Your search keyword '"Jinbo Jiang"' showing total 87 results

1. SLC25A19 drives colorectal cancer progression by regulating p53

Author

Jinbo Jiang, Xuemei Li, Jiayong Wang, Shaofei Chen, and Lingjuan Chen

Subjects

apoptosis, colorectal cancer, p53, proliferation, SLC25A19, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Investigating the molecular mechanism of colorectal cancer (CRC), a common lethal malignancies worldwide, is of great clinical significance. Solute carrier family 25 member 19 (SLC25A19) is a member of the solute carrier family that contribute to cellular functions, including tumor biology. Recently, many studies have attention on uncovering the relationship of SLC25A19 with malignant cancers, but its precise involvement in the regulation of CRC has not been thoroughly understood. This study sought to uncover the role and mechanism of SLC25A19 in CRC development. Methods The GEPIA database and immunohistochemical staining were utilized to detect the expression of SLC25A19 in CRC tissues. The functional influences of SLC25A19 on CRC cell phenotypes were evaluated through a series of assays including celigo cell count, colony formation, CCK‐8, flow cytometry, wound healing, and transwell assays following knocking down SLC25A19. Subsequently, the xenograft tumor model was constructed to evaluate the effect of SLC25A19 on tumor growth in vivo. The underlying mechanisms of SLC25A19 silencing were investigated using the human phospho‐kinase array. Results This study demonstrated the upregulation of SLC25A19 in CRC and its significant correlation with unfavorable prognosis in CRC patients. Suppression of SLC25A19 resulted in significant inhibition of cell proliferation, colony formation, and cell migration, alongside a boost in cell apoptosis. In vivo experiments revealed that silenced SLC25A19 displayed reduced growth rates and formed smaller xenografts. Mechanistically, the p53 pathway was found to be upregulated by SLC25A19 knockdown and mediated the function of SLC25A19. Conclusions Consequently, SLC25A19 was identified as a novel molecule with key regulatory ability in CRC development.

Published

2024

2. Influence of Natural Gas Composition and Operating Conditions on the Steady-State Performance of Dry Gas Seals for Pipeline Compressors

Author

Fan Wu, Jinbo Jiang, Xudong Peng, Liming Teng, Xiangkai Meng, and Jiyun Li

Subjects

multi-component, pipeline natural gas, mechanical seal, flowing heat transfer, film thickness, Science

Abstract

A dry gas seal (DGS) is one of the key basic components of natural gas transmission pipeline compressors, and the sealing performance of a DGS dealing with complex multi-component pipeline natural gas is different from that dealing with conventional nitrogen medium. In this paper, a spiral groove DGS of the compressor in natural gas transmission pipeline systems is taken as the research object. The thermal hydrodynamic lubrication model of the DGS is established considering turbulence effect and choking effect. Based on the finite difference method, the temperature and pressure distributions and the steady-state performance of the DGS are obtained by simulating. The influence of unitary impurity compositions such as light hydrocarbon, heavy hydrocarbon, non-hydrocarbon, and their contents on the steady-state performance of the DGS is analyzed. The steady-state performance of the DGS dealing with multi-impurity natural gas such as in the West-East gas transmission is investigated under different operating conditions. The results show that turbulence had a significant effect on the DGS, while choking had a weak effect. Increasing the content of light hydrocarbon such as C2H6 and heavy hydrocarbon such as C5H10 resulted in an increase in the gas film stiffness, leakage rate, and the temperature difference between the inlet and outlet, while non-hydrocarbon, such as N2, reduced the temperature difference between the inlet and outlet. The greatest impact on seal performance was produced by the heavy hydrocarbon, followed by the light hydrocarbon, and the least was produced by the non-hydrocarbon.

Published

2024

3. Laparoscopic surgery contributes to a decrease in short-term complications in surgical ulcerative colitis patients during 2008–2017: a multicenter retrospective study in China

Author

Zerong Cai, Xiaosheng He, Jianfeng Gong, Peng Du, Wenjian Meng, Wei Zhou, Jinbo Jiang, Bin Wu, Weitang Yuan, Qi Xue, Lianwen Yuan, Jinhai Wang, Jiandong Tai, Jie Liang, Weiming Zhu, Ping Lan, and Xiaojian Wu

Subjects

colitis, ulcerative, surgery, complication, laparoscopy, Medicine, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background/Aims The aim of this study was to analyze the chronological changes in postoperative complications in surgical ulcerative colitis patients over the past decade in China and to investigate the potential parameters that contributed to the changes. Methods Ulcerative colitis patients who underwent surgery during 2008–2017 were retrospectively enrolled from 13 hospitals in China. Postoperative complications were compared among different operation years. Risk factors for complications were identified by logistic regression analysis. Results A total of 446 surgical ulcerative colitis patients were analyzed. Fewer short-term complications (24.8% vs. 41.0%, P=0.001) and more laparoscopic surgeries (66.4% vs. 25.0%, P

Published

2023

4. Influence of surface grooving methods on steady and dynamic performance of spiral groove gas face seals

Author

Liming Teng, Jinbo Jiang, Xudong Peng, and Jiyun Li

Subjects

Gas face seal, Spiral groove, Double-sided groove, Load-carrying capacity, Dynamic performance, Engineering (General). Civil engineering (General), TA1-2040

Abstract

In this paper, a structural form called double-sided spiral groove gas face seal is considered. Steady-state performances, such as film load-carrying capacity and film stiffness, of gas face seals with single-sided groove on the stator, single-sided groove on the rotor, and double-sided groove are compared. Introducing axial and angular excitations, coupled with gas lubrication, seal rings vibration, contact mechanics, and instantaneous changes in fluid film thickness, the complete dynamic behavior history is obtained. Two dynamic performance indicators, logarithmic decrement and period valley, are defined. The effects of groove depths and equilibrium film thickness on the dynamic performance of gas face seals with three different surface grooving methods are studied. Combined with the transient sealing performance and film dynamic coefficients, the mechanisms of several typical unstable conditions are analyzed. The results show that the double-sided grooving method has both high gas film load-carrying capacity and gas film stiffness when the equilibrium film thickness is relatively large. In addition, double-sided grooving has both advantages of high gas film damping of single-sided grooving on the stator and high gas film stiffness of single-sided grooving on the rotor, which can ensure stable operation under various operation conditions.

Published

2023

5. Wound microenvironment self-adaptive hydrogel with efficient angiogenesis for promoting diabetic wound healing

Author

Zijian Shao, Tianyu Yin, Jinbo Jiang, Yang He, Tao Xiang, and Shaobing Zhou

Subjects

Wound microenvironment, Self-adaptive hydrogel, MMP-9 responsive, Angiogenesis, Diabetic wound healing, Materials of engineering and construction. Mechanics of materials, TA401-492, Biology (General), QH301-705.5

Abstract

Neovascularization is critical to improve the diabetic microenvironment, deliver abundant nutrients to the wound and promote wound closure. However, the excess of oxidative stress impedes the healing process. Herein, a self-adaptive multifunctional hydrogel with self-healing property and injectability is fabricated through a boronic ester-based reaction between the phenylboronic acid groups of the 3-carboxyl-4-fluorophenylboronic acid -grafted quaternized chitosan and the hydroxyl groups of the polyvinyl alcohol, in which pro-angiogenic drug of desferrioxamine (DFO) is loaded in the form of gelatin microspheres (DFO@G). The boronic ester bonds of the hydrogel can self-adaptively react with hyperglycemic and hydrogen peroxide to alleviate oxidative stress and release DFO@G in the early phase of wound healing. A sustained release of DFO is then realized by responding to overexpressed matrix metalloproteinases. In a full-thickness diabetic wound model, the DFO@G loaded hydrogel accelerates angiogenesis by upregulating expression of hypoxia-inducible factor-1 and angiogenic growth factors, resulting in collagen deposition and rapid wound closure. This multifunctional hydrogel can not only self-adaptively change the microenvironment to a pro-healing state by decreasing oxidative stress, but also respond to matrix metalloproteinases to release DFO. The self-adaptive multifunctional hydrogel has a potential for treating diabetic wounds.

