荒漠植物花花柴HTR基因家族表达模式及其增强细菌抗逆性分析

【目的】荒漠植物花花柴具有耐盐碱、耐高温等优异的广谱抗逆性,是新疆珍贵的天然抗逆植物种质资源。挖掘花花柴耐极端温度和耐盐基因,系统分析其在高温、低温和高盐胁迫下表达模式以及抗逆性,对于利用该基因增强作物抗逆性、稳产性、丰产性,促进荒漠植物基因资源的发掘利用都具有重要意义。【方法】采用盆栽花花柴幼苗进行不同时长的高温(45℃)、低温(4℃)和高盐(400 mmol/L Na^(+))胁迫处理,采集幼苗的根、茎、叶组织,利用RT-PCR等技术克隆花花柴HTR基因家族(KcHTRs),分析KcHTRs基因表达情况,同时通过原核表达体系分析其抗逆性以及表达蛋白质的最佳诱导条件。【结果】(1)从荒漠植物花花柴高温转录组数据中筛选并克隆了KcHTR基因家族的7个成员,通过构建原核表达载体并诱导表达,明确其cDNA长度在708~789 bp之间,所表达的蛋白质分子量在27~29 kD之间;(2)发现在大肠杆菌BL21最适生长温度37℃下该家族蛋白的最佳诱导表达体系:OD600为0.8,IPTG诱导浓度为0.5 mmol/L,诱导时间为8~10 h;(3)通过对重组大肠杆菌的模拟高温、低温、盐胁迫处理,结果显示KcHTRs能够在一定程度上增强宿主对高温、低温和高盐的耐受性。【结论】KcHTRs具有优异的广谱抗逆性,主要具有耐极端温度的抗逆性,且能够积极响应花花柴植株应对逆境胁迫。

HTR-PM汽轮机轴封蒸汽断供原因分析及解决方案

介绍了高温气冷堆示范工程(HTR-PM)汽轮机轴封系统,并且对轴封蒸汽断供的原因进行了分析,提出了可以采用蒸汽发生器及管道内余汽供轴封、辅助电锅炉至轴封供汽管道改造、高温空气供轴封这3种解决方案。对3种方案进行对比,分析其在成本、可靠性和运行限制方面的优缺点,结果表明3种方案均是可行的。研究结果为HTR-PM汽轮机轴封蒸汽断供问题的解决提供了参考。

Proposal of a Deuterium-Deuterium Fusion Reactor Intended for a Large Power Plant

This article looks for the necessary conditions to use Deuterium-Deuterium (D-D) fusion for a large power plant. At the moment, for nearly all the projects (JET, ITER…) only the Deuterium-Tritium (D-T) fuel is considered for a power plant. However, as shown in this article, even if a D-D reactor would be necessarily much bigger than a D-T reactor due to the much weaker fusion reactivity of the D-D fusion compared to the D-T fusion, a D-D reactor size would remain under an acceptable size. Indeed, a D-D power plant would be necessarily large and powerful, i.e. the net electric power would be equal to a minimum of 1.2 GWe and preferably above 10 GWe. A D-D reactor would be less complex than a D-T reactor as it is not necessary to obtain Tritium from the reactor itself. It is proposed the same type of reactor yet proposed by the author in a previous article, i.e. a Stellarator “racetrack” magnetic loop. The working of this reactor is continuous. It is reminded that the Deuterium is relatively abundant on the sea water, and so it constitutes an almost inexhaustible source of energy. Thanks to secondary fusions (D-T and D-He3) which both occur at an appreciable level above 100 keV, plasma can stabilize around such high equilibrium energy (i.e. between 100 and 150 keV). The mechanical gain (Q) of such reactor increases with the internal pipe radius, up to 4.5 m. A radius of 4.5 m permits a mechanical gain (Q) of about 17 which thanks to a modern thermo-dynamical conversion would lead to convert about 21% of the thermal power issued from the D-D reactor in a net electric power of 20 GWe. The goal of the article is to create a physical model of the D-D reactor so as to estimate this one without the need of a simulator and finally to estimate the dimensions, power and yield of such D-D reactor for different net electrical powers. The difficulties of the modeling of such reactor are listed in this article and would certainly be applicable to a future D-He3 reactor, if any.

