行了验证,同时分析了环境温度、进口温度、流量对真空集热管热损的影响。结果表明,热损随着环境温度的降低、进口熔盐温度的升高和熔盐质量流量的降低而增大;当辐照强度在700 W/m2以上时,真空集热管获得的热量大于热损并能稳定工作,说明槽式光热电站在东南沿海等太阳能资源相对不足的地区有一定的适用性。

常减压蒸馏装置减压转油线浅要分析

减压转油线是常减压蒸馏装置中非常重要的一条管线,减压转油线设计的是否合理,不仅影响到减压蒸馏的稳定操作,而且对于产品质量、产品拔出率、以及装置能耗都具有极其重要的影响。通过对减压转油线在工艺设计、管道选材、配管设计等方面的浅要分析,结合工作中的实际装置设计经验,总结了笔者在设计过程中的一些设计思路和方法,希望能对后续减压转油线的设计或改造提供一点参考或借鉴意义。

面向药材贮藏的热泵干燥系统实验研究

目的针对药材贮藏前传统干燥处理方法效率低,药材易变质,处理能耗高,不利于药材高品质贮藏等问题,优化药材干燥处理方法至关重要。方法采用真空低温干燥技术,设计一套以真空干燥箱为传质系统进行低温干燥的热泵干燥处理系统。系统包含基于热泵压缩机驱动的真空低温干燥系统、真空泵、变频风机等设备,通过对其进行干燥性能实验研究,分析获得热泵冷凝温度、空气入口风速以及空气入口温度对该系统干燥性能的影响。结果在环境真空压力−40~0 kPa实验条件下,热泵真空低温干燥系统的干燥量、干燥效率、传质系数及传热系数最大值分别为3.96 kg/h、44.19%、3.75 g/(m^(2)·s)、3.25 W/(m^(2)·℃),析湿过程传质系数及传热系数最大值分别为44.51 g/(m^(2)·s)及36.03 W/(m^(2)·℃),热泵系统最大能效为6.08。对实验数据进行回归分析,得到热泵真空低温干燥系统干燥效率模型,模型计算值与实验值的最大偏差在±21%以内,平均偏差为9.18%,预测效果较好。结论相较于常压下热泵低温干燥技术,基于真空低温干燥技术的热泵干燥系统能够有效提高药材干燥效率,降低药材干燥处理过程中的能源消耗,为药材高品质贮藏提供保障。