Your search keyword '"Yunke Zhong"' showing total 10 results

1. Numerical Investigation on Bubble Growth and Sliding Process of Subcooled Flow Boiling in Narrow Rectangular Channel

Author

De-wen Yuan, Zejun Xiao, Deqi Chen, Yunke Zhong, Xiao Yan, Jianjun Xu, and Yanping Huang

Subjects

Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In order to investigate single bubble evolution, a boiling phase change model in subcooled flow boiling is proposed in this paper, and VOF model combined with phase change model is adopted to simulate the single bubble growth and movement. The effects of flow velocity, liquid subcooling, wall superheat, and vapor-liquid contact angle are considered in this model. The predicted bubble growth curve agrees well with the experimental result. Based on the analysis of bubble shape evolution and temperature field, it is found that the average bubble growth rate, flow velocity, and dynamic contact angle have significant effect on the bubble shape evolution during the bubble growth and movement while the temperature gradient in superheated liquid does not change with bubble growing. The character of dynamic contact angle during bubble growth and movement is also obtained in different working condition.

Published

2016

2. Study on the Reliability of 2K Helium Superfluid System

Author

Xin, Chen, primary, Yunke, Zhong, additional, Fangzheng, Zha, additional, Qiang, Li, additional, and Lijun, Cai, additional

Published

2023

3. Study on Characteristics of the Helium Refrigeration System of HL-2M Tokamak

Author

Jiancheng Tang, Youkun Fu, Yunke Zhong, Lei Yuan, Cai Lijun, Sijia Li, Qiang Li, Jinlong Chen, and Xin Chen

Subjects

Tokamak, Nuclear engineering, chemistry.chemical_element, Liquefaction, Refrigeration, Plasma, Superconducting magnet, Liquid nitrogen, Condensed Matter Physics, Cooling capacity, Electronic, Optical and Magnetic Materials, law.invention, chemistry, law, Electrical and Electronic Engineering, Helium

Abstract

HL-2M, a new generation of tokamak, has been built continuously in 2020 in Southwestern Institute of Physics, China National Nuclear Corporation, and the first plasma discharge was successfully achieved in 12th, Dec. This tokamak experiment device has high design parameters, and its maximum operating current reaches 3 MA. As a satellite device of ITER, it aims to explore and solve the severe physical and engineering problems. Cryogenic system is an auxiliary system of HL-2M, which mainly meets the stable operation of cryopumps and superconducting magnets. The refrigeration capacity under the condition of Liquid Nitrogen Precooling will up to 500W@4.5K, the liquefaction rate is 160L/h. In this report, we present the main characteristic parameters of the refrigeration system. At present, the system has completed the field assembly, and is expected to start commissioning in June 2021.

Published

2021

4. CFD simulation on the flow and heat transfer characteristics of mist flow in wire-wrapped rod bundle

Author

Wenxing Liu, Lian Hu, Haidong Liu, Deqi Chen, Dewen Yuan, and Yunke Zhong

Subjects

Nuclear and High Energy Physics, Materials science, Turbulence, Critical heat flux, 020209 energy, Mechanical Engineering, Flow (psychology), Mist, 02 engineering and technology, Mechanics, 01 natural sciences, Heat capacity, 010305 fluids & plasmas, Physics::Fluid Dynamics, Thermal conductivity, Nuclear Energy and Engineering, Bundle, 0103 physical sciences, Heat transfer, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Safety, Risk, Reliability and Quality, Waste Management and Disposal

Abstract

The heat transfer characteristics of post-CHF (critical heat flux) is very important and complicated, which has aroused wide attention in the topic of nuclear reactor safety. In this paper, a phase change model of liquid droplet during mist flow is proposed to consider the heat transfer of mist flow. Couple with this phase change model, three dimensional CFD simulation has been carried out to study the flow and heat transfer characteristics of mist flow in a wire-wrapped rod bundle. The discussion and analysis focus on the turbulent flow behavior and the heat transfer performance of post-CHF mist flow in the rod bundle. The effect of vapor properties such as density, heat capacity, thermal conductivity and viscosity on heat transfer are considered in the CFD simulation, and those properties are dependent on temperature. According to the CFD simulation result, the pressure distribution, temperature distribution, velocity distribution and phase distribution in the wire-wrapped rod bundle are analyzed in detail.