Published

2023

6. The perceived value of local knowledge tourism: dimension identification and scale development

Author

Hailin Zhang, Jinbo Jiang, and Jinsheng (Jason) Zhu

Subjects

local knowledge tourism, perceived value, value dimension, scale development, tourist experiences, Psychology, BF1-990

Abstract

IntroductionLocal knowledge tourism encompasses the rich cultural heritage, historical narratives, and traditional practices of a specific destination. Despite its significance in enhancing the tourist experience, there is a dearth of research examining the subjective perceptions and values of visitors engaging in local knowledge tourism. Consequently, there is a pressing need to explore the composition of perceived tourist values in this unique context.MethodsDue to the exploratory nature of this research, a constructivist grounded theory and content analysis are applied to analyze the data.ResultsThis study identifies and conceptualizes five distinct dimensions of perceived values in local knowledge tourism: functional value, emotional value, social value, cognitive value, and self-actualization value. Furthermore, an 18-item scale is developed to measure these dimensions quantitatively.DiscussionThis research makes several significant contributions: (1) it expands the scope of perceived value research within the tourism domain and enhances our understanding of the tourist experience in local knowledge tourism; (2) it provides a reliable instrument for future quantitative investigations into the behavior and mindset of local knowledge tourists; and (3) it offers theoretical foundations and practical insights for destination managers seeking to develop tourism products tailored to the preferences and expectations of local knowledge tourists.

Published

2023

7. Multi-Field Coupling Numerical Analysis and Experimental Validation of Surface-Textured Metal Seals in Roller Cone Bits

Author

Yi Ma, Ziang Li, Ziyang Yuan, Xiangkai Meng, Xudong Peng, and Jinbo Jiang

Subjects

roller cone bits, metal seals, surface texture, multi-field coupling, hydrodynamic performance, friction and wear, Science

Abstract

Metal seals play a crucial role in ensuring the dependable functioning of the bearing system in roller cone bits. Due to the intricate nature of downhole conditions, the microstructure design of sealing end faces, specifically the surface texture, is rarely used in metal seals. This study focuses on examining the applicability of surface texture technology in metal seals for cone bits to enhance the lubrication characteristics and friction and wear properties of liquid film between end faces. A multi-field coupling model of surface-textured metal seals was established and experimentally verified. The liquid film carrying the capacity and sealing performance of five different shapes of surface-textured end faces (circle, ellipse I (horizontal), ellipse II (vertical), triangle, and chevron) were investigated under varying rotational speeds and environmental pressures. The influences of texture parameters, including depth and area ratio, on the lubrication characteristics and friction reduction effects of surface-textured metal seals were investigated, and the microscopic wear morphology characteristics of the sealing end faces were analyzed. The results show that surface textures can effectively improve the liquid film state and comprehensive performance of metal seals. Specifically, triangle textures significantly enhance the hydrodynamic pressure effect and weaken the abrasive wear and adhesive wear of the end faces. However, when the environmental pressure is p ≥ 30 MPa, the surface textures gradually lose the advantages of dynamic lubrication but can still reduce friction. The proper texture depth and area ratio can achieve zero leakage (obtained theoretically) and minimal friction in metal seals.

Published

2024

8. Deformation Characteristics of Mechanical Seal Face under Alternating Loads

Author

Wenjing Zhao, Simin Zheng, Liming Teng, Jinbo Jiang, Mengjiao Wang, and Xudong Peng

Subjects

mechanical seal, thermal–mechanical coupling, deformation characteristics, alternating load, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Taking the mechanical seal of the submersible as the object, a transient coupled heat transfer model was established, and the deformation of the seal face under stable and alternating conditions was investigated by considering the thermal–mechanical coupling effect. The deformation characteristics of the seal face under two different alternative forms of amplitude and period were analyzed. The morphology and wear characteristics of the seal face were measured and discussed based on the pseudo-real test of the mechanical seal under alternating loads. The results showed that the seal face tended to be squeezed near the inner diameter and a tapered convergent gap appeared at the outer diameter of the seal face under alternating loads. The deformation of the seal face presented obvious alternating transient characteristics under alternating loads, and the deformation under alternating rotational speed was greater than that of alternating medium pressure. The deformation of the seal face increased with the amplitude of the alternating loads, while the period of the alternating loads had little influence on it. The wear mechanism of the seal face under alternating conditions was mainly abrasive wear, and the wear caused by alternating rotational speed is more significant.

Published

2023

9. Influence of Cavitation on the Heat Transfer of High-Speed Mechanical Seal with Textured Side Wall

Author

Minfeng Yu, Xudong Peng, Xiangkai Meng, Jinbo Jiang, and Yi Ma

Subjects

high-speed, two-phase flow, textured side wall, mechanical seals, heat transfer, Science

Abstract

By setting textures on the side walls of a rotor, based on SST k-ω turbulence and the mixture model, the effects of depth-to-diameter ratio, shape, and rotational speed on interface temperature are analyzed. Local Nu number, flow field in textures, and gas distribution are used to verify the conclusion. When rotational speed increases, there are three different stages on the surface: liquid-dominated, mixed two-phase, and gas-dominated. This leads to a big difference in heat transfer on the side wall and causes the temperature on the seal face to increase when cavitation is considered. The distribution of the gas phase is explained through drag reduction, which has a high correlation with the velocity gradient near the surface. For several common shapes, heat transfer enhancement of textures is compared under high speed. The key influencing factor is the depth-to-diameter ratio, which causes flow stratification and reduces heat transfer. Flow stratification leads to different results of maximum temperature on the seal face when cavitation is considered. Results show that at high speed, a deep, circular texture is better when cavitation does not occur, and a shallow triangular texture is recommended when cavitation occurs; a textured side wall can reduce the maximum temperature of the seal face by about 10 °C.

Published

2023

10. Fluid-structure coupling model and output characteristics of a diaphragm-type restrictor

Author

Haonan Cai, Jinbo Jiang, Xiangkai Meng, Yi Ma, Jiyun Li, and Xudong Peng

Subjects

Mechanical engineering and machinery, TJ1-1570

Abstract

The film stiffness of gas-lubricated hydrostatic bearings and seals are considered to be enhanced remarkably by proper design of a diaphragm-type restrictor. A fluid-structure coupling numerical model by coupling iteration of small deflection bending differential equation of circular thin plate and one-dimensional Reynolds equation was established, and the influence of different parameters, including pressure and geometrical parameters, on the flow output characteristics of a diaphragm-type restrictor was investigated numerically and experimentally. The results show that the correctness of established fluid-structure coupling numerical model is verified well by comparing calculated values of diaphragm deformation and output flow characteristics to the measured values. The optimum values of diaphragm thickness is 0.6–0.8 mm and initial throttle clearance is 20–35 μm for stable operation of diaphragm-type restrictor, while the optimum value of back pressure strongly depends on the diaphragm thickness.

Published

2022

11. Study of Dynamic Inductance Gradient of Augmented Electromagnetic Rail Launcher Considering High-Speed Motion of Armature

Author

Rongge Yan, Kang An, Qingxin Yang, and Jinbo Jiang

Subjects

augmented electromagnetic rail launcher, dynamic inductance gradient, velocity skin depth, analytical method, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The rail inductance gradient is an important parameter of the electromagnetic launcher. The calculation of its value is important for the design of the launcher structure and for predicting the motion behavior of the armature. The current research on the inductance gradient analysis method of the electromagnetic rail launcher mostly does not take into account the effects of launcher size and current diffusion. This method cannot describe its dynamic characteristics, and it results in a large error compared with the actual launch. Therefore, the paper first establishes an electromagnetic rail launcher armature motion model to obtain the rail velocity skin depth under a U-shaped armature. Second, an analytical method for calculating the inductance gradient based on the dynamic skin depth of the rail is obtained, which takes into account the launcher size and velocity skin effect. Finally, the experimental results verify the correctness and accuracy of the method to achieve an accurate prediction of armature speed.

