Comparison Of Heat Transfer And Fluid Flow Characteristics Between Submerged And Free Surface Jet Impingement For Two Phase Flow

Comparison of Heat Transfer and Fluid Flow Characteristics Between Submerged and Free Surface Jet Impingement for Two-phase Flow

Author : Victoria J. Rouse

Publisher :

Page : 160 pages

File Size : 18,38 MB

Release : 2018

Category : Mechanical engineering

ISBN :

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Impinging jets have been studied in great depth due to their high rates of heat transfer and wide range of application. Some applications of impinging jets include electronic equipment cooling, metal annealing, furnace heating, and many others. The goal of this research was to understand the effects of the nozzle-to-plate spacing and volumetric quality on the Nusselt number of two-phase, free surface impinging jets and submerged impinging jets. The Nusselt number of two-phase, free surface and submerged impinging jets were obtained at several nozzle-to-plate spacings and the trends of the stagnation pressure and Nusselt number were compared. The Nusselt number of the submerged jet was also compared to that of the free surface jets with the same conditions. The two working fluids of the jet were water and air. The nozzle-to-plate spacing ranged from H/d = 0.03 - 8.5 and the experiment was done at five volumetric qualities. The Nusselt number and stagnation pressure decreased exponentially in both free surface and submerged jets for all volumetric qualities in Region I, the jet deflection region. In Region II, the transition region, the Nusselt number and stagnation pressure of the free surface jet remained constant with some fluctuation. The Nusselt number and stagnation pressure of the submerged jet continued to decrease linearly. In Region III, the free jet region, the Nusselt number and stagnation pressure increased linearly in the free surface jet and decreased linearly in the submerged jet. Comparing the values of the free surface and submerged jet, the submerged jet had a higher Nusselt number for low nozzle-to-plate spacings, and a lower Nusselt number for higher nozzle-to-plate spacings.



Heat Transfer and Fluid Flow Characteristics of Two-phase Jet Impingement at Low Nozzle-to-plate Spacing

Author : Aspen W. Glaspell

Publisher :

Page : 76 pages

File Size : 36,16 MB

Release : 2018

Category :

ISBN :

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This study expands upon the current knowledge of the relationship between the heat transfer and fluid flow characteristics of air-assisted water impingement jets. Fluid flow and heat transfer characteristics of air-assisted water jet impingement were experimentally investigated under a fixed water flow rate condition with varying relative height (H/d). The test fluids were water and air. The effects of nozzle-to-plate spacing at volumetric qualities [beta]=0.3, 0.5, 0.7, and 0.8 where [beta] is the ratio of the volume of air to the total volume of the two-phase mixture on the hydraulic jump diameter, stagnation pressure, and stagnation Nusselt number were considered. The results showed that stagnation Nusselt number, hydraulic jump diameter, and stagnation pressure increased as the relative height decreased and the volumetric quality increased with the maximum values occurring at H/d of 0.02 and a volumetric quality of 0.8. This research is most applicable in the use of cooling of industrial applications such as cooling of electronics and processing of materials.



An Experimental Study of Porous Mediums on Heat Transfer Characteristics Subjected to Water Jet Impingement

Author : William Arthur Bevan

Publisher :

Page : 0 pages

File Size : 15,92 MB

Release : 2022

Category : Fluid dynamics

ISBN :