Application of the CatBoost Model for Stirred Reactor State Monitoring Based on Vibration Signals

Stirred reactors are key equipment in production,and unpredictable failures will result in significant economic losses and safety issues.Therefore,it is necessary to monitor its health state.To achieve this goal,in this study,five states of the stirred reactor were firstly preset:normal,shaft bending,blade eccentricity,bearing wear,and bolt looseness.Vibration signals along x,y and z axes were collected and analyzed in both the time domain and frequency domain.Secondly,93 statistical features were extracted and evaluated by ReliefF,Maximal Information Coefficient(MIC)and XGBoost.The above evaluation results were then fused by D-S evidence theory to extract the final 16 features that are most relevant to the state of the stirred reactor.Finally,the CatBoost algorithm was introduced to establish the stirred reactor health monitoring model.The validation results showed that the model achieves 100%accuracy in detecting the fault/normal state of the stirred reactor and 98%accuracy in diagnosing the type of fault.

Dynamic simulation analysis of molten salt reactor-coupled air-steam combined cycle power generation system

A nonlinear dynamic simulation model based on coordinated control of speed and flow rate for the molten salt reactor and combined cycle systems is proposed here to ensure the coordination and stability between the molten salt reactor and power system.This model considers the impact of thermal properties of fluid variation on accuracy and has been validated with Simulink.This study reveals the capability of the control system to compensate for anomalous situations and maintain shaft stability in the event of perturbations occurring in high-temperature molten salt tank outlet parameters.Meanwhile,the control system’s impact on the system’s dynamic characteristics under molten salt disturbance is also analyzed.The results reveal that after the disturbance occurs,the controlled system benefits from the action of the control,and the overshoot and disturbance amplitude are positively correlated,while the system power and frequency eventually return to the initial values.This simulation model provides a basis for utilizing molten salt reactors for power generation and maintaining grid stability.

Review on synergistic damage effect of irradiation and corrosion on reactor structural alloys

The synergistic damage effect of irradiation and corrosion of reactor structural materials has been a prominent research focus.This paper provides a comprehensive review of the synergistic effects on the third-and fourth-generation fission nuclear energy structural materials used in pressurized water reactors and molten salt reactors.The competitive mechanisms of multiple influencing factors,such as the irradiation dose,corrosion type,and environmental temperature,are summarized in this paper.Conceptual approaches are proposed to alleviate the synergistic damage caused by irradiation and corrosion,thereby promoting in-depth research in the future and solving this key challenge for the structural materials used in reactors.

Induction System for a Fusion Reactor: Quantum Mechanics Chained up

In the quest for a sustainable and abundant energy source, nuclear fusion technology stands as a beacon of hope. This study introduces a groundbreaking quantum mechanically effective induction system designed for magnetic plasma confinement within fusion reactors. The pursuit of clean energy, essential to combat climate change, hinges on the ability to harness nuclear fusion efficiently. Traditional approaches have faced challenges in plasma stability and energy efficiency. The novel induction system presented here not only addresses these issues but also transforms fusion reactors into integrated construction systems. This innovation promises compact fusion reactors, marking a significant step toward a clean and limitless energy future, free from the constraints of traditional power sources. This revolutionary quantum induction system redefines plasma confinement in fusion reactors, unlocking clean, compact, and efficient energy production.

Control system design for a pressure-tube-type supercritical water-cooled nuclear reactor via a higher order sliding mode method

Nuclear power plants exhibit non-linear and time-variable dynamics.Therefore,designing a control system that sets the reactor power and forces it to follow the desired load is complicated.A supercritical water reactor(SCWR)is a fourth-generation conceptual reactor.In an SCWR,the non-linear dynamics of the reactor require a controller capable of control-ling the nonlinearities.In this study,a pressure-tube-type SCWR was controlled during reactor power maneuvering with a higher order sliding mode,and the reactor outgoing steam temperature and pressure were controlled simultaneously.In an SCWR,the temperature,pressure,and power must be maintained at a setpoint(desired value)during power maneuvering.Reactor point kinetics equations with three groups of delayed neutrons were used in the simulation.Higher-order and classic sliding mode controllers were separately manufactured to control the plant and were compared with the PI controllers speci-fied in previous studies.The controlled parameters were reactor power,steam temperature,and pressure.Notably,for these parameters,the PI controller had certain instabilities in the presence of disturbances.The classic sliding mode controller had a higher accuracy and stability;however its main drawback was the chattering phenomenon.HOSMC was highly accurate and stable and had a small computational cost.In reality,it followed the desired values without oscillations and chattering.

