Your search keyword '"Huiping Fu"' showing total 12 results

1. Influence of cup structure on hydrodynamic performance of surface-piercing propeller

Author

Bin YAN, Huiping FU, and Jie LI

Subjects

ship propellers, surface-piercing propeller, cup structure, trailing edge angle, hydrodynamic performance, computational fluid dynamics, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

ObjectiveThis study aims to investigate the influence and mechanism of a cup structure on the hydrodynamic performance of a surface-piercing propeller. MethodsBased on the RANS method and combined with the volume of fluid (VOF) and sliding mesh methods, a numerical simulation is carried out on an 841-B surface-piercing propeller with a cup structure modification under natural ventilation conditions. On the basis of verifying the effectiveness of the numerical simulation method, the trailing edge angle is adjusted according to the dichotomy method to change the cup structure of the benchmark surface-piercing propeller, and a series of propellers is obtained for simulation calculation and research. ResultsChanging the cup structure has a significant impact on the thrust and torque of the surface-piercing propeller, but relatively little impact on its efficiency. Enlarging the cup structure allows more water to be attached to the blades when it emerges from the free surface, resulting in increased waves and droplet splashing behind the propeller. ConclusionThe method and results of this paper can provide useful references for the design of surface-piercing propellers.

Published

2024

2. Analysis of motion characteristics of ultra-high-speed underwater vehicle with temperature effect

Author

Shaojie LIU, Huiping FU, and Jie LI

Subjects

ultra-high-speed underwater vehicle, supercavitation, energy equation, liquid compressibility, motion characteristics, Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

ObjectivesThis paper aims to research the effects of the temperature and compressibility of liquid water on the super-cavitation phenomenon of an ultra-high-speed underwater vehicle and its motion characteristics. Methods First, based on CFD general software Fluent 19.2, the free motion of transonic and supersonic vehicles is computed using a numerical model that considers both the compressibility and temperature of the water. Qualitative and quantitative comparisons with the experimental results of reference [1] are made, and the effectiveness of the numerical method is verified. The motion characteristics at different initial speeds are then analyzed using the range at the sailing time of 0.008 s as the comparison base. Finally, the influence of the launch depth and environment temperature on the motion characteristics is discussed. Results It is found that when the speed is greater than 2 000 m/s, increasing the initial speed does not significantly increase the effective range; the critical speed is found between 1 450 m/s and 1 475 m/s, where the range variation is less than 3% with or without the influence of the temperature; as the launch depth increases, the resistance of the vehicle becomes greater and the sailing range gradually decreases; and the higher the environment temperature, the shorter the effective range. Conclusions It is shown that the numerical model proposed herein, which considers both the temperature and compressibility of liquid water, can provide valuable references for the motion analysis of ultra high-speed underwater vehicles and corresponding practical applications.

Published

2023

3. Construction and Application of Au NRs/4-MBA/PAM Ratiometric Surface-Enhanced Raman Scattering Substrate for Fish Veterinary Drug Residue Detection

Author

Jianxing Yu, Huiping Fu, and Qing Gu

Subjects

Au nanorods, surface-enhanced Raman scattering, polyacrylamide, 4-mercaptobenzoic acid, veterinary drug residues, Chemistry, QD1-999

Abstract

Surface-enhanced Raman scattering (SERS) is widely used for trace detection of substances, and the key to this technology lies in the preparation of the substrate material. In this study, a composite SERS material of Au NRs/4-MBA/PAM was constructed and characterized to better immobilize the reference molecule 4-mercaptobenzoic acid (4-MBA). Electron transmission microscopy results demonstrated that the PAM film helps Au NRs to pack closely, enhancing the stability of the material structure and reducing the interference of external environmental factors on the response of 4-MBA, thus improving the accuracy of quantitative determination. Comparative experimental results with the Au NRs/4-MBA substrate showed that the relative standard deviations (RSDs) of the detection results for MG on different batches of Au NRs/4-MBA/PAM were less than 8.0%, and the RSDs of different points on the same material were less than 10.0%, indicating that the Au NRs/4-MBA/PAM has higher uniformity, better reproducibility, and higher sensitivity in detecting malachite green (MG). Applying this material in the recovery determination of fish extract showed that the recovery rates of MG were between 75.60% and 83.24%. Therefore, the Au NRs/4-MBA/PAM substrate can accurately detect and quantify veterinary drug residue in complex matrices such as food tissue.

