Your search keyword '"Wang, Hao-yu"' showing total 9 results

1. Application of machine learning algorithm for predicting gestational diabetes mellitus in early pregnancy†

Author

Wei Li-Li, Pan Yue-Shuai, Zhang Yan, Chen Kai, Wang Hao-Yu, and Wang Jing-Yuan

Subjects

early prediction, gestational diabetes mellitus, machine learning algorithm, random forest regression, Nursing, RT1-120

Abstract

To study the application of a machine learning algorithm for predicting gestational diabetes mellitus (GDM) in early pregnancy.

Published

2021

2. CrowdDepict: Personalized Recommendation Content Generation Based on Heterogeneous Crowdsourced Data

Author

ZHANG Qiuyun, GUO Bin, HAO Shaoyang, WANG Hao, YU Zhiwen, JING Yao

Subjects

deep learning, recommendation content generation, personalization, natural language generation, crowdsourced data, Electronic computers. Computer science, QA75.5-76.95

Abstract

With the rapid development of the E-commerce, the text of the products?? advertisement and recommendation is extremely vital in the case that people cannot touch the real products. Traditional product descriptions which are written manually show the same product information to all users, which do not consider that different users pay attention to different attributes. Moreover, the efficiency of manually written product descriptions cannot match the growth rate of products, so how to automatically generate personalized product descriptions has become a frontier research problem. This paper mainly studies the generation of personalized product description, takes the personalized characteristics of users into account and generates the product description text corresponding to the interest for each user. Due to the lack of personalized product description data set, the CrowdDepict model is proposed. It collects relevant corpus through public data sources such as Douban and JD, and generates personalized product description with product comments, etc. The experimental results show that the personalized product description model CrowdDepict can automatically generate the personalized product description according to the user preference, the description covers the user interest and product characteristics, and the text expression is smooth.

Published

2020

3. Simulation of oxygen enrichment characteristics and effect in hypoxia air-conditioning room

Author

WANG Hao-yu, LIU Ying-shu, ZHANG Chuan-zhao, CHEN Fu-xiang, MA Xiao-jun, and LI Chun-wang

Subjects

air-conditioning room, anoxic conditions, oxygen-enrichment, air distribution, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171

Abstract

Experiments and computational fluid dynamics (CFD) simulation were used to analyze the effects of the number and the diameter of oxygen supply ports, the flow rate and the mode of oxygen supply, and different modes of air flow (up-inlet and down-outlet on the same side, or on the different side) on the indoor oxygen enrichment characteristics and the effect of anoxic conditions in a closed buildings with or without air conditioning. Without air conditioning, the number and the diameter of oxygen supply ports, the flow rate and mode of oxygen supply, and formed oxygen-enriched regions are quite different. Using a double-45°-opposite oxygen supply ports with a diameter of 6 mm is advisable. Under the air conditioning condition, the number and the diameter of oxygen supply ports, the flow rate of oxygen supply, and the modes of air flow are different too. The formed oxygen-enriched area are all generally elliptical. It is advisable to use a single oxygen supply port with a diameter of 6 mm and an air flow mode of up-inlet and down-outlet on the different side. When the flow rate of the oxygen supply is the same, the oxygen-enriched area are formed by the wind speed of 0.85 m·s-1 is approximately 20% larger than that formed by the 1 m·s-1 wind speed. When the air supply wind speed is 0.85 m·s-1 and the oxygen supply flow rate is 1.5 m3·h-1, the oxygen-enriched area is approximately 0.96 m2, which is consistent with the area of the single-person activity. It is suitable as the basic oxygen-enriched supply for the single-person under air conditioning conditions where are lack of oxygen.