Published

2023

12. Modeling and Verification of Electromagnetic-Thermal Coupling for Electromagnetic Track Launch Considering the Dynamic Conductivity

Author

Rongge Yan, Jinbo Jiang, Qingxin Yang, and Kang An

Subjects

electromagnetic track launch, electromagnetic-thermal coupling, armature and track dynamic conductivity, dynamic inductance gradient, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

In order to solve the problems of insufficient precision of the armature velocity and inductance gradient in the process of finite element calculation of the electromagnetic track launcher, an improved dynamic conductivity electromagnetic-thermal coupling model is proposed to make the calculated results closer to the actual working condition. Firstly, the finite element analysis for the electromagnetic-thermal field is carried out. Then, considering the influence of dynamic conductivity on the armature velocity and inductance gradient, an improved dynamic conductivity electromagnetic-thermal coupling model based on finite element analysis is established, whose parameters are identified by the proposed PSO-GA hybrid algorithm. Moreover, the predicted values of armature velocity and inductance gradient are also obtained. Finally, the experimental platform of the electromagnetic track launcher is built to verify the improved model. By comparing the predicted value of the improved model with the experimental test value, it is found that the improved model can further reduce the calculated error from 5.79% to 1.18%, which provides a certain theoretical basis for the full true simulation of the electromagnetic track launch.

Published

2023

13. Effect of Laser Cleaning Parameters on Surface Filth Removal of Porcelain Insulator

Author

Chunhua Fang, Tao Hu, Ziheng Pu, Peng Li, Tian Wu, Jinbo Jiang, Aoqi Sun, and Yao Zhang

Subjects

laser cleaning, porcelain insulator, pulsed laser, fouling, cleaning efficiency, temperature, Applied optics. Photonics, TA1501-1820

Abstract

To study the influence of the laser power, scanning speed, and cleaning water content on the laser cleaning effect and obtain the best cleaning parameters, this paper conducted a simulation analysis of the laser cleaning process and carried out a pulse laser cleaning of porcelain insulators experiment to verify. The results show that the cleaning rate gradually increases as the laser power increases from 20 W to 25 W. As the scanning speed increases from 1000 mm/s to 2500 mm/s, the laser overlapping rate gradually decreases, and the cleaning takes the lead in increasing and then decreasing. The appropriate cleaning water content is conducive to laser cleaning; when the water content is 0.115 g, the cleaning efficiency reaches the highest value of 98.20%. When the laser power is 25 W, and the scanning speed is 2000 mm/s, the cleaning efficiency can reach the highest value of 96.87%. This paper shows that the reasonable choice of cleaning parameters can effectively clean the insulator surface filth and obtain a better surface morphology.

Published

2023

14. Quantitative Comparison of Genesis and Pore Structure Characteristics of Siliceous Minerals in Marine Shale With Different TOC Contents–A Case Study on the Shale of Lower Silurian Longmaxi Formation in Sichuan Basin, Southern China

Author

Kun Zhang, Yan Song, Zhenxue Jiang, Dongsheng Xu, Lintao Li, Xuejiao Yuan, Pei Liu, Fengli Han, Liangyi Tang, Xueying Wang, Liwen Zhang, Jinbo Jiang, Zehao Zheng, and Xuecheng Chen

Subjects

marine shales, quantitative analysis, genesis of siliceous minerals, organic pores, clay mineral pores, connectivity, Science

Abstract

China has abundant shale gas resources with great exploration potential, and stage progress has been made in this aspect. The sedimentary environment and reservoir characteristics are important aspects of the study on shale gas accumulation. Previous studies have mostly been carried out from a “qualitative” perspective, but not from a “quantitative” one. There is a lack of comparative studies on “marine shales with different TOC contents”. This paper takes the marine shale of the first member of the Longmaxi Formation (Long 1 Fm) in southern Sichuan Basin, Southern China, as the research object. The core samples were taken to carry out analyses (mineral composition analysis, TOC content analysis, porosity analysis) and experiments (carbon dioxide and nitrogen adsorption experiments, high-pressure mercury intrusion, FIB-SEM, and FIB-HIM experiments). The element logging data were collected to conduct the quantitative comparison of genesis and pore structure characteristics of siliceous minerals in marine shale with different TOC contents in this area. The conclusions are as follows: first, a formula is used to calculate and determine whether there is excessive silicon; then the Al-Fe-Mn triangle diagram is used to analyze the genesis of excessive silicon, so as to quantitatively analyze the genesis of siliceous minerals in shale: the siliceous minerals of organic shale (1% < TOC 2%) are detrital genesis, and a small part (0–20%) are biogenic. Carbon dioxide and nitrogen adsorption experiments, as well as high-pressure mercury intrusion experiments are adopted to quantitatively characterize the whole-aperture pore structure characteristics. The pore development characteristics of different shale components are analyzed by combing FIB-SEM and FIB-HIM experiments. The organic-bearing shales in the target section of this study area mainly develop clay mineral pores (71%), and are dominated by macro-pores (57.3%) with a low number of pores, irregular-shaped pores, as well as poor storage capacity and connectivity; the organic-rich shales in the target section of this study area mainly develop organic pores (51%), and are dominated by micro-pores (32.1%) and mesopores (54%) that are large in number and elliptical-shaped, with good storage capacity and good connectivity. The results of this study help to improve the understanding of the pore size of marine shales, the origin of siliceous minerals in marine shales, and the pore structure characteristics of marine shales, which are of great theoretical and practical significance for improving the theory of shale gas formation and guiding the selection of shale gas sweet spot.

Published

2022

15. A Dual-Coil Method for Electromagnetic Attraction Forming of Sheet Metals

Author

Qi Xiong, Meng Yang, Xin Liu, Xianqi Song, Li Qiu, Jinbo Jiang, and Kun Yu

Subjects

Electromagnetic forming, optimization, numerical simulation, sheet metal, dual-coil, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Electromagnetic forming is a novel technology in which a coil is used to generate a pulsed Lorentz force for shaping sheet metal pieces. However, the Lorentz force between the coil and the sheet metal is generally repulsive due to the Lenz's Law, which limits the practical application of this technology. To break this bottleneck, a dual-coil method is proposed to generate attractive Lorentz force, which is then used to form sheet metals. The theoretical principle of this method is presented, and an infinite element model is established to simulate the forming effect. The simulation results show that an A1060-O plate with a diameter of 140 mm and thickness of 1 mm can be attractively shaped under this method. The maximum axial displacement of the plate reaches 2.74 mm. Unfortunately, a dent exists in this situation. Further analysis indicates that this dent can be eliminated by increasing the inner and outer diameters of the coils. Further, it is found that when the capacitance value of the long pulse-width discharge circuit is set to 5.6 mF and the initial discharge voltage is set to 10.690 kV, the sheet metal attains the best shape.

Published

2020

16. Construction and Analysis of Two-Dimensional Axisymmetric Model of Electromagnetic Tube Bulging With Field Shaper

Author

Li Qiu, Kui Deng, Ahmed Abu-Siada, Qi Xiong, Ningxuan Yi, Yuwei Fan, Jinpeng Tian, and Jinbo Jiang

Subjects

Electromagnetic forming, field shaper, lightweight alloy, finite element analysis, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Due to the fact that geometrical structure of tube electromagnetic bulging process with field shaper does not conform to the axisymmetric property, three-dimensional (3D) model is usually used to analyze the process which is complicated and time consuming. Therefore, on the basis of understanding the working principle of the field shaper, a two-dimensional (2D) model with current constraint is proposed in this paper to analyze the electromagnetic bulging process of a tube fitted with a field shaper. COMSOL finite element analysis software is used to develop three models for performance analysis and comparison, these are: conventional 3D model and the proposed 2D model with and without current constraint. Simulation results show that the induced eddy current density, magnetic flux density and electromagnetic body density of the two-dimensional model with current constraint are in good agreement with the results of the three-dimensional model. This provides an alternative and effective way to analyze the performance of the tube electromagnetic bulging with field shaper using a simple but yet reliable 2D model.

