Thermo-Fluidic Modelling of a Heat Exchanger Tube with Conical Shaped Insert having Protrusion and Dimple Roughness

Singh, Bhanu Pratap; Bisht, Vijay Singh; Bhandari, Prabhakar; Rawat, Kuldeep

doi:10.34306/att.v3i2.200

Cited by 13 publications

(5 citation statements)

References 15 publications

(20 reference statements)

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“…The fluid phenomenon in artificially roughened rectangular solar air heater ducts is solved by using steady-state two-dimensional continuity equation, time-independent incompressible Navier-Stokes equations and the energy equation [5,17]. These equations can be written in the Cartesian tensor system as follows: Equations of continuity:…”

Section: Governing Equationsmentioning

confidence: 99%

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Effect of D-shaped, reverse D-shaped and U-shaped turbulators in solar air heater on thermo-hydraulic performance

2023

Archives of Thermodynamics

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Section: Governing Equationsmentioning

confidence: 99%

“…However, artificial roughness, such as baffles and ribs, twisted tapes, dimples, etc. can be used to overcome this problem [5][6][7][8]. This roughness causes turbulence inside the air duct, which causes the laminar sublayer to break down, increasing the heat transfer coefficient.…”

Section: Introductionmentioning

confidence: 99%

Effect of D-shaped, reverse D-shaped and U-shaped turbulators in solar air heater on thermo-hydraulic performance

2023

Archives of Thermodynamics

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“…The literature reveals a scarcity of studies exploring this intricate relationship, especially within the context of organizational change among lecturers in private universities in Indonesia. As change introduces new challenges and ways of working, the concept of psychological capital (PsyCap) emerges as a key factor in shaping attitudes and behaviors [8], [9]. PsyCap, reflecting an individual's positive psychological state [10], supports a positive response to change, framing it as a challenge for personal growth and strength [11], [12].…”

Section: Introductionmentioning

confidence: 99%

Reinforcing Lecturer Readiness to Change by Increasing Psychological Capital and Engagement

Meria,

Yohana,

Purwohedi

et al. 2023

ATT

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Organizational change demands effective management, with the preparedness of human resources playing a pivotal role in achieving success. This study explores the interplay of psychological capital, work engagement, and entrepreneurial mindsets (both intrapreneurial and entrepreneurial) as predictors of lecturers' readiness for change. Conducted with 331 lecturers from private universities in Indonesia (Esa Unggul, Jakarta state university and Muhammadiyah Pringsewu, the research employs Structural Equation Modeling with Partial Least Squares (SEM PLS) for data analysis. The findings underscore the substantial influence of psychological capital and work engagement in enhancing lecturer readiness for change. Additionally, work engagement emerges as a critical mediator in the relationship between psychological capital and readiness for change. Notably, the study contributes to our understanding by delving into both intrapreneurial and entrepreneurial dimensions of entrepreneurial mindsets, offering a nuanced perspective on the factors shaping educator readiness for change. The research contributes theoretically by shedding light on the multifaceted roles of entrepreneurial mindsets in strengthening readiness for change, addressing a gap in the existing literature. Practical insights advocate for the cultivation of diverse entrepreneurial mindsets among educators to successfully navigate organizational change. This study establishes a foundation for future research in this evolving domain, emphasizing the significance of entrepreneurial approaches in preparing lecturers for the challenges posed by organizational change.

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“…They observe augmented thermal performance for low volume concentration of CNT/water nanofluid. Recently, Singh et al [16,17] has proposed dimple and protrusion in conical insert inside of heat exchanger for enhancing the performance. Kore et al [18] performs numerical study on rectangular channel having variable dimple depth and pointed out that with increase in dimple depth, heat transfer rate firstly increases and then after certain dimple depth it decreases.…”

Section: Introductionmentioning

confidence: 99%

Numerical study of car radiator using dimple roughness and nanofluid

2023

Archives of Thermodynamics

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Thermal augmentation in flat tube of car radiator using different nanofluids has been performed more often, but use of artificial roughness has been seldom done. Artificial roughness in the form of dimple is used in the present research work. Present study shows the impact of dimple shaped roughness and nanofluid (Al2O3/pure water) on the performance of car radiator. The pitch of dimples is kept at 15 mm (constant) for all the studies performed. The Reynolds number of the flow is selected in the turbulent regime ranging from 9350 to 23 000 and the concentration of the nanofluid is taken in the range of 0.1-1%. It has been found that the heat transfer rate has improved significantly in dimpled radiator tube on the expense of pumping power. Furthermore, the heat transfer rate also increases with increase in nanoparticle concentration from 0.1% to 1.0%. The highest heat transfer enhancement of 79% is observed at Reynolds number 9350, while least enhancement of 18% is observed for Reynolds number of 23 000.

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Thermo-Fluidic Modelling of a Heat Exchanger Tube with Conical Shaped Insert having Protrusion and Dimple Roughness

Cited by 13 publications

References 15 publications

Effect of D-shaped, reverse D-shaped and U-shaped turbulators in solar air heater on thermo-hydraulic performance

Effect of D-shaped, reverse D-shaped and U-shaped turbulators in solar air heater on thermo-hydraulic performance

Reinforcing Lecturer Readiness to Change by Increasing Psychological Capital and Engagement

Numerical study of car radiator using dimple roughness and nanofluid

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