Published

2024

4. Green Synthesis of Three-Dimensional Au Nanorods@TiO2 Nanocomposites as Self-Cleaning SERS Substrate for Sensitive, Recyclable, and In Situ Sensing Environmental Pollutants

Author

Huiping Fu, Ning Ding, Dan Ma, Qing Xu, Bingyong Lin, Bin Qiu, Zhenyu Lin, and Longhua Guo

Subjects

surface-enhanced Raman spectroscopy (SERS), self-cleaning, photocatalytic activity, recyclable, environmental pollutants, Biotechnology, TP248.13-248.65

Abstract

In this work, a simple, low-cost, green, and mild method for the preparation of three-dimensional nanocomposite materials of gold nanorods (Au NRs)@TiO2 is reported. The surface of Au NRs was coated with TiO2 in situ reduction at room temperature without a complicated operation. The synthetic Au NRs@TiO2 nanocomposites were used as surface-enhanced Raman spectroscopy (SERS) active substrates for the reusable and sensitive detection of environmental pollutants. The results showed that the pollutants on Au NRs@TiO2 nanocomposites have higher SERS activity and reproducibility than those on the Au NR substrate without the presence of TiO2. Moreover, the SERS substrate can be readily recycled by UV-assisted self-cleaning to remove residual analyte molecules. Malachite green (MG) and crystal violet (CV) were used as examples to demonstrate the feasibility of the proposed sensor for the sensitive detection of environmental pollutants. The results showed that the limit of detections (LODs) were 0.75 μg/L and 0.50 μg/L for MG and CV, respectively, with the recoveries ranging from 86.67% to 91.20% and 83.70% to 89.00%. Meanwhile, the SERS substrate can be easily regenerated by UV light irradiation. Our investigation revealed that within three cycles, the Au NRs@TiO2 substrates still maintained the high SERS enhancement effect that they showed when first used for SERS detection. These results indicated that the method can be used to detect MG and CV in really complex samples. Due to the high sensitivity, reusability, and portability and the rapid detection property of the proposed sensor, it can have potential applications in the on-site detection of environmental pollutants in a complex sample matrix.

Published

2022

5. An Empirical Research on the Competencies of Distance Education Tutor at the Open University of China in the Context of Blended Learning

Author

Huiping Fu, Yuehui Zhong, Quan Zhou, and Zhicheng Gan

Subjects

Blended learning, Empirical research, Distance education, GRASP, ComputingMilieux_COMPUTERSANDEDUCATION, Mathematics education, Questionnaire, Context (language use), TUTOR, Psychology, computer, Best current practice, computer.programming_language

Abstract

Considering the common contradictions between work and study as well as family and study among distance learners, “more online, less face-to-face” should be an ideal mode in distance learning. How the distance education tutors implemented blended learning (BL) via the platform of Moodle at the Nanhai Experimental College of OUC(NHOUC) is investigated by means of semi-structured interviews and unstructured observation. Besides, what competencies the tutors have already possessed and will need to develop are looked into through a questionnaire survey. The study has found the best current practice of BL at the NHOUC is no more than “face-to-face equal to online”. Hence, the recommendations include tutors should have a good grasp of basic learning theories and creatively apply them to design for learning, strengthen services of non-academic support, improve e-moderating skills and attach importance to distance education principles so as to effectively employ the mode of “more online, less face-to-face”.

Published

2021

6. Financing and carbon emission reduction strategies of capital-constrained manufacturers in E-commerce supply chains

Author

Juanjuan Qin, Ziping Wang, Liangjie Xia, and Huiping Fu

Subjects

Finance, Economics and Econometrics, business.industry, ComputerApplications_MISCELLANEOUS, Capital (economics), Supply chain, Production (economics), ComputerApplications_COMPUTERSINOTHERSYSTEMS, E-commerce, Management Science and Operations Research, business, General Business, Management and Accounting, Industrial and Manufacturing Engineering

Abstract

In this paper, a manufacturer is considered who is regulated by the cap-and-trade scheme and sells products on an e-business (EB) platform. When this manufacturer is capital-constrained, funds can be accessed via EB platform financing mode, supplier credit financing mode, and mixed financing mode, where the manufacturer accesses funds from both the supplier and the EB platform. Considering the exogenous retail price, this paper develops optimizing models under all three financing modes to investigate the manufacturer's emission reduction, production quantities, and financing strategies. The financing strategy of a slightly capital-constrained manufacturer depends on the usage fee charged by the EB platform. The manufacturer prefers non-financing support if the usage fee rate is too high; otherwise, the manufacturer prefers accessing funds from the EB platform. A moderately capital-constrained manufacturer prefers EB platform financing if the financing rate charged by the EB platform financing is slightly higher than that charged by the supplier. Also, a moderately capital-constrained manufacturer prefers EB platform financing if the usage fee rate is relatively low; otherwise, supplier credit financing is preferred. Furthermore, a heavily capital-constrained manufacturer prefers mixed financing if the financing rate charged by the EB platform is higher than that charged by the supplier; otherwise, the manufacturer prefers EB platform financing. When the usage fee is endogenous, the EB platform financing mode is better than the non-financing mode for both the capital-constrained manufacturer and the EB platform. Furthermore, the above conclusions are robust when the retail price is endogenous.