Published

2020

17. Optimization of the Attractive Electromagnetic Bulging of Small Tubes Based on Non-Uniform Solenoid Coils

Author

Meng Yang, Jiaying Yan, Xianqi Song, Li Qiu, Jinbo Jiang, Kun Yu, Qi Xiong, and Chistear Ahmed Khan

Subjects

Electromagnetic forming, numerical simulation, metal tube, bulging, solenoid coil, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The attractive electromagnetic bulging is a novel technology which has unique advantages in the formation of small tube fittings. To generate the attractive electromagnetic force, a dual-frequency current method has been proposed in the existing research on the attraction bulging of the small tube fittings. This method, however, has a flaw that the tube fittings are subjected to a large repulsion electromagnetic force before the attraction, which will lead to a negligible effect on the final forming results. To solve this problem, a non-uniform solenoid coil structure is proposed in this paper to suppress the repulsion to improve the attraction. On this basis, a finite element model is built to analyze the process of an aluminum tube with an inner diameter of 20 mm and an outer diameter of 22 mm and the thickness of 1 mm. The influences of the coil structure on the magnetic induction intensity B, eddy current density Je and the stress of the coil have been studied. The results show that the expansion of the tube can be improved when the non-uniform solenoid coil is used. The maximum expansion in this dissertation is achieved with a 28 turns non-uniform solenoid, and its expansion uniformity standard deviation is only 0.156. These simulations have a significant outcome to the design of the coils and the application of electromagnetic bulging in small tube fittings.

Published

2020

18. Electromagnetic Force Distribution and Forming Performance in Electromagnetic Forming With Discretely Driven Rings

Author

Li Qiu, Ningxuan Yi, A. Abu-Siada, Jinpeng Tian, Yuwei Fan, Kui Deng, Qi Xiong, and Jinbo Jiang

Subjects

Electromagnetic forming, electromagnetic force distribution, discrete rings, forming performance, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Electromagnetic forming is a method of high-speed metal workpiece forming technology that uses electromagnetic force pulses generated from the interaction of the magnetic flux density and workpiece induced eddy current. The main challenge of this technology is the control of the eddy current and magnetic flux density to perform various forming processes. This paper is aimed at overcoming this challenge by introducing a new electromagnetic sheet forming method based on discretely driven rings. In this method, a set of discrete conducting rings are placed between the driving coil and the metal workpiece to enhance the shaping process of the workpiece. By changing the number and position of the rings, the induced eddy current can be adjusted, and different electromagnetic force distribution profiles can be realized. COMSOL software is used to develop an electromagnetic field-structure coupling model of the proposed electromagnetic forming method. The characteristics of the electromagnetic force distribution and its effect on the workpiece forming process are analyzed. Results show that the electromagnetic force distribution profile can be controlled by adjusting the rings physical parameters such as diameter, material, and position. The proposed method can effectively improve the performance of the conventional electromagnetic forming technology and has the potential for implementation in wide industry applications.

Published

2020

19. Electromagnetic Force Distribution and Forming Performance in Electromagnetic Tube Expansion with Axial Compression

Author

Li Qiu, Kui Deng, Xinsen Yang, Ahmed Abu-Siada, Qi Xiong, Ningxuan Yi, Jinbo Jiang, and Li Xiao

Subjects

Electromagnetic expansion technology, tube wall thinning, axial electromagnetic force, axial compression, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Electromagnetic tube expansion has been given much attention due to its superior cold forming properties. The traditional electromagnetic coil is of single structure, which results in substantial tube wall thinning and mechanical strength reduction. This shortcoming restricts further development of the electromagnetic tube expansion technology in various industrial applications. This paper proposes an axial-radial electromagnetic force bidirectional loading method to increase the axial fluidity of the material and eliminate the wall thinning issue that currently exists in the traditional method. Furthermore, the performances of three proposed structures for the axial compression electromagnetic tube expansion using three-coil, two-coil and one-coil are analyzed and compared. In this context, the electromagnetic force distribution and the wall thinning of the tube during the expansion process are analyzed based on finite element modelling. Results show that with the proposed modified structure of the traditional single coil, the axial electromagnetic force can be substantially increased which results in reducing the tube wall thinning significantly. The proposed technique in this paper paves the way for further development and more industrial applications of the electromagnetic expansion technology.

Published

2020

20. Electromagnetic Force Distribution and Wall Thickness Reduction of Three-Coil Electromagnetic Tube Bulging With Axial Compression

Author

Li Qiu, Wang Zhang, A. Abu-Siada, Qi Xiong, Chenglin Wang, Yao Xiao, Bin Wang, Yantao Li, Jinbo Jiang, and Quanliang Cao

Subjects

Electromagnetic forming, tube bulging, axial electromagnetic force, tube wall thickness, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In the conventional electromagnetic tube expansion, tube wall thickness tends to decrease significantly while the workpiece is expanded. This paper is aimed at introducing a new technique using three-coil electromagnetic tube bulging with axial compression as an innovative solution for this issue. To validate the feasibility of the proposed technique and investigate the electromagnetic force distribution along the workpiece, COMSOL software is used to construct a detailed finite element analysis model for the proposed electromagnetic coupling model. Results show that the ratio of the axial and the radial electromagnetic forces increases linearly with the increase of the height and the outer diameter of the top and bottom coils. Furthermore, the tube deformation profile and the wall thickness are compared with two different coil structures. Comparison analysis reveals that for the same axial to radial electromagnetic forces ratio, the effect of prohibiting the wall thickness reduction using different coil structures is quite similar. The new method is expected to have a good potential in enhancing the tube-forming performance.

Published

2020

21. Study on Angular Free Vibration Stability and Parameters Influence of Dry Gas Seal Based on the Characteristic Equation

Author

Liming Teng, Jinbo Jiang, Xudong Peng, Jiyun Li, and Simin Zheng

Subjects

Physics, QC1-999

Abstract

Based on Laplace transform and Hurwitz stability criterion, the system characteristic equation and algebraic stability criterion of the two degree-of-freedom angular free vibration of dry gas seal are derived. The effects of rotational inertia, stiffness and damping parameters on the angular free vibration stability of dry gas seal are analyzed by using the root locus method and the concept of the closed-loop dominant pole. The results show that the constraint condition of rotational inertia is the most demanding of all stability conditions. Both the angular main damping and main stiffness are not simply the larger the better, but there are preferred values in the interval greater than the stability threshold. The approach of the absolute value of the cross coefficient to zero is beneficial to the suppression of angular free vibration. There is a threshold of rotational inertia, which makes the cross stiffness change from having only the lower limit value to both the upper and lower critical values at the same time.

Published

2022

22. Oxypeucedanin hydrate monoacetate isolated from Angelica dahurica induces apoptosis in Caco-2 colon carcinoma cells through the mediation of PI3K-signalling pathway and inhibition of cancer cell migration

Author

Yu Liu, Tian-Shu Peng, Xiang-Dang Hu, Shuai-Jun Li, Yong-Heng He, Fan Hu, and Jinbo Jiang

Subjects

Angelica dahurica, Apoptosis, Caco-2 colon carcinoma cell, Cancer cell migration, Oxypeucedanin, PI3K-signalling pathway, Therapeutics. Pharmacology, RM1-950

Abstract

The main aim of the present research work was to demonstrate the antitumor and apoptotic activities of oxypeucedanin hydrate monoacetate isolated from Angelica dahurica against Caco-2 colon cancer cells. MTT cell viability assay along with clonogenic assays were used to study the effect of the compound on cell cytotoxicity and the colony forming tendency. Fluorescence microscopy using acridine orange/ethidium bromide was used to study the effects on apoptosis. In vitro wound healing assay and Western blotting were carried out to study effect on cell migration and PI3K-signalling pathway. The results revealed that oxypeucedanin hydrate monoacetate inhibited Caco-2 cell proliferation and decreased the number of cancer colony forming cells. This compound exerted anti-migratory effects in dose- and time-dependent manner. As compared to the untreated control, drug-treated cells showed significant inhibition of cancer cell migration. Oxypeucedanin hydrate monoacetate significantly down-regulated the expression of pAkt and pPI3K in Caco-2 cells.