The Shandong Shidao Bay 200 MWe High-Temperature Gas-Cooled Reactor Pebble-Bed Module(HTR-PM)Demonstration Power Plant:An Engineering and Technological Innovation

After the first concrete was poured on December 9,2012 at the Shidao Bay site in Rongcheng,Shandong Province,China,the construction of the reactor building for the world’s first high-temperature gascooled reactor pebble-bed module(HTR-PM)demonstration power plant was completed in June,2015.Installation of the main equipment then began,and the power plant is currently progressing well toward connecting to the grid at the end of 2017.The thermal power of a single HTR-PM reactor module is 250 MWth,the helium temperatures at the reactor core inlet/outlet are 250/750℃,and a steam of 13.25 MPa/567℃ is produced at the steam generator outlet.Two HTR-PM reactor modules are connected to a steam turbine to form a 210 MWe nuclear power plant.Due to China’s industrial capability,we were able to overcome great difficulties,manufacture first-of-a-kind equipment,and realize series major technological innovations.We have achieved successful results in many aspects,including planning and implementing R&D,establishing an industrial partnership,manufacturing equipment,fuel production,licensing,site preparation,and balancing safety and economics;these obtained experiences may also be referenced by the global nuclear community.

600-MW_(e)high-temperature gas-cooled reactor nuclear power plant HTR-PM600

The HTR-PM600 high-temperature gas-cooled reactor nuclear power plant is based on the technology of the high-temperature gas-cooled reactor pebble-bed module(HTR-PM)demonstration project.It utilizes proven HTR-PM reactor and steam generator modules with a thermal power of 250 MW_(th)and power generation of approximately 100 MW_(e)per module.Six modules in parallel,connected to a steam turbine,form a 600-MW_(e)nuclear power plant.In addition,its system configuration in the nuclear island is identical to that of the HTR-PM in which the technical risks are minimized.Under this principle,the HTR-PM600 achieves the same level of inherent safety as the HTR-PM.The concept of a ventilated lowpressure containment(VLPC)is unchanged;however,a large circular VLPC accommodating all six reactor modules is adopted rather than the previous small-cavity-type VLPC,which contains only one module,as defined for the HTR-PM.The layout of the nuclear island and its associated systems refer to single-unit pressurized water reactor(PWR)practices.With this layout,the HTR-PM600achieves a volume size of the nuclear island that is comparable to a domestic PWR of the same power level.This will be a GenerationⅣnuclear energy technology that is economically competitive.

荒漠植物花花柴耐高温相关基因HTR的克隆及表达模式分析

非生物胁迫是导致作物减产甚至植株死亡的重要因素。在所有非生物胁迫因子中,温度是影响植物生长发育的重要因子之一。本研究从荒漠植物花花柴高温胁迫转录组数据中筛选出HTR基因家族,为深入探究该基因家族的结构和功能,克隆了花花柴KcHTRs基因家族的8个成员,重点分析了KcHTR3、KcHTR4基因在高温胁迫下的表达模式。结果发现KcHTR3全长780 bp,编码259个氨基酸,KcHTR4全长771 bp,编码256个氨基酸,KcHTR3、KcHTR4于45℃处理4 h时,在叶器官中表达量最高,两个基因的表达均呈高-低-高的趋势,表明植物在应对高温胁迫时表现出耐受-响应-适应的能力,这为荒漠植物抗逆基因资源的挖掘与利用提供了研究基础。

Feasibility neutronic design for the reactor core configurations of a 5 MWth transportable block-type HTR

Small long-life transportable high temperature gas-cooled reactors(HTRs) are interesting because they can safely provide electricity or heat in remote areas or to industrial users in developed or developing countries.This paper presents the neutronic design of the U-Battery,which is a 5 MWth block-type HTR with a fuel lifetime of 5–10 years.Assuming a reactor pressure vessel diameter of less than 3.7 m,some possible reactor core configurations of the 5 MWth U-Battery have been investigated using the TRITON module in SCALE 6.The neutronic analysis shows that Layout 12×2B,a scattering core containing 2 layers of 12 fuel blocks each with 20% enriched235U,reaches a fuel lifetime of 10 effective full power years(EFPYs).When the diameter of the reactor pressure vessel is reduced to 1.8 m,a fuel lifetime of 4 EFPYs will be achieved for the 5 MWth U-Battery with a 25-cm thick graphite side reflector.Layouts 6×3 and 6×4 with a 25-cm thick BeO side reflector achieve a fuel lifetime of 7 and 10 EFPYs,respectively.The comparison of the different core configurations shows that,keeping the number of fuel blocks in the reactor core constant,the annular and scattering core configurations have longer fuel lifetimes and lower fuel cost than the cylindrical ones.Moreover,for the 5 MWth U-Battery,reducing the fuel inventory in the reactor core by decreasing the diameter of fuel kernels and packing fraction of TRISO particles is more effective to lower the fuel cost than decreasing the 235U enrichment.