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Heat transfer enhancement studies were conducted on two main research areas in heat transfer. Those areas are fluid jet impingement and the use of porous mediums. Fluid jet impingement is a common heat transfer application in industry and is widely studied in research due to the high heat and mass transfer they provide. Porous mediums are another common engineering application that is typically found in heat exchangers and heat pipes due to the high heat transfer coefficient they produce. However, not much research stems from the combination of the two applications. By combining these two heat transfer applications, experiments were broken into two categories, non-boiling and boiling. Here, an apparatus was fabricated that allowed for both categories to be studied while allowing an inclination toward experimental plausibility. For the non-boiling experiment, flow rates were chosen that ranged from 4,000 ≤ Rew ≤ 11,000 under both free surface and submerged impinging jets. The goal was to determine the Nusselt number and compare the forced convection effect to the plain surface and porous mediums, i.e., monolayer wick and columnar post wick. Also, the variation in the Nusselt number was determined during lateral nozzle movement. The problems faced in pool boiling are the limited critical heat flux (CHF) and heat transfer coefficient (HTC) caused by the phase change over the heated surface. By employing the monolayer wick and columnar post wick, a decrease in the hydrodynamic instability (Rayleigh-Taylor) wavelength can occur, which provides heat transfer enhancements. To see if further heat transfer enhancements can be obtained, an impinging jet was added to the boiling apparatus with working flow rates of 800 ≤ Rew ≤ 1,700. Results for the non-boiling experiment show that the plain surface outperforms both monolayer wick and columnar post wick. This is due to the flow resistance present in both porous mediums. The rough surface of the monolayer wick saw a drop in the convection effect which was influenced by this flow resistance. The columnar post wick saw a further reduction in the convection effect due to the post's tight pitch distance, lp=1 mm. This was present in both free surface and submerged impinging jets. The boiling results showed a significant increase in CHF enhancements when the monolayer wick and columnar post wick were employed in the pool boiling setup. This is due to the reduced hydrodynamic instability wavelength, which reduced the vapor generation and delayed surface dry-out. CHF enhancements were further increased by employing an impinging jet. With the combination of the reduced hydrodynamic instability wavelength and impinging jet at the highest flow rate, the plain surface, monolayer wick, and columnar post wick saw an increase of 323.1%, 244.3%, and 266.6%, respectively, in CHF measurements when compared to the basic pool-boiling experiment.





Two-Phase Heat Transfer

Author : Mirza Mohammed Shah

Publisher : John Wiley & Sons

Page : 388 pages

File Size : 12,18 MB

Release : 2021-03-04

Category : Science

ISBN : 1119618673

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Book Description

A guide to two-phase heat transfer theory, practice, and applications Designed primarily as a practical resource for design and development engineers, Two-Phase Heat Transfer contains the theories and methods of two-phase heat transfer that are solution oriented. Written in a clear and concise manner, the book includes information on physical phenomena, experimental data, theoretical solutions, and empirical correlations. A very wide range of real-world applications and formulas/correlations for them are presented. The two-phase heat transfer systems covered in the book include boiling, condensation, gas-liquid mixtures, and gas-solid mixtures. The authora noted expert in this fieldalso reviews the numerous applications of two-phase heat transfer such as heat exchangers in refrigeration and air conditioning, conventional and nuclear power generation, solar power plants, aeronautics, chemical processes, petroleum industry, and more. Special attention is given to heat exchangers using mini-channels which are being increasingly used in a variety of applications. This important book: Offers a practical guide to two-phase heat transfer Includes clear guidance for design professionals by identifying the best available predictive techniques Reviews the extensive literature on heat transfer in two-phase systems Presents information to aid in the design and analysis of heat exchangers. Written for students and research, design, and development engineers, Two-Phase Heat Transfer is a comprehensive volume that covers the theory, methods, and applications of two-phase heat transfer.





Thermal Management for Opto-electronics Packaging and Applications

Author : Xiaobing Luo

Publisher : John Wiley & Sons

Page : 373 pages

File Size : 47,69 MB

Release : 2024-08-12

Category : Technology & Engineering

ISBN : 1119179270

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Book Description

Thermal Management for Opto-electronics Packaging and Applications A systematic guide to the theory, applications, and design of thermal management for LED packaging In Thermal Management for Opto-electronics Packaging and Applications, a team of distinguished engineers and researchers deliver an authoritative discussion of the fundamental theory and practical design required for LED product development. Readers will get a solid grounding in thermal management strategies and find up-to-date coverage of heat transfer fundamentals, thermal modeling, and thermal simulation and design. The authors explain cooling technologies and testing techniques that will help the reader evaluate device performance and accelerate the design and manufacturing cycle. In this all-inclusive guide to LED package thermal management, the book provides the latest advances in thermal engineering design and opto-electronic devices and systems. The book also includes: A thorough introduction to thermal conduction and solutions, including discussions of thermal resistance and high thermal conductivity materials Comprehensive explorations of thermal radiation and solutions, including angular- and spectra-regulation radiative cooling Practical discussions of thermally enhanced thermal interfacial materials (TIMs) Complete treatments of hybrid thermal management in downhole devices Perfect for engineers, researchers, and industry professionals in the fields of LED packaging and heat transfer, Thermal Management for Opto-electronics Packaging and Applications will also benefit advanced students focusing on the design of LED product design.







Two-Phase Flows

Author : Shih-i Pai

Publisher : Springer-Verlag

Page : 373 pages

File Size : 18,53 MB

Release : 2013-07-02

Category : Science

ISBN : 3322863484

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Book Description