Published

2016

23. Research on the Efficiency of Line Laser Removal of Tree Barriers on Transmission Lines

Author

Chunhua, Fang, Tao, Hu, Ziheng, Pu, Peng, Li, Tian, Wu, Jinbo, Jiang, Fang, Li, Yilin, Zhang, Dai, Dong, editor, Zhang, Cheng, editor, Fang, Zhi, editor, and Lu, Xinpei, editor

Published

2023

24. Engineering multifunctional bioadhesive powders through dynamic metal-ligand coordination

Author

Junchang Guo, Yue Hou, Liansong Ye, Junnan Chen, Hong Wang, Li Yang, Jinbo Jiang, Qiangqiang Sun, Chaoming Xie, Bing Hu, Jiaxi Cui, and Xu Deng

Subjects

General Chemistry

Published

2022

25. Design and Performance of a Ferrite Transmission Line Sharpener for Trigger Generator Used in FLTD

Author

Jinbo Jiang, Zheng Luo, Yu Cao, Wanchen Cai, Jiadong Wang, and Tingqiang Cheng

Subjects

Nuclear and High Energy Physics, Condensed Matter Physics

Published

2022

26. An Investigation on Phase Transitions in a Supercritical CO2 Dry Gas Seal

Author

Cong Zhang, Jinbo Jiang, Xudong Peng, and Xuan Zhang

Subjects

Mechanics of Materials, Mechanical Engineering, Surfaces and Interfaces, Surfaces, Coatings and Films

Published

2022

27. Numerical analysis of supercritical CO2 dry gas seals with phase transitions

Author

Cong Zhang, Jinbo Jiang, and Xudong Peng

Subjects

General Energy, Mechanical Engineering, Surfaces, Coatings and Films

Abstract

Purpose This paper aims to acquire the phase distribution and sealing performance of supercritical carbon dioxide (SCO2) dry gas seals with phase transitions. Design/methodology/approach The SCO2 spiral groove dry gas seal is taken as the research object. The finite differential method is applied to solve the governing equations. Furthermore, the phase distribution and the sealing performance are obtained. Compared to the ideal gas model, the effect of phase transitions on sealing performance is also explored. Findings Vaporization is likely to occur near the inner radius when SCO2 dry gas seals are operated near the critical point. Whether phase transitions are considered in the model affects the sealing performance seriously. When phase transitions are considered, the sealing performance depends significantly on the working conditions, and unexpected results are produced when inlet conditions approach the critical point. Originality/value The numerical model for SCO2 dry gas seals with phase transitions is established. The phase distribution and the sealing performance of SCO2 dry gas seals are explored.

Published

2022

28. Experimental and theoretical investigations on dry gas seal transient performance and its disparity with steady performance

Author

Yuan Chen, Xudong Peng, Bingqing Wang, Jinbo Jiang, and Jiyun Li

Subjects

Physics::Instrumentation and Detectors, Mechanical Engineering, Surfaces and Interfaces, Surfaces, Coatings and Films

Abstract

Through high-speed dry gas seal test rig, the real-time film thickness and leakage rate of spiral grooved dry gas seal have been monitored under different closing forces which are changed by adjusting spring compression. Under the conditions of different spring pressures and seal face deflection rates, the change rules of transient opening force and leakage rate are obtained by solving the transient-state Reynolds equation based on the measured real-time film thickness. Meanwhile, the steady opening force and leakage rate are figured out by solving the steady-state Reynolds equation using the average value of the real-time film thickness. Results show that the variation trends of calculated results based on steady-state or transient-state theory coincide well with experimental results. But with the influence of nonlinear effect, the average value of transient opening force and leakage rate are larger than steady opening force and leakage rate calculated with the average value of real-time film thickness, and compared with the value of steady leakage rate, the average value of transient leakage rate considered seal face deflection is closer to the experimental monitoring results.

Published

2022

29. A novel leakage behavior characterization model of hole pattern seal and its mechanism analysis

Author

Xuan Zhang, Jinbo Jiang, Xudong Peng, Cong Zhang, and Jiyun Li

Subjects

Mechanical Engineering, Applied Mathematics, Automotive Engineering, General Engineering, Aerospace Engineering, Industrial and Manufacturing Engineering

Published

2022

30. Leakage and rotordynamic characteristics of labyrinth seal and hole-pattern damping seal with special-shaped 3D cavity

Author

Xudong Peng, Zhang Xuan, Jiyun Li, and Jinbo Jiang

Subjects

Unsteady flow, General Energy, Materials science, Computer simulation, Stiffness coefficient, Mechanical Engineering, Frequency ratio, Angular velocity, Mechanics, Labyrinth seal, Surfaces, Coatings and Films, Leakage (electronics), Reference frame

Abstract

Purpose The purpose of this paper is to enhance sealing and rotordynamic performance of hole-pattern damping seal (HPDS) and labyrinth seal (LS) by structural innovation and geometrical optimization of special-shaped hole or annular-groove cavity. Design/methodology/approach The unsteady flow was transformed into steady one using moving reference frame method. The full period numerical models of LS and HPDS were established. The influence of special-shaped hole or annular-groove cavity at axial inclined angle on leakage rate and rotordynamic coefficient of these two seals at different whirl angular speed were investigated. Findings The results show that dynamic characteristics of straight-tooth LS are better than that of slanted-tooth LS. Compared to typical straight-hole damping seal, HPDS with windward oblique-hole when axial inclined angle ranges from 50 to 60° has superiority in both leakage and rotordynamic characteristics by considering smaller cross-coupled stiffness coefficient and whirl frequency ratio, larger direct damping coefficient and effective damping coefficient. Originality/value A novel HPDS with special-shaped three-dimensional hole cavity was proposed to enhance leakage and rotordynamic performance. The optimized geometrical structures of HPDS for excellent sealing and rotordynamic characteristics were obtained. Peer review The peer review history for this article is available at: https://publons.com/publon/10.1108/ILT-07-2020-0262/

Published

2020

31. Leakage Characteristics of a Novel Hole-Pattern Damping Seal With Dovetail-Like Diversion Grooves: Numerical Simulation and Experiment

Author

Jinbo Jiang, Xuan Zhang, Wenjing Zhao, Yi Ma, and Xudong Peng

Subjects

Fuel Technology, Nuclear Energy and Engineering, Mechanical Engineering, Energy Engineering and Power Technology, Aerospace Engineering

Abstract

Reasonable design of the cavity shape of the damping hole effectively reduces the leakage rate of the hole-pattern damping seal (HPDS). A novel HPDS with dovetail-like diversion grooves was proposed, and the geometry outline of the dovetail-like diversion groove was described by using the hyperelliptic curve. Computational fluid dynamics commercial software was used to simulate the three-dimensional flow field of the dovetail-like hole-pattern damping seal (D-HPDS). The leakage characteristics of the damping seals with a typical circular hole, leaf-like hole, and dovetail-like hole were compared numerically and experimentally. The three-velocity zone model of HPDS was proposed to reveal the mechanism of leakage reduction effect of the D-HPDS compared with typical circular hole-pattern damping seal (C-HPDS). The influence of operating parameters and key geometric parameters on leakage characteristics of the D-HPDS was studied. The results show that the leakage rate of the D-HPDS can be reduced significantly in a wide range of operating conditions and seal clearance compared with the typical C-HPDS, and the maximum reduction amplitude of leakage rate reaches up to 25% at a relatively small pressure ratio. The main reasons for the leakage reduction of the D-HPDS can be explained by the fact that the change of outflow direction from the cavity induced by the interaction effect of adjacent cavities, further resulting in the formation of turbulent vortex in the cavity and the low-speed flow zone in the sealing gap. For the design goal of low leakage rate, the inclined angle of the dovetail-like diversion groove is appropriate between 45 deg and 55 deg, the tip extension ratio is appropriate between 0.8 and 0.95.

Published

2022

32. Author response for 'Numerical analysis of supercritical CO2 dry gas seals with phase transitions'

Author

null Cong Zhang, null Jinbo Jiang, and null Xudong Peng

Published

2022

33. A comprehensive multi-objective, multi-parameter and multi-condition optimization of a spiral groove in dry gas seals

Author

Jinbo Jiang, Wenjing Zhao, Jie Jin, Jiyun Li, and Xudong Peng

Subjects

Physics::Instrumentation and Detectors, Mechanical Engineering, Applied Mathematics, Automotive Engineering, General Engineering, Aerospace Engineering, Industrial and Manufacturing Engineering

Abstract

Dry gas seals are widely used in rotating equipment for fluid leakage control and operating efficiency enhancement. Multi-dimensional optimization of geometric parameters of the spiral groove was conducted with considering the comprehensive effect of working conditions, objective functions and the other geometric parameters. Different optimization methods were proposed for solving the multi-dimensional optimization problems. The optimal values of groove width ratio, groove length ratio and spiral angle for the excellent steady performance of spiral grooves under different working conditions were obtained by employing a genetic algorithm and loop iteration optimization method. The performance comparison of two dry gas seals with different geometric parameters was conducted experimentally to verify the effectiveness of numerical results. The results showed that optimal geometric parameters of the spiral groove were significantly influenced by working conditions, objective function and the other geometric parameters. Maximum film stiffness and stiffness-leakage ratio of the spiral groove dry gas seal obtained by genetic algorithm enhanced up to 30% and 45% larger than those obtained by the conventional single factor optimization. The film stiffness and stiffness-leakage ratio were more sensitive to geometric parameters of a spiral groove than that of opening force. The optimization results obtained in this paper provide a theoretical and experimental reference for the design of dry gas seals in different working conditions to meet various sealing performance requirements.