茵陈蒿汤对代谢相关脂肪性肝病小鼠“肠TPH1-肝HTR2A轴”的影响

目的基于肠TPH1-肝HTR2A轴探讨茵陈蒿汤防治MAFLD的作用机制。方法24只C57BL/6J小鼠随机分为对照组、模型组、茵陈蒿汤组,每组8只。模型组、茵陈蒿汤组小鼠采用高脂饲料喂饲,12周后,茵陈蒿汤组给予茵陈蒿汤灌胃,每日1次,连续4周。采用HE染色和油红O染色观察肝脏组织病理变化,检测血清HDL-C、LDL-C、TC、TG、AST、ALT和5-HT含量,肝脏TC、TG、DAG、PLC含量,小肠TPH1、SERT及肝脏HTR2A、SREBP-1c、GPAT1、FASN mRNA水平,小肠TPH1、SERT及肝脏HTR2A、PKC-ε、P-PI3K、P-AKT、P-mTOR、SREBP-1c、GPAT1、FASN蛋白表达。结果对照组肝细胞排列整齐,无明显脂肪变性;模型组肝细胞体积肿胀,有明显脂肪变性;与模型组比,茵陈蒿汤组肝细胞脂肪变性显著减少。相较于对照组,模型组肝脏脂质沉积显著升高,茵陈蒿汤显著改善肝脏脂质沉积。与对照组比,模型组肝脏TG和TC水平显著升高(P<0.05);血清AST、ALT、HDL-C、LDL-C、TG、TC水平显著升高(P<0.05);血清5-HT及肝脏DAG、PLC水平显著升高(P<0.05);小肠TPH1及肝脏HTR2A、SREBP-1c、GPAT1、FASN mRNA表达水平显著升高,小肠SERT mRNA表达水平显著降低(P<0.05);小肠TPH1及肝脏HTR2A、PKC-ε、P-PI3K、P-AKT、P-mTOR、SREBP-1c、GPAT1、FASN蛋白表达水平显著升高,小肠SERT蛋白表达水平显著降低(P<0.05)。与模型组比,茵陈蒿汤组肝脏TG和TC水平显著降低(P<0.05);血清AST、ALT、HDL-C、LDL-C、TG、TC水平显著降低(P<0.05);血清5-HT及肝脏DAG、PLC水平显著降低(P<0.05);小肠TPH1及肝脏HTR2A、SREBP-1c、GPAT1、FASN mRNA表达水平显著降低,小肠SERT mRNA表达水平显著升高(P<0.05);小肠TPH1及肝脏HTR2A、PKC-ε、P-PI3K、P-AKT、P-mTOR、SREBP-1c、GPAT1、FASN蛋白表达水平显著降低,小肠SERT蛋白表达水平显著升高(P<0.05)。结论茵陈蒿汤可能通过肠TPH1-肝HTR2A轴调节肝脏TG合成,从而抑制MAFLD发生发展。

Development of multi-group Monte-Carlo transport and depletion coupling calculation method and verification with metal-fueled fast reactor

The accurate modeling of depletion,intricately tied to the solution of the neutron transport equation,is crucial for the design,analysis,and licensing of nuclear reactors and their fuel cycles.This paper introduces a novel multi-group Monte-Carlo depletion calculation approach.Multi-group cross-sections(MGXS)are derived from both 3D whole-core model and 2D fuel subassembly model using the continuous-energy Monte-Carlo method.Core calculations employ the multi-group Monte-Carlo method,accommodating both homogeneous and specific local heterogeneous geometries.The proposed method has been validated against the MET-1000 metal-fueled fast reactors,using both the OECD/NEA benchmark and a new refueling benchmark introduced in this paper.Our findings suggest that microscopic MGXS,produced via the Monte-Carlo method,are viable for fast reactor depletion analyses.Furthermore,the locally heterogeneous model with angular-dependent MGXS offers robust predictions for core reactivity,control rod value,sodium void value,Doppler constants,power distribution,and concentration levels.

