Laminar flow heat transfer studies in a twisted square duct for constant wall heat flux boundary condition

Bhadouriya, Rambir; Agrawal, Amit; Prabhu, Santosh

doi:10.1007/s12046-015-0345-y

Cited by 5 publications

(2 citation statements)

References 7 publications

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“…Hence the suitability of this twisted square duct annulus can be better judged by comparing the heat transfer enhancement with respect to rise in average friction values at identical pumping power. An enhancement factor E is defined [1,2], as shown by Eq. (20).…”

Section: Heat Transfer Enhancementmentioning

confidence: 99%

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Experimental and numerical study of fluid flow and heat transfer in an annulus of inner twisted square duct and outer circular pipe

Bhadouriya

Agrawal

Prabhu

2015

International Journal of Thermal Sciences

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Section: Heat Transfer Enhancementmentioning

confidence: 99%

“…Twisted ducts are used as a replacement for straight circular tube in shell and tube heat exchangers. Twisted ducts [1] not only enhance heat transfer for the fluid inside the ducts [2] but also for the fluid on the shell side. It results in increase in the heat transfer coefficients for both shell side and tube side fluids.…”

Section: Introductionmentioning

confidence: 99%

Experimental and numerical study of fluid flow and heat transfer in an annulus of inner twisted square duct and outer circular pipe

Bhadouriya

Agrawal

Prabhu

2015

International Journal of Thermal Sciences

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Geometric characteristics of the pipe in pipe type device with a screw heat exchange element

Vorontsova

Багоутдинова²

2020

IOP Conf. Ser.: Mater. Sci. Eng.

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To increase the thermal and hydrodynamic efficiency of tubular apparatuses, it is necessary to develop new designs of heat-exchange elements, which are distinguished by high thermal efficiency, manufacturability and low cost of production. In the work, it is proposed to use screw pipes as heat-exchange elements of tubular heat exchangers, since they have a higher degree of surface development compared to smooth-tube elements. The manufacturing technology of such pipes can be carried out in the cold state by the method of rotational forging (rotational compression), which is one of the varieties of the forging process and implemented on special rotary forging machines. To determine the heat transfer coefficients in the screw heat exchange elements mounted a special experimental setup. The main part of the installation is a pipe-in-pipe type heat exchanger, the heat exchange element of which is made in the form of a screw pipe. A experimental research technique has been developed, and the results of physical experiments on heat transfer, as is known, are generalized by criterion equations in which an equivalent diameter is used as a characteristic size. In this regard, the authors proposed a method for calculating the basic geometric characteristics of a screw heat-exchange element, and also obtained formulas for calculating the equivalent diameter of the pipe and annular space in a tube-in-pipe apparatus with a screw heat-exchange element. The results of this work can be used in the calculations and design of new promising heat exchange equipment.

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A Review Study for a Twisted Tube Heat Exchanger

Razzaq

Mushatet

2023

j nanofluids

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They are considering the increasing demand and urgent need in different industries and the importance of heat exchangers imposed the development of heat exchangers to increase heat transfer and increase general performance, reducing volume and cost. The essential heat exchanger used in many industries is the double tube heat exchanger. This type has been distinguished by its simplicity and wide use in recent years. Several improvement methods have been applied, including passive, active, and compound techniques. Passive technologies change the geometry of heat exchangers and are one of the most effective processes to increase overall heat performance. Besides, the hybridization of flow liquids is one of the most critical approaches to increase heat transfer as nanofluids. This review discusses and analyzes the evolution of heat exchangers and methods for improving passive heat transmission. In addition, experimental and numerical research that used nanofluids in heat exchangers was discussed. Moreover, different twisted shapes of the heat exchanger tubes (elliptical and oval, square, and triangle) were studied, which generated secondary eddy flow that increases the intensity of turbulence and mixing, thus improving heat transfer. Also, additives inside heat exchanger tubes include twisted tapes, ribs, and conical rings. The engagement between the Nusselt number and the coefficient of friction was also offered.

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Laminar flow heat transfer studies in a twisted square duct for constant wall heat flux boundary condition

Cited by 5 publications

References 7 publications

Experimental and numerical study of fluid flow and heat transfer in an annulus of inner twisted square duct and outer circular pipe

Experimental and numerical study of fluid flow and heat transfer in an annulus of inner twisted square duct and outer circular pipe

Geometric characteristics of the pipe in pipe type device with a screw heat exchange element

A Review Study for a Twisted Tube Heat Exchanger

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