CFD Study of Liquid Sodium inside a Wavy Tube for Laminar Convectors: Effect of Reynolds Number, Wave Pitch, and Wave Amplitude

Mehdi, Syed Murtuza; Akhtar, Maaz; Hussain, Ahmad; Alothmany, Dheya Shuja; Aziz, Shahid

doi:10.1155/2016/6146195

Cited by 5 publications

(2 citation statements)

References 15 publications

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“…To improve the solution precision of the transient flow field, the PISO velocity-pressure coupling algorithm within ANSYS-Fluent 12.0 was used, which could modify pressure twice for the flow field. The finite volume methods were used to discretize the governing equations of the fluid domain [60]. The convective terms of the momentum equation, the turbulent kinetic energy equation, and the turbulent dissipation rate equation were discretized with 2 nd order upwind scheme, while the diffusion terms of the above equations were discretized using 2 nd order central differential scheme since the backward difference yields to unstable solution.…”

Section: Mathematical Problems In Engineeringmentioning

confidence: 99%

Hydraulic Characteristics of Transporting a Piped Carriage in a Horizontal Pipe Based on the Bidirectional Fluid-Structure Interaction

Zhang

Sun

et al. 2018

Mathematical Problems in Engineering

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Energy shortage restricts the rapid development of the global transport industry. Trying to develop innovative modes of transport becomes an inevitable trend. Hydraulic Capsule Pipelines (HCPs) are the freight transportation modes that use a kind of fluid to push capsules filled with bulk solids materials through water-filled pipelines. HCPs not only alleviate everincreasing costs caused by energy scarcities and oil price up, but also solve issues like traffic congestion and environmental pollution. Published literature is mainly limited to numerical simulation of the unidirectional fluid-structure interaction between the capsules and the fluid inside the pipelines; furthermore, the hydraulic characteristics only involve the speed of the capsules and the pressure drop characteristics of the fluid within the pipe. This research was conducted on the following four aspects of HCPs. First, an improved cylindrical capsule called a “piped carriage” was evaluated. Second, an associated solution between the fluid domain within the pipe and the solid domain of the piped carriage was investigated numerically on the basis of the bidirectional fluid-structure interaction methods. Third, the effects of diameter ratio b (ratio of a diameter of the piped carriage De to a pipe diameter Dp, widely ranging in b=0.4~0.95) on hydraulic characteristics of transporting the piped carriage within the pipeline were extensively discussed. Finally, based on Least-Cost Principle, an optimization model of HCPs was effectively built. The results showed that the simulated results were in good agreement with the experimental results, which further indicated that it was feasible for solving the hydraulic characteristics of transporting the piped carriage by using the bidirectional fluid-structure interaction methods. The results will be of great reference value for further research on HCPs and also provide a theoretical foundation for the optimal design of HCPs.

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Section: Mathematical Problems In Engineeringmentioning

confidence: 99%

Hydraulic Characteristics of Transporting a Piped Carriage in a Horizontal Pipe Based on the Bidirectional Fluid-Structure Interaction

Zhang

Sun

et al. 2018

Mathematical Problems in Engineering

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“…Resulting from the difference of pressure of flow inside, the secondary flow was proved to improve the heat transfer efficiency. Since late 20th century, the Computational Fluid Dynamics (CFD) technique has developed quickly [13,14]. Palanichamy and Nagaraj [15] presented a numerical simulation of laminar heat transfer in circular tube flows with internal longitudinal fins using finite difference numerical code.…”

Section: Introductionmentioning

confidence: 99%

Research on the Heating of Deicing Fluid in a New Reshaped Coiled Tube

Wang

Liu

et al. 2017

Mathematical Problems in Engineering

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Aircraft ground deicing operation is significant to ensure civil flight safety in winter. Helically coiled tube is the important heat exchanger in Chinese deicing fluid heating system. In order to improve the deicing efficiency, the research focuses on heat transfer enhancement of deicing fluid in the tube. Based on the field synergy principle, a new reshaped tube (TCHC) is designed by ring-rib convex on the inner wall. Deicing fluid is high viscosity ethylene-glycol-based mixture. Because of the power function relation between high viscosity and temperature, viscosity has a negative influence on heat transfer. The number of ring-ribs and inlet velocity are two key parameters to the heat transfer performance. For both water and ethylene glycol, the outlet temperature rises when the number of ring-ribs increases to a certain limit. However, the increasing of velocity reduces heating time, which results in lower outlet temperature. The heating experiment of the original tube is conducted. The error between experiment and simulation is less than 5%. The outlet temperature of TCHC increases by 3.76%. As a result, TCHC efficiently promotes the coordination of velocity and temperature fields by changing the velocity field. TCHC has enhanced heat transfer of high viscosity deicing fluid.

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Numerical study on thermo-hydraulic characteristics of steam-air mixture condensation in corrugated tubes with different sinusoidal corrugations

Dong,

Sun,

Shen

et al. 2024

International Communications in Heat and Mass Transfer

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CFD Study of Liquid Sodium inside a Wavy Tube for Laminar Convectors: Effect of Reynolds Number, Wave Pitch, and Wave Amplitude

Cited by 5 publications

References 15 publications

Hydraulic Characteristics of Transporting a Piped Carriage in a Horizontal Pipe Based on the Bidirectional Fluid-Structure Interaction

Hydraulic Characteristics of Transporting a Piped Carriage in a Horizontal Pipe Based on the Bidirectional Fluid-Structure Interaction

Research on the Heating of Deicing Fluid in a New Reshaped Coiled Tube

Numerical study on thermo-hydraulic characteristics of steam-air mixture condensation in corrugated tubes with different sinusoidal corrugations

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