Application of silicon carbide temperature monitors in 49-2 swimming-pool test reactor

High purity SiC crystal was used as a passive monitor to measure neutron irradiation temperature in the 49-2 research reactor.The SiC monitors were irradiated with fast neutrons at elevated temperatures to 3.2×10^(20)n/cm^(2).The isochronal and isothermal annealing behaviors of the irradiated SiC were investigated by x-ray diffraction and four-point probe techniques.Invisible point defects and defect clusters are found to be the dominating defect types in the neutron-irradiated SiC.The amount of defect recovery in SiC reaches a maximum value after isothermal annealing for 30 min.Based on the annealing temperature dependences of both lattice swelling and material resistivity,the irradiation temperature of the SiC monitors is determined to be~410℃,which is much higher than the thermocouple temperature of 275℃ recorded during neutron irradiation.The possible reasons for the difference are carefully discussed.

HMGA1对TGF-β1诱导HTR-8/SVneo细胞上皮间质转化的影响

目的研究高迁移率蛋白A1(HMGA1)对HTR-8/SVneo细胞中转化生长因子β1(TGF-β1)诱导所致上皮间质转化(EMT)过程中的作用。方法将HMGA1的小分子干扰RNA(siRNA)转染进人绒毛膜滋养层细胞HTR-8/SVneo,将细胞分为空白对照组、阴性对照+lipofectamine 3000组、lipofectamine 3000组、阳性对照+lipofectamine 3000组、HMGA1 SiRNA-1+lipofectamine 3000组、HMG1 SiRNA-2+lipofectamine 3000组、HMG1 siRNA-3+lipofectamine 3000组,采用实时荧光定量PCR(RT-qPCR)和蛋白免疫印迹法,检测各组的HMGA1基因和蛋白表达,筛选出沉默效率最佳的siRNA;TGF-β1诱导HTR-8/SVneo发生EMT,研究TGF-β1对EMT过程的影响;使用筛选后的siRNA与TGF-β1共同作用,检测HMGA1、N-cadherin、E-cadherin的表达情况;加入TGF-β1用于诱导细胞,探究PI3K/AKT和NF-κB通路相关蛋白的表达状况;利用PI3K/AKT和NF-κB通路抑制剂阻断通路,研究HMGA1在通路介导下EMT过程的作用机制。结果HMGA1 siRNA-1组沉默效果最佳,可用于后续实验;与空白对照组相比,TGF-β1组E-cadherin蛋白表达水平降低,N-cadherin蛋白表达水平升高,差异有统计学意义(P<0.05);干扰HMGA1表达可以阻止TGF-β1诱导HTR-8/SVneo细胞发生EMT;TGF-β1诱导后,通路相关蛋白p-AKT、AKT、NF-κB表达量均增加,与空白对照组相比,差异有统计学意义(P<0.05);加入通路抑制剂后,HMGA1的表达量主要受PI3K/AKT通路的影响,而NF-κB通路的抑制剂对HMGA1的影响较小。结论HMGA1在TGF-β1诱导的HTR-8/SVneo细胞EMT过程中发挥着重要作用,而且TGF-β1主要通过PI3K/AKT通路调控HMGA1的表达,进而促进细胞发生EMT。

Different efficiency toward the biomimetic aerobic oxidation of benzyl alcohol in microchannel and bubble column reactors: Hydrodynamic characteristics and gas–liquid mass transfer

The selective aerobic oxidation of benzyl alcohol to benzaldehyde has attracted considerable attention because benzaldehyde is a high value-added product. The rate of this typical gas–liquid reaction is significantly affected by mass transfer. In this study, CoTPP-mediated(CoTPP: cobalt(II) mesotetraphenylporphyrin) selective benzyl alcohol oxidation with oxygen was conducted in a membrane microchannel(MMC) reactor and a bubble column(BC) reactor, respectively. We observed that 83% benzyl alcohol was converted within 6.5 min in the MMC reactor, but only less than 10% benzyl alcohol was converted in the BC reactor. Hydrodynamic characteristics and gas–liquid mass transfer performances were compared for the MMC and BC reactors. The MMC reactor was assumed to be a plug flow reactor,and the dimensionless variance was 0.29. Compared to the BC reactor, the gas–liquid mass transfer was intensified significantly in MMC reactor. It could be ascribed to the high gas holdup(2.9 times higher than that of BC reactor), liquid film mass transfer coefficient(8.2 times higher than that of BC reactor), and mass transfer coefficient per unit interfacial area(3.8 times higher than that of BC reactor). Moreover,the Hatta number for the MMC reactor reached up to 0.61, which was about 15 times higher than that of the BC reactor. The computational fluid dynamics calculations for mass fractions in both liquid and gas phases were consistent with the experimental data.