Published

2019

4. Oxygen enrichment characteristics of an enclosed architectural space under anoxic conditions

Author

ZHANG Chuan-zhao, LIU Ying-shu, WANG Hao-yu, WU Yi-min, MA Xiao-jun, and CHEN Fu-xiang

Subjects

anoxic conditions, oxygen enrichment characteristics, oxygen-feeding mode, oxygen-enriched area, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171

Abstract

A set of experimental devices for the measurement of indoor oxygen supply in an enclosed architectural space was built. The devices were used to analyze the effects of the number and diameter of oxygen-feeding ports, oxygen flow rate, and oxygen-feeding mode on the indoor oxygen enrichment characteristics and efficiency of an architectural space. Results show that the distribution of the maximum axial oxygen concentration tends to decline with axial distance under different numbers and diameters of oxygen-feeding ports, oxygen flow rates, and oxygen-feeding modes. Axial oxygen concentration rapidly decreases when the axial distance to the oxygen-feeding port ranges from 0 m to 0.55. In general, the oxygen-enriched region that forms in a single oxygen-feeding port under different pipe diameters and oxygen flow rates presents a flat elliptical shape. The oxygen-enriched area expands under a constant oxygen-feeding pipe diameter and an increasing oxygen flow rate. The oxygen-enriched area that forms in double oxygen-feeding ports, wherein one is positioned vertically forward and the other port is positioned 45° opposite the forward-facing port, has a bifurcated shape with one pointed head and one rounded head. The oxygen-enriched area that forms in the vertical forward-facing port is larger than that in the 45° opposing port. Under back-to-back oxygen feeding, the oxygen-enriched area that forms in double oxygen-feeding ports with the pipe diameter of 6 mm generally exhibits a two-bladed fan shape, whereas that in double oxygen-feeding ports with the pipe diameter of 10 mm appears as two overlapping semicircles. Under the total oxygen delivery flow rate of 1 m3·h-1, the range of oxygen feeding in double oxygen-feeding ports with the pipe diameter of 6 mm and 45° angle is the largest and that in double oxygen-feeding ports with the pipe diameter of 10 mm and vertical forward position is the smallest. Under a constant total oxygen flow rate and oxygen-feeding mode, the oxygen-enriched area that forms in the single oxygen-feeding port in the vertical forward position is 20% larger than that in the double oxygen-feeding ports in the vertical forward position. Under the same number of oxygen-feeding port, oxygen flow rate, and oxygen-feeding mode, the oxygen-enriched area in the oxygen-feeding port with the pipe diameter of 6 mm is approximately 60% larger than that in the oxygen-feeding port with the pipe diameter of 10 mm.

Published

2018

5. Internal flow characteristics of axial flow absorbers

Author

WANG Hao-yu, LIU Ying-shu, WU Yi-min, and ZHENG Xin-gang

Subjects

absorbers, axial flow, flow characteristics, computational fluid dynamics, numerical simulation, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171

Abstract

The internal flow characteristics of axial flow absorbers were numerically studied by the computational fluid dynamics(CFD) method. The influences of three absorber models on the internal flow uniformity were compared: absorber without a flow distributor,absorber with a single flow distributor,and absorber with the combination of a flow distributor and a baffle. The results show that the flow is severely uneven without a flow distributor,is slightly meliorated with a single flow distributor,and is significantly improved with the combination of a flow distributor and a baffle. For the combined configuration,the best flow uniformities are obtained with the pore diameter of 0.003 m as the pore opening ratio remains unchanged and with the pore opening ratio of 0.388 as the pore diameter does not change.

Published

2016

6. Decomposition Kinetics of Omethoate in Blood

Author

LI Peng, WANG Hao-yu, BI Wen-ji,et al.

Subjects

forensic toxicology, liquid chromatography-mass spectrometry, omethoate, blood, Medicine