Published

2022

34. The influence and a direct judgement method of the flow state in supercritical CO2 dry gas seal

Author

Xiangkai Meng, Jinbo Jiang, Xudong Peng, Zhang Cong, and Jiyun Li

Subjects

Turbulence, Mechanical Engineering, Applied Mathematics, Dry gas, Flow (psychology), General Engineering, Aerospace Engineering, Laminar flow, Mechanics, Brayton cycle, Industrial and Manufacturing Engineering, Supercritical fluid, Physics::Fluid Dynamics, Dry gas seal, chemistry.chemical_compound, chemistry, Automotive Engineering, Environmental science, Gas compressor

Abstract

The supercritical carbon dioxide (SCO2) Brayton cycle system is an energy conversion system with great potential, and its efficiency can be improved significantly by using low-leakage dry gas seals in SCO2 compressors and gas turbines. However, the high-pressure and high-speed conditions of a SCO2 dry gas seal make the impact of turbulence not negligible. In this paper, the influences of flow state on flow field distribution and sealing performance of a SCO2 dry gas seal are studied, the criteria for determining the overall flow state into the sealing gap are proposed. Explicit expressions of the flow factor for flow state determination are obtained based on the artificial neural network algorithm. The results show that turbulent flow is easy to occur in a SCO2 dry gas seal, leading to a remarkable error in predicting sealing performance using a laminar flow model. When employing a laminar flow model, there is a large error on opening force in the transition regions between turbulent and transitional flows, and a large error on leakage rate at high inlet pressure and close to the critical temperature compared to those obtained by using a turbulent flow model. In addition, the flow state judgment method proposed in this paper can accurately determine the overall flow state of a SCO2 dry gas seal under different operating conditions.

Published

2021

35. Natural light field compressive imaging

Author

Cheng, Zhang, primary, JinBo, Jiang, additional, and JinBing, Zhu, additional

Published

2021

36. Thermo-elasto-hydrodynamic analysis of triangular textured mechanical face seals

Author

Xudong Peng, Yuming Wang, Yang Xiao, Jinbo Jiang, and Xiangkai Meng

Subjects

Piston pump, Materials science, General Engineering, 02 engineering and technology, Mechanics, 021001 nanoscience & nanotechnology, Finite element method, 020303 mechanical engineering & transports, 0203 mechanical engineering, Dimple, Cavitation, Isosceles triangle, Lubrication, Surface roughness, Boundary value problem, 0210 nano-technology

Abstract

A 3D thermo-elasto-hydrodynamic (TEHD) model is presented to study the effects of triangular dimples on the loadcarrying capacity, leakage and friction of a mechanical seal operated under mixed or full film lubrication conditions. The model is solved by the finite element method (FEM), which takes into account the effects of the Jakobsson-Floberg-Olsson (JFO) cavitation boundary condition, surface roughness, elastic-plastic contact, thermo-elastic deformation, and the temperature-viscosity relation. The numerical results of the TEHD model are quite different from those of the hydrodynamic (HD) and thermo-hydrodynamic (THD) models, especially at high speeds. In order to obtain the optimum shape and distribution of the triangular dimples, a comparative study is conducted to investigate different distributions of equilateral triangles and isosceles right triangles. The results show that a surface textured mechanical seal with isosceles right triangular dimples has the most significant hydrodynamic and pumping effects which, in turn, are beneficial to sealing face opening behavior and leakage limitation. The theoretical results are in good agreement with the experimental ones, and offer new guidance for the future design and development of high-speed mechanical seals for aviation piston pumps.

Published

2019

37. Enhancing Film Stiffness of Spiral Groove Dry Gas Seal via Shape Modification at Low Speed: Numerical Results and Experiment

Author

Zhao Wenjing, Jiyun Li, Xudong Peng, Yuan Chen, Jinbo Jiang, and Cong Zong

Subjects

Materials science, Mechanical Engineering, Stiffness, 02 engineering and technology, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Surfaces, Coatings and Films, Dry gas seal, 020303 mechanical engineering & transports, 0203 mechanical engineering, Low speed, Mechanics of Materials, medicine, medicine.symptom, Composite material, 0210 nano-technology, Geometric modeling, Groove (engineering), Astrophysics::Galaxy Astrophysics, Spiral

Abstract

The film stiffness of dry gas seal must be sufficient to keep gas film stable at high and low speed. A generalized geometric model based on triangles is proposed to characterize spiral grooves. A m...

Published

2019

38. Are different types of interfirm linkages conducive to different types of tourism innovation?

Author

Allan M. Williams, Jinwen(Jimmy) Tang, Jinbo Jiang, and Teemu Makkonen

Subjects

Pearl river delta, Product innovation, 05 social sciences, Geography, Planning and Development, Transportation, Focus group, Information processing theory, Tourism, Leisure and Hospitality Management, 0502 economics and business, 050211 marketing, Product (category theory), Business, Process innovation, 050212 sport, leisure & tourism, Industrial organization, Tourism, Nature and Landscape Conservation

Abstract

Few studies have researched how the linkages of tourist firms are related to the types of tourism innovation. Therefore, an organizational information processing theory perspective, a case study approach, and a focus group method were adopted in the Pearl River Delta area (China) to discover how different types of firm linkages influence tourism innovation. The findings reveal that tourist firms have four main forms of linkages and that they have differentiated impacts on innovations. Intracompany linkages are beneficial for institutional, managerial, and product innovations; both intercompany and intrasectoral linkages encourage marketing and product innovations, whereas intersectoral linkages facilitate process innovation and product innovation. These findings fill a research gap in the knowledge of firm‐based innovative linkages and explore the importance of linkages between tourism services and tourism manufacturing.

Published

2019

39. Analysis of stability of two-phase flow mechanical seal with spiral groove under high speeds

Author

Zhao Wenjing, Jin Jie, Xudong Peng, Xiangkai Meng, and Jinbo Jiang

Subjects

0209 industrial biotechnology, Materials science, Mechanical Engineering, Applied Mathematics, General Engineering, Aerospace Engineering, Film temperature, 02 engineering and technology, Mechanics, Instability, Seal (mechanical), Industrial and Manufacturing Engineering, Reynolds equation, 020901 industrial engineering & automation, Phase (matter), Automotive Engineering, Two-phase flow, Groove (engineering), Spiral

Abstract

A thermo-hydrodynamic model was introduced by considering fluid film phase change to analyze the stability of a spiral groove mechanical seal under high speeds. The Reynolds equation, energy equation and heat conduction equation were solved using the finite difference method. Two kinds of phase state stability criteria and fluid film temperature or pressure distributions in each phase state were studied. Different phase states of fluid film and phase state stability of such a spiral groove mechanical seal under variable operating and geometry conditions were analyzed. The results show that vapor mass fraction volume ratio vs sealed fluid temperature (κ-Tf) curve and film pressure coefficient versus sealed fluid temperature (Km-Tf) curve can be used as phase state stability criteria which can predict the range of instability, stability and quasi-stability of a spiral groove mechanical seal. But the Km-Tf curve is more suitable for practical engineering applications. It is found that a significant change in pressure distribution will bring about instability of a spiral groove mechanical seal. The sudden change of film pressure distribution usually occurs when the leakage flow medium in the interface is in the transition phase from quasi-liquid to quasi-vapor where κλ=0 = κ0