Published

2021

7. Hydro-Acoustic Analysis of the Cavitating Model Propeller PPTC in Oblique Flow

Author

Huiping Fu and Jie Li

Subjects

Cavitation, Propeller, Oblique flow, Geology, Marine engineering

Published

2018

8. Numerical simulation on ship bubbly wake

Author

Pengcheng Wan and Huiping Fu

Subjects

Engineering, business.industry, Turbulence, Mechanical Engineering, Multiphase flow, Ocean Engineering, Mechanics, Reynolds stress, Wake, Computational fluid dynamics, Physics::Fluid Dynamics, Free surface, Hull, Volume of fluid method, business, Marine engineering

Abstract

Based on a volume of fluid two-phase model imbedded in the general computational fluid dynamics code FLUENT6.3.26, the viscous flow with free surface around a model-scaled KRISO container ship (KCS) was first numerically simulated. Then with a rigid-lid-free-surface method, the underwater flow field was computed based on the mixture multiphase model to simulate the bubbly wake around the KCS hull. The realizable k-ɛ two-equation turbulence model and Reynolds stress model were used to analyze the effects of turbulence model on the ship bubbly wake. The air entrainment model, which is relative to the normal velocity gradient of the free surface, and the solving method were verified by the qualitatively reasonable computed results.

Published

2011

9. Computations of self-propulsion free to sink and trim and of motions in head waves of the KRISO Container Ship (KCS) model

Author

Pablo M. Carrica, Frederick Stern, and Huiping Fu

Subjects

Engineering, business.industry, Ocean Engineering, Thrust, Rotational speed, Mechanics, Rudder, Seakeeping, Computational fluid dynamics, symbols.namesake, Hull, Froude number, symbols, Pitch angle, business, Marine engineering

Abstract

Two computations of the KCS model with motions are presented. Self-propulsion in model scale free to sink and trim are studied with the rotating discretized propeller from the Hamburg Model Basin (HSVA) at Fr = 0.26. This case is particularly complex to simulate due to the close proximity of the propeller to the rudder. The second case involves pitch and heave in regular head waves. Computations were performed with CFDShip-Iowa version 4.5, a RANS/DES CFD code designed for ship hydrodynamics. The self-propulsion computations were carried out following the procedure described in Carrica et al. [1] , in which a speed controller is used to find the propeller rotational speed that results in the specified ship velocity. The rate of revolutions n , sinkage, trim, thrust and torque coefficients K T , K Q and resistance coefficient CT ( SP ) are thus obtained. Comparisons between CFD and EFD show that the rate of revolutions n , thrust and torque coefficients K T and K Q have higher prediction accuracies than sinkage and trim. For the simulation of pitch and heave in head waves, the geometry includes KCS hull and rudder under three conditions with two Froude numbers and three wave length and amplitude combinations. 0th and 1st harmonic amplitudes and 1st harmonic phase are computed for total resistance coefficient C T , heave motion z and pitch angle θ . Comparisons between CFD and EFD show that pitch and heave are much better predicted than the resistance. In both cases comparisons with simulations by other authors presented at the G2010 CFD Workshop [2] using different CFD methodologies are included.

Published

2011

10. Numerical Simulation of Energy Saving Effects of Pre-swirl Stators and Mechanism Analysis.

Author

Huiping Fu, Ning Ma, Chenjun Yang, and Jing Jiang

Abstract

With a CFD method based on the general CFD code FLUENT 14.0, the viscous self-propulsion flow fields of a model scaled 55k DWT Product Carrier fitted with rudder-bulb-fin and presswork stator, were numerically simulated. The energy saving effect of stator was evaluated through the increase of propulsive efficiency, which was in good accordance with the EFD data. And the computed changing tendencies of almost all the self-propulsion factors with stator relative to without stator were the same as experiments, such as decreased revolution rate, increased thrust deduction and mean wake. And the wake energy analysis was also done to verify the energy saving effect of stator and the mechanism analysis showed that the stator decreases the flow kinetic energy behind the propeller through the contra-propeller pre-swirl. [ABSTRACT FROM AUTHOR]

Published

2016

11. A Method to Perform Self-Propulsion Computations with a Simplified Body-Force Propeller Model.

Author

Huiping Fu, Michael, Thad J., and Carrica, Pablo M.

Abstract

The article discusses research which developed a method to obtain the propeller operating point advance coefficient through the use of a non-interactive body force propeller model. Topics discussed include the method aimed to predict self-propulsion factors and numerical simulation of the viscous free surface flow field around a model-scale container ship.

Published

2015

12. Numerical Studies on Resistance Prediction Methods for Submerged Bodies.

Author

Huiping Fu and Yun Zhang

Abstract

The article presents a study that examined numerical methods of full-scale resistance prediction for submerged bodies using the submarine model SUBOFF from the U.S. Defense Advanced Research Projects Agency. Numerical simulation of the underwater viscous flow fields around SUBOFF for Reynolds number is performed. The impact of Reynolds number on resistance coefficient and form factor is discussed. A chart showing pressure coefficient along the upper meridian line is presented.

Published

2009