PEG10对人类绒毛滋养层细胞系HTR-8/Svneo细胞增殖和凋亡影响的初步研究

目的初步研究父系表达印记基因PEG10低表达对人类绒毛滋养层细胞系HTR-8/Svneo细胞增殖和凋亡的影响。方法构建4组PEG10干扰载体[si-898、si-1854、si-1951及对照(si-NC)],然后转染到HTR-8/Svneo细胞株并进体外培养,si-NC组为对照组。流式细胞术检测HTR-8/Svneo细胞的细胞周期和细胞凋亡,qRT-PCR检测Cytochrome C、Caspase3、Bid、Bak、Bax及Cyclin D1 mRNA的表达情况,MTT法检测细胞增殖活力。结果与对照组比较,转染3组siRNA片段均能显著抑制PEG10基因的表达(P<0.05),其中si-898、si-1854抑制作用更显著(P<0.01)。转染si-898或si-1854的HTR-8/Svneo细胞Cytochrome C、Caspase3、Bid、Bak、Bax mRNA的表达显著升高(P<0.01),而Cyclin D1 mRNA的表达显著降低(P<0.05),并且细胞凋亡率也显著高于对照组(P<0.05)。MTT法检测细胞增殖活力显示,与对照组相比,干扰PEG10基因后细胞在48 h和72 h的增殖活力也显著降低(P<0.05)。流式细胞术检测显示,干扰PEG10基因后细胞周期阻滞在G1期。结论干扰PEG10基因能诱导人类绒毛滋养层细胞系HTR-8/Svneo细胞凋亡,降低细胞增殖活力,阻止细胞周期从G1期到S期的转化进程,导致细胞周期阻滞。

Continuous Process Optimization and Computational Fluid Dynamics Simulation of a Methyl Anthranilate Jet Reactor

Methyl anthranilate(MA)is an important material for the synthesis of sodium saccharin,but the yield and quality of MA are not stable due to the batch operation conditions.In this study,the optimum conditions obtained by an orthogonal test in a batch reactor were a volume ratio of methanol to amide solution of 5:4,volume ratio of sodium hypochlorite to amide solution of 7:4,Hoffmann degradation reaction duration of 10 min,Hoffmann degradation reaction temperature of 10℃,esterification reaction duration of 10 min,and esterification reaction temperature of 40℃.The working flow velocity and allowable working viscosity range of a Venturi ejector inlet were both determined by a computational fluid dynamics(CFD)simulation.Based on the above experimental data,the continuous operation of the process was tested in a three-stage continuous reactor,which improved the product yield and quality of the process.

Impacts of solid physical properties on the performances of a slurry external airlift loop reactor integrating mixing and separation

Solid physical properties are vital for the design, optimization, and scale-up of gas–liquid–solid multiphase reactors. The complex and interactional effects of the solid physical properties, including particle diameter, density, wettability, and sphericity, on the hydrodynamic behaviors in a new external airlift loop reactor(EALR) integrating mixing and separation are decoupled in this work. Two semi-empirical equations are proposed and validated to predict the overall gas holdup and liquid circulating velocity satisfactorily, and then the individual influence of such solid physical properties is further investigated. The results demonstrate that both the overall gas holdup in the riser and the liquid circulating velocity in the downcomer increase with the contact angle, but decrease with particle size, density, and sphericity.Additionally, the impact of the particle size on the liquid circulating velocity is also profoundly revealed on a micro-level considering the particle size distribution. Moreover, the axial solid concentration distribution is discussed, and the uniformity of the slurry is described by the mixing index of the solid particles. The results show that a more homogeneous mixture can be achieved by adding finer particles other than attaining violent turbulence. Therefore, this work lays a foundation for the design, scale-up, and industrialization of the EALRs.