Published

2019

5. BUBBLE BEHAVIOR AND BUBBLE GROWTH MODEL OF HIGHLY SUBCOOLED FLOW BOILING IN A VERTICAL RECTANGULAR CHANNEL

Author

Jianjun Xu, Deqi Chen, Dewen Yuan, Yunke Zhong, Xiao Yan, and Yanping Huang

Subjects

Fluid Flow and Transfer Processes, Subcooling, Narrow channel, Materials science, Mechanical Engineering, Bubble, Growth model, Mechanics, Flow boiling, Condensed Matter Physics, Communication channel

Published

2018

6. RAMI analysis of the helium refrigeration system of HL-2M tokamak

Author

Youkun Fu, Jinlong Chen, Enpeng Yang, Lei Yuan, Jiancheng Tang, Xin Chen, Qiang Li, Sijia Li, Genliang Zhu, Cai Lijun, and Yunke Zhong

Subjects

Mean time between failures, Tokamak, Computer science, Mechanical Engineering, Nuclear engineering, Maintainability, Refrigeration, chemistry.chemical_element, Requirement document, law.invention, Reliability (semiconductor), Nuclear Energy and Engineering, Criticality, chemistry, law, General Materials Science, Helium, Civil and Structural Engineering

Abstract

The 500 W@4.5 K helium refrigeration system operated in HL-2M Tokamak is the first domestically made cryogenic system independently designed and manufactured in China. It is expected to cool down HL-2M cryousers for the first time around June 2021. In the requirement document of helium refrigeration system, the mean time between failures (MTTF) should be at least 8000 hours, and the inherent availability of the subsystem should be 60%. This paper presents the RAMI (Reliability, Availability, Maintainability and Inspectability) analysis of the failure modes of the HL-2M helium refrigeration system as well as the corresponding effects and criticality to guide the design of the components and the preparation for operation and maintenance. The description of the risk mitigation actions regarding the design, testing, maintenance and operation in order to reach the expected targets of enhancing the reliability and availability of the refrigeration system.

Published

2021

7. CFD simulation on critical heat flux of flow boiling in IVR-ERVC of a nuclear reactor

Author

Hong Gao, Teng Hu, Yunke Zhong, Deqi Chen, and Xiang Zhang

Subjects

Nuclear and High Energy Physics, Engineering, Critical heat flux, business.industry, 020209 energy, Mechanical Engineering, Mechanical engineering, 02 engineering and technology, Mechanics, Nuclear reactor, Computational fluid dynamics, Pressure vessel, law.invention, Nuclear Energy and Engineering, Heat flux, law, Boiling, 0202 electrical engineering, electronic engineering, information engineering, Fluent, General Materials Science, Safety, Risk, Reliability and Quality, business, Waste Management and Disposal, Reactor pressure vessel

Abstract

The effectiveness of in-vessel retention (IVR) by external reactor vessel cooling (ERVC) strongly depends on the critical heat flux (CHF). As long as the local CHF does not exceed the local heat flux, the lower head of the pressure vessel can be cooled sufficiently to prevent from failure. In this paper, a CFD simulation is carried out to investigate the CHF of ERVC. This simulation is performed by a CFD code fluent couple with a boiling model by UDF (User-Defined Function). The experimental CHF of ERVC obtained by State Nuclear Power Technology Research and Development Center (SNPTRD) is used to validate this CFD simulation, and it is found that the simulation result agrees well with the experimental result. Based on the CFD simulation, detailed analysis focusing on the pressure distribution, velocity distribution, void fraction distribution, heating wall temperature distribution are proposed in this paper.