Published

2021

40. Topology optimization of liquid lubricating zero-leakage mechanical face seals

Author

Xiangkai Meng, Zhirong Tu, Yi Ma, Jinbo Jiang, and Xudong Peng

Subjects

Mechanics of Materials, Mechanical Engineering, Surfaces and Interfaces, Surfaces, Coatings and Films

Published

2022

41. Study on Spatio-Temporal Distribution and Evolution of Tourism Innovation Ability in China’s Provinces

Author

Yi Guo, Min Zhang, and Jinbo Jiang

Subjects

Product creation, business.industry, Distribution (economics), Economic geography, business, Investment (macroeconomics), China, Tourism

Abstract

The paper analyses the regional tourism innovation ability in China which highly affects the new tourism product creation. According to the paper, regional tourism innovation ability refers to the ability of a specific region to create new tourism products. Based on the tourism innovation ability data of 31 provinces in China from 2000 to 2016, the paper studies the spatial and temporal pattern and evolution characteristics of China’s tourism innovation ability. The reasons of forming such spatial and temporal pattern are also identified in the paper. Stable and continuous policy for tourism innovation, increased investment and improved innovation environment in the past decade in many regions are among those reasons. The paper also finds out an expanded gap in tourism innovation between coastal and inland regions, and suggests paying more attention to the coordinated development of regions in the future.

Published

2020

42. Experimental and theoretical studies of the dynamic behavior of a spiral-groove dry gas seal at high-speeds

Author

Jiyun Li, Jinbo Jiang, Yuan Chen, Xudong Peng, and Xiangkai Meng

Subjects

Materials science, Mechanical Engineering, 02 engineering and technology, Surfaces and Interfaces, Mechanics, 021001 nanoscience & nanotechnology, Seal (mechanical), Surfaces, Coatings and Films, law.invention, Rubbing, Dry gas seal, 020303 mechanical engineering & transports, 0203 mechanical engineering, Mechanics of Materials, law, Spring (device), Helicopter rotor, 0210 nano-technology, Spiral, Groove (music), Leakage (electronics)

Abstract

Because of great axial vibration of the rotor system, dry gas seal has a big film thickness disturbance, which may cause contact rubbing of seal faces or excessive leakage. Focusing on this problem, experimental studies on transient-state film thickness and leakage rate of a spiral groove dry gas seal at high-speeds are carried out under different spring pressures and different spiral groove depths. And the experimental results of film thickness disturbance and average leakage rate are predicted by perturbation method and gas lubrication theory. Results show that the theoretical results of variation trends of film thickness disturbance amplitudes coincide well with the experimental data, and it also represents that the perturbation method is an effective forecasting method in dynamic analysis.

Published

2018

43. Tourism, Aviation and Hospitality Development During the COVID-19 Pandemic

Author

Yuhua Luo, Hongmei Zhang, Jinbo Jiang, Doubou Bi, Yujing Chu, Yuhua Luo, Hongmei Zhang, Jinbo Jiang, Doubou Bi, and Yujing Chu

Subjects

Tourism--China--Congresses, Tourism--Spain--Congresses, COVID-19 Pandemic, 2020---Economic aspects--Congresses, Management, Public health

Abstract

This book provides a snapshot of the COVID-19 pandemic situation from the perspective of the tourism, aviation and hospitality industries. The book analyzes the challenges and possible strategies for recovery to meet the urgent needs of the industry to deal with this catastrophic health crisis. A good part of the book discusses the negative effect of the pandemic to these industrial sectors and the strategies to reduce it. The book also explores other aspects of the tourism and hospitality development as the base for recovery such as applying more flexible business models, understanding the resident's perception and emotion experience, strengthening the human resource management, and improving the destination image for marketing, etc. Some long-term issues are also discussed such as management education and environment protection education. The book is highly recommended for tourism and aviation researchers, policy makers, industry practitioners, and graduate students. This book is a collection of selected papers from the 10th International Conference on Tourism and Hospitality between China and Spain (www.china-spain.org).

Published

2022

44. Insulation structure design of the UV-preionization gas switch

Author

Jinbo Jiang, Jun Liu, Yuansheng Li, Mengbing He, and Zhaozhao Peng

Subjects

010302 applied physics, Chemistry, business.industry, Electrical engineering, Insulator (electricity), Dielectric, Mechanics, 01 natural sciences, 010305 fluids & plasmas, law.invention, law, Electric field, 0103 physical sciences, Surface roughness, Empirical formula, Breakdown voltage, Electrical and Electronic Engineering, Transformer, business, Voltage

Abstract

The insulation structure of the UV-preionization gas switch for LTDs (Linear Transformer Drivers) has been designed in this study. The surface discharge along the gas switch chamber surface problem has been studied to ensure the gas switch can be charged to 200 kV DC. Meanwhile, the structure of the gas switch ought to be designed compact, in order to lower the overall inductance of the UV-preionization gas switch for LTD. It has been found that surface discharge is most likely to occur at the connection part of the solid dielectric, the electrodes and the air according to the electric field intensity simulation by a two-dimensional electrostatic solver. Polycarbonate (PC) has been selected as the insulator for the gas switch by analyzing the electric field distortion extent and the machinery strength of the various kinds of insulators. A surface discharge experiment has been designed. The experiment measures the surface discharge voltage in various distinct conditions of the surface roughness, the surface discharge distance and the gas pressure etc. In analogy to the air breakdown voltage empirical formula (U=f(pd)), we fitted the surface discharge voltage formula for the product of surface discharge distance and the gas pressure. The chamber surface has been grooved since the surface discharge distance has to be lengthened. It has been found that the measure of raising the grooving width is more effective than the measure of raising the grooving length in preventing the surface discharge when comparing the experimental results of these two different grooving methods.

Published

2016

45. A Sustainable Tourism Policy Research Review

Author

Shengchao Li, Yi Guo, and Jinbo Jiang

Subjects

Process (engineering), Geography, Planning and Development, TJ807-830, 010501 environmental sciences, Management, Monitoring, Policy and Law, co-citation network analysis, TD194-195, Climate policy, 01 natural sciences, Renewable energy sources, systematic review, 0502 economics and business, GE1-350, Environmental planning, Effective response, Sustainable tourism, 0105 earth and related environmental sciences, Research review, Sustainable development, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Corporate governance, 05 social sciences, Environmental sciences, tourism, sustainable tourism policy, Business, 050212 sport, leisure & tourism, Tourism

Abstract

After nearly three decades of development, sustainable tourism has been widely recognized in tourism policy practice and tourism research. In recent years, scholars have paid more and more attention to the topic of sustainable tourism policy research. The purpose of this paper is to analyze its development process and extract its research subject framework for reference in future research. This paper uses the systematic review method and the literature co-citation network analysis to classify the theme of sustainable tourism policy research into six categories, including: Sustainable tourism policy stakeholders, sustainable tourism policy implementation, sustainable tourism and climate policy, sustainable tourism indicators and planning, sustainable concepts in tourism policy, and the role of sustainable tourism policy. The development and implementation of sustainable tourism policies are an effective response to global environmental and sustainable development challenges. However, the current sustainable tourism policy is often economic-growth oriented, which has theoretical differences with sustainable development. At the same time, the research focus of scholars is on the impact of policies on the sustainable development of tourism, while the research on the formation process of policies and governance behaviors in the sustainable development of tourism is not enough.