Abstract

Objective To study the decomposition kinetics of omethoate in blood. Methods The acetonitrile precipitated protein was added into the blood, with the chromatographic column of a Waters BEH C18 column （2.1 mm×50 mm, 1.7 μm）, the mobile phase of 5 mmol/L ammonium acetate aqueous solution-methanol, and the gradient elution with a flow rate of 0.3 mL/min and injection volume of 2 μL. With electrospray ionization （ESI） source and positive ion detection, qualitative and quantitative analyses were taken using multi-reaction monitoring mode. Omethoate standard was added into blank human blood to the mass concentrations of 0.78, 1.40, 2.30, 4.50, and 7.20 μg/mL, and each mass concentration was preserved at 3 temperatures of -20 ℃, 4 ℃, and 20 ℃, respectively. The content of omethoate was detected at different time points （0, 1, 3, 4, 7, 11, 15, 24, 32, 40, 48, 64, 80, 96, and 120 d）. Results Different concentrations of omethoate all showed a descended trend in human blood under different temperature conditions. The decomposition in storage environment of -20 ℃, 4 ℃, and 20 ℃ was fit to a one-compartment open model with a first-order kinetic process, which could be expressed as Ct=Coe-αt, with the calculated theoretical values of omethoate concentration close to the measured values. Conclusion All concentrations of omethoate are decomposed in the blood, which vary a lot in different preservation conditions. It is suggested that blood samples should be frozen and detected timely in suspected omethoate poisoning cases.

Published

2018

7. Effect of casting temperature on the microstructure of as-cast GH625 alloy

Author

WANG Hao-yu, DONG Jian-xin, ZHANG Mai-cang, ZHENG Lei, YAO Zhi-hao, and ZHANG Qing-quan

Subjects

nickel base superalloys, casting, temperature, microstructure, microsegregation, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171

Abstract

The microstructure of as-cast GH625 alloy was investigated on the basis of experimental methods such as Thermo-Calc software,scanning electron microscopy and energy dispersive spectroscopy. The effect of casting temperature on the microstructure was also analyzed by comparing different samples. The microstructure of as-cast GH625 alloy is a dendritic structure and M6C carbides accompanied with δ phase precipitate in the interdendritic area. Both primary dendrite arm spacing(λ1) and second dendrite arm spacing(λ2) increase with the increase of casting temperature; however,the microsegregation is affected by both diffusion distance and diffusion time. The comprehensive interaction of these two factors leads to the greatest microsegregation degree of Nb at 1420℃,which contributes to δ phase precipitation in the interdendritic area. As a result,diffusion distance and diffusion time should be comprehensively considered in making the casting process,so as to choose a proper casting temperature(or cooling rate).

Published

2015

8. Influence of the structure of radial flow adsorbers on oxygen production with pressure swing adsorption

Author

WANG Hao-yu, LIU Ying-shu, SHI Shao-song, and MENG Yu

Subjects

adsorbers, radial flow, oxygen production, pressure swing adsorption, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171

Abstract

A radial flow pressure swing adsorption (PSA) unit with two-tower configuration was designed for oxygen production. The influences of gas flow pattern, outer flow channel width and channel structure on oxygen production were studied by experiment. The result indicates that it is an optimal choice to use centripetal flow in the radial flow adsorber for oxygen production with PSA. Un-der the experimental condition, when the outer flow channel width decreases to 13 mm, the separation of oxygen from nitrogen is the best. A R-shaped channel structure can better improve the utilization efficiency of molecular sieves and oxygen production compared with a Z-shaped channel. This research result provides a foundation for the application and research of a radial flow adsorber in the PSA unit for oxygen production.

Published

2015

9. Effect of the gas distribution system structure of a radial flow adsorber on gas distribution

Author

WANG Hao-yu, LIU Ying-shu, and MENG Yu

Subjects

adsorbers, radial flow, flow distribution, flow pattern, numerical analysis, Mining engineering. Metallurgy, TN1-997, Environmental engineering, TA170-171

Abstract

Uniform gas distribution in a radial flow adsorber plays an essential part in its performance. A 3D hydrodynamic and mathematical model of the radial flow adsorber was developed based on experimental studies. The effects of flow patterns, the cross-section ratio of central channel to outer channel, and the opening ratios of the central channel and the outer channel were comparatively studied by using this model. Radial inward flow was proved to have a better performance than radial outward flow, and the∏ type of inward flow is a little better than that of the Z type of inward flow. The best effect can be obtained when the cross-section ratio of central channel to outer channel is 18.9%. The radial non-uniformity of velocity decreases with the decrease of the opening ratio of the central channel, and the effect of flow distribution is better. But if the opening ratio of the central channel is too low, it will cause uneven local flow distribution and high energy consumption. The opening ratio of the outer channel has a little influence on flow distribution in the radial flow adsorber.

Published

2015