Published

2016

8. Numerical investigation on the characteristics of two-phase flow in fuel assemblies with spacer grid

Author

Y. Xiao, Deqi Chen, Yunke Zhong, Z. Yang, and Lian Hu

Subjects

Nuclear and High Energy Physics, Radiation, Materials science, business.industry, 020209 energy, Flow (psychology), Mixing (process engineering), 02 engineering and technology, Mechanics, Computational fluid dynamics, Secondary flow, Nuclear Energy and Engineering, Dimple, Boiling, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Two-phase flow, Safety, Risk, Reliability and Quality, Adiabatic process, business

Abstract

In pressurized water reactors (PWRs), the spacer grids of the fuel assembly has significant impact on the thermal-hydraulic performance of the fuel assembly. Particularly, the spacer grids with the mixing vanes can dramatically enhance the secondary flow and have significant effect on the void distribution in the fuel assembly. In this paper, the CFD study has been carried out to analyze the effects of the spacer grid with the steel contacts, dimples and mixing vanes on the boiling two-phase flow characteristics, such as the two-phase flow field, the void distribution, and so on. Considered the influence of the boiling phase change on two-phase flow, a boiling model was proposed and applied in the CFD simulation by using the UDF (User Defined Function) method. Furthermore, in order to analyze the effects of the spacer grid with mixing vanes, the adiabatic (without boiling) two-phase flow has also been investigated as comparison with the boiling two-phase flow in the fuel assembly with spacer grids. The CFD simulation on two-phase flow in the fuel assembly with the proposed boiling model can predict the characteristics of two-phase flow better.

Published

2016

9. Thermal–hydraulic performance of a 5 × 5 rod bundle with spacer grid in a nuclear reactor

Author

Qi Lu, Xuemei Lang, Yi Xiao, Shijie Xie, Deqi Chen, Dewen Yuan, Yunke Zhong, and Zile Yang

Subjects

Materials science, genetic structures, business.industry, Turbulence, 020209 energy, Pressurized water reactor, Energy Engineering and Power Technology, 02 engineering and technology, Structural engineering, Mechanics, Secondary flow, 01 natural sciences, Nusselt number, Industrial and Manufacturing Engineering, 010305 fluids & plasmas, law.invention, Thermal hydraulics, law, Dimple, Bundle, 0103 physical sciences, Heat transfer, 0202 electrical engineering, electronic engineering, information engineering, business

Abstract

The turbulent flow behavior and heat transfer performance of the rod bundle with spacer grid have significant effect on the thermal–hydraulic characteristics in Pressurized Water Reactor (PWR). The complex structure of the spacer grid includes dimple, mixing vane and spring. In this paper, different turbulence models are coupled with the Computational Fluid Dynamics (CFD) analysis for the complex flow in rod bundle, and the numerical results are compared with the experimental results with temperature distribution at outlet. This paper focuses on thermal–hydraulic behavior downstream of the spacer grid caused by mixing vane, dimple and spring. Two types of rod bundles are investigated, including with spacer grid and without spacer grid. According to the numerical study, the strong secondary flow induced by the spacer grid gradually decay along the rod bundle after the mixing vane, and this secondary flow has significant effect on the heat transfer. In addition, a normalized Nusselt number (Nu) and swirl factor are defined to investigate the thermal–hydraulic performance of the rod bundle.

Published

2016

10. Numerical Investigation on Bubble Growth and Sliding Process of Subcooled Flow Boiling in Narrow Rectangular Channel

Author

Dewen Yuan, Zejun Xiao, Xiao Yan, Jianjun Xu, Yanping Huang, Deqi Chen, and Yunke Zhong

Subjects

Maximum bubble pressure method, Materials science, Article Subject, 020209 energy, Bubble, Thermodynamics, 02 engineering and technology, Mechanics, 01 natural sciences, 010305 fluids & plasmas, Subcooling, Contact angle, Superheating, Physics::Fluid Dynamics, Nuclear Energy and Engineering, Flow velocity, Boiling, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Volume of fluid method, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:TK1-9971

Abstract

In order to investigate single bubble evolution, a boiling phase change model in subcooled flow boiling is proposed in this paper, and VOF model combined with phase change model is adopted to simulate the single bubble growth and movement. The effects of flow velocity, liquid subcooling, wall superheat, and vapor-liquid contact angle are considered in this model. The predicted bubble growth curve agrees well with the experimental result. Based on the analysis of bubble shape evolution and temperature field, it is found that the average bubble growth rate, flow velocity, and dynamic contact angle have significant effect on the bubble shape evolution during the bubble growth and movement while the temperature gradient in superheated liquid does not change with bubble growing. The character of dynamic contact angle during bubble growth and movement is also obtained in different working condition.

Published

2016