Published

2019

46. Leakage reduction by optimization of hole-pattern damping seal with inclined hole cavity

Author

Zhang Xuan, Jinbo Jiang, Xudong Peng, Jiyun Li, and Zhao Wenjing

Subjects

Fluid Flow and Transfer Processes, Materials science, Field (physics), Physics::Instrumentation and Detectors, Turbulence, Astrophysics::High Energy Astrophysical Phenomena, Mechanical Engineering, Physics::Medical Physics, 02 engineering and technology, Mechanics, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Labyrinth seal, 01 natural sciences, Seal (mechanical), Computer Science::Other, 010305 fluids & plasmas, Mechanism (engineering), General Relativity and Quantum Cosmology, 0103 physical sciences, Vector field, 0210 nano-technology, Reduction (mathematics), Leakage (electronics)

Abstract

The hole-pattern damping seal (HPDS) is one of the most typical sealing solutions used in gas turbines. Structural innovation and geometrical optimization of hole cavity shape of hole-pattern damping seal are effective ways to reduce leakage rate during operation. A novel hole-pattern damping seal with inclined holes, the central axis of which at an angle with the axis of a rotating shaft, is proposed by introducing a parameter of axial inclined angle. The 3D flow field and pressure distribution of hole-pattern damping seal with different hole cavity geometries were simulated with RNG k-e turbulent model utilizing Fluent software. The leakage characteristics of hole-pattern damping seal and labyrinth seal (LS) with a straight or inclined hole cavity were compared numerically and experimentally. A velocity field with three-speed zones was proposed to reveal the leakage reduction mechanism for windward inclined hole-pattern damping seal. The influence of operation condition and key geometrical parameters on the leakage rate of windward inclined hole-pattern damping seal were investigated. The results show that the leakage rate of windward inclined hole-pattern damping seal is expected to be reduced remarkably compared to that of both straight hole-pattern damping seal and slanted-tooth labyrinth seal, the maximum leakage reduction ratio of which reaches up to 25%. The low-speed zone formed adjacent to both sides of the hole cavity outlet and the fully developed turbulent vortex inside the cavity are the main reasons contribute to leakage reduction of windward inclined hole-pattern damping seal. Moreover, the leakage reduction capability of windward inclined hole-pattern damping seal depends greatly on the proper match of parameter values such as seal clearance, hole diameter and axial inclined angle. The hole with a larger diameter is suitable for the larger seal clearance condition, while the hole with a smaller diameter is suitable for the smaller seal clearance condition.

Published

2021

47. Tourism Product Development in China, Asian and European Countries

Author

Yuhua Luo, Jinbo Jiang, Doudou Bi, Yuhua Luo, Jinbo Jiang, and Doudou Bi

Subjects

Cultural geography, Economic geography, Tourism, Religion

Abstract

This book analyzes a broad variety of tourism products in China, Asia and Europe that employ both cutting-edge IT technologies and advanced methodologies. These products are cultural tourism, recreational tourism, sport tourism, adventure tourism, medical tourism and more. Authors from different areas contributed to the book, including academic researchers, graduate students, government administrators and industry practitioners. The book covers the entire chain of tourism product business processes: product development and improvement, tourist behavior analysis, marketing and sales, customer service, etc. In addition, it addresses related issues such as tourism sustainability, policymaking, environmental protection and human resource development. Big data processing, data mining, visual content analysis and textural content analysis, semantic nets and sentiment analysis are among the cutting-edge technological tools used to study tourism product development here. The book gathers selected papers from the 9th International Conference on Tourism and Hospitality between China and Spain (www.china-spain.org) with participants from 18 countries. Though the book is mainly intended for researchers and policymakers, it will also appeal to a wider audience, due to its first-hand content, insightful analysis and broad geographic coverage.

Published

2020

48. Community Participation and Residents’ Support for Tourism Development in Ancient Villages: The Mediating Role of Perceptions of Conflicts in the Tourism Community

Author

Yi Guo, Songjun Xu, Jinbo Jiang, and Mingsen Wang

Subjects

Economic growth, media_common.quotation_subject, Community participation, lcsh:TJ807-830, Geography, Planning and Development, lcsh:Renewable energy sources, Management, Monitoring, Policy and Law, Indigenous, perceptions of conflicts in the tourism community, Perception, Political science, 0502 economics and business, residents’ support for tourism development, China, Practical implications, lcsh:Environmental sciences, media_common, lcsh:GE1-350, Sustainable development, sustainable development, Renewable Energy, Sustainability and the Environment, lcsh:Environmental effects of industries and plants, 05 social sciences, Perspective (graphical), Building and Construction, lcsh:TD194-195, 050211 marketing, community participation, Whampoa Ancient Village, 050212 sport, leisure & tourism, Tourism

Abstract

As increasing numbers of tourists have begun to visit ancient villages, conflicts between tourism development and residents have become one of the main challenges to the sustainable development of the tourism community. This research explores the relationship between community participation and residents’ support for tourism development in an ancient village. This study surveyed 249 indigenous residents living in Whampoa Village, Guangzhou, China. The findings show that community participation in tourism development has a positive influence on residents’ support for tourism development, and this relationship is mediated by the perceptions of conflicts in the tourism community. This study contributes a new theoretical perspective and practical implications for the sustainable development of ancient villages.

Published

2021

49. Gas film disturbance characteristics analysis of high-speed and high-pressure dry gas seal

Author

Xu-dong Peng, Jinbo Jiang, and Yuan Chen

Subjects

Materials science, Disturbance (geology), business.industry, Rotor (electric), Stator, Mechanical Engineering, Centrifugal compressor, 02 engineering and technology, Mechanics, Structural engineering, 021001 nanoscience & nanotechnology, Seal (mechanical), Industrial and Manufacturing Engineering, law.invention, Vibration, Dry gas seal, 020303 mechanical engineering & transports, 0203 mechanical engineering, law, 0210 nano-technology, business, Groove (music)

Abstract

The dry gas seal(DGS) has been widely used in high parameters centrifugal compressor, but the intense vibrations of shafting, especially in high-speed condition, usually result in DGS’s failure. So the DGS’s ability of resisting outside interference has become a determining factor of the further development of centrifugal compressor. However, the systematic researches of which about gas film disturbance characteristics of high parameters DGS are very little. In order to study gas film disturbance characteristics of high-speed and high-pressure spiral groove dry gas seal(S-DGS) with a flexibly mounted stator, rotor axial runout and misalignment are taken into consideration, and the finite difference method and analytical method are used to analyze the influence of gas film thickness disturbance on sealing performance parameters, what’s more, the effects of many key factors on gas film thickness disturbance are systematically investigated. The results show that, when sealed pressure is 10.1MPa and seal face average linear velocity is 107.3 m/s, gas film thickness disturbance has a significant effect on leakage rate, but has relatively litter effect on open force; Excessively large excitation amplitude or excessively high excitation frequency can lead to severe gas film thickness disturbance; And it is beneficial to assure a smaller gas film thickness disturbance when the stator material density is between 3.1 g/cm3 to 8.4 g/cm3; Ensuring sealing performance while minimizing support axial stiffness and support axial damping can help to improve dynamic tracking property of dry gas seal. The proposed research provides the instruction to optimize dynamic tracking property of the DGS.

Published

2016

50. Oxypeucedanin hydrate monoacetate isolated from Angelica dahurica induces apoptosis in Caco-2 colon carcinoma cells through the mediation of PI3K-signalling pathway and inhibition of cancer cell migration

Author

Tian-Shu Peng, Yong-Heng He, Shuai-Jun Li, Xiang-Dang Hu, Fan Hu, Yu Liu, and Jinbo Jiang

Subjects

Apoptosis, Biology, 01 natural sciences, chemistry.chemical_compound, Angelica dahurica, Caco-2 colon carcinoma cell, Cancer cell migration, Oxypeucedanin, PI3K-signalling pathway, Viability assay, Clonogenic assay, Pharmacology, 010405 organic chemistry, Cell growth, Acridine orange, lcsh:RM1-950, Cell migration, biology.organism_classification, Molecular biology, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, lcsh:Therapeutics. Pharmacology, chemistry, Biochemistry, Caco-2

Abstract

The main aim of the present research work was to demonstrate the antitumor and apoptotic activities of oxypeucedanin hydrate monoacetate isolated from Angelica dahurica against Caco-2 colon cancer cells. MTT cell viability assay along with clonogenic assays were used to study the effect of the compound on cell cytotoxicity and the colony forming tendency. Fluorescence microscopy using acridine orange/ethidium bromide was used to study the effects on apoptosis. In vitro wound healing assay and Western blotting were carried out to study effect on cell migration and PI3K-signalling pathway. The results revealed that oxypeucedanin hydrate monoacetate inhibited Caco-2 cell proliferation and decreased the number of cancer colony forming cells. This compound exerted anti-migratory effects in dose- and time-dependent manner. As compared to the untreated control, drug-treated cells showed significant inhibition of cancer cell migration. Oxypeucedanin hydrate monoacetate significantly down-regulated the expression of pAkt and pPI3K in Caco-2 cells.

Published

2016