Experimental analysis of a flat plate pulsating heat pipe. The thermal resistance of vertical straight wickless heat pipe using graphene nanofluid and demineralized water were 0. Considerable interest has been paid to 36 wickless twophase closed thermosiphon tpct heat pipes due to their simple construction and low 37 cost. A theoretical analysis of their performance characteristics shows that they have nearly the heat transport capability expected by scaling down from conventional heat pipes. Within the tests, the temperature dissemination on the wickless warm pipe surface and the temperature contrasts of the cooling water were measured. Acordingly in this case, reflux condensation heat transfer takes place between upgoing vapor flow and downcoming liquid film flow, as for example, in a vertical twophase thermosyphon, i. Three cases with volume fraction 0, 1% and 4% for cuo are considered. Comparison between a heat pipe and a thermosyphon performance. It is a twophase heat transfer device that utilizes the evaporation and condensation of a working fluid to transfer heat, and the capillary forces developed in fine porous wicks to circulate the fluid. Research paper thermomechanical design and characterization of. While the best thermal performance was achieved at a filing ratio of 80 %, higher heat load, and higher coolant volumetric flow rate. Cfd study of the heat pipes with water nanoparticles mixture. Plawsky and others published wickless heat pipes in microgravity find, read and cite all the research you need. Engineers develop wickless heat pipes industrial equipment.
Alizadhdakel et al 17 have reported experimentally the effect of. The file can then be transferred to the data process section, e. Request pdf improvements of gravity assisted wickless heat pipes the performance of conventional gravity assisted heat pipes and modified heat pipes with a separator in the adiabatic section. Pdf thermocapillary phenomena and performance limitations. Loop heat pipe with coherent porous wick since the porous material used for current heat pipes is usually stochastic structure, it is hard to apply analytical or numerical methods for. One end of the heat pipe is an evaporator, the opposite end is a condenser. In the field of twophase passive wickless heat transfer devices such as.
A heat pipe is a twophase heat transfer device with a highly effective heat transfer rate through evaporating and condensing a fluid that is circulating in a sealed container. Heat pipes are widely used both to improve the outdated equipment, increase its efficiency, reliability. The wickless heat pipe was designed to transfer the heat of 850 w at. This is achieved by thermally linking the cooling strip to the heating strip via.
The thermal resistance of vertical straight wicklessheat pipe using graphene nanofluid and demineralized water were 0. The system required can be as simple as a circular system with one half being heated and one half being cooled driving a flow. A wickless heat pipe, or a twophase closed thermosyphon, relies on gravitational forces to return the working fluid to the evaporator. A schematic diagram of a heat pipe and the associated heat flow mechanismbthe two phase thermosyphon. Unlike conventional heat pipes in which wick structure is built on the internal wall of the pipe, the thermosiphon internal wall has none wick to be built.
The overall system performance of wickless heat pipe thermosyphon parabolic trough solar collector with evacuated glass tube and with tracking system has been. The present study is concerned with a cooling package system for electronic components such as multichip modules mcm which are used in many electronic system. The water is used as a base working fluid while the nanoparticles used in the present. An mhp is typically a wickless, noncircular channel with a channel radius. The wick and wickless thermosyphon heat pipes have many features in common in their construction, operation and applications. At the heat source, or evaporator, the liquid absorbs heat and vaporizes. A thermosiphon is made from a sealed metal pipe as its.
A thermosiphon is made from a sealed metal pipe as its container. The water is used as a base working fluid while the nanoparticles used in the present study are the copper oxide nanoparticles. The lengths of the evaporator, adiabatic and condenser sections are 500mm for each section. Water heat pipe parameters and limitations when to use heat. The oscillating heat pipe, as shown schematically in fig. Thermomechanical design and characterization of flexible. Introduction heat pipe is a capillary twophase heat transfer device.
Heat pipe characteristics are linked to the surface properties of the diabatic surfaces, and, in the evaporator, surface properties influence both the onset boiling. Dynamic modeling of the heat pipeassisted annealing line. Low grade heat driven adsorption system for cooling and. Two different working fluids with different thermophysical properties have been investigated. The water is then passed to the inlet of the condenser section. Jul 22, 2019 heat pipe characteristics are linked to the surface properties of the diabatic surfaces, and, in the evaporator, surface properties influence both the onset boiling temperature t onb and the critical heat flux chf. The limitations of the capillary pumped heat pipes can be overcome through the use of. Heat pipes application to solar energy systems springerlink. The heat pipes used in electronics thermal management, spot cooling heat pipes, hik plates. Heat pipe wicklesssimulation on fluentmultiphase cfd. Ats engineering ebook advanced thermal solutions, inc.
The im of the cooling capacity up to heat flux of 4 wcm2 was achieved. Low grade heat driven adsorption system for cooling and power. Heat pipes and its applications lunds tekniska hogskola. L is the heat transfer coefficient given when liquid flows as a singlephase flow with same liquid mass flow rate, and p s p cri is the reduced pressure ratio of the saturation pressure p. Hence the major component of the system is flat plate heat pipe solar collector with wickless heat pipe. Today widespread application of energysaving equipment based on heat pipes makes a significant contribution to the task of resources saving. Heat pipes heat pipes how and where heat pipes work the dme heat pipe is a heat transfer device specifically designed for optimal performance in plastic injection moulds. In this context, the dynamic simulation of a full heat pipe assisted annealing line is performed. Project description by means of knowledge about the theory of heat pipes, one is now able to carry out a basic calculation of a heat pipe. The heat pipe is made from copper tube with the outer diameter 8. It consists of a vacuumtight copper tube containing a wick and a nontoxic working fluid. A heat pipe is partially filled with a working fluid, such as water, and then sealed. Loop heat pipe with coherent porous wick since the porous material used for current heat pipes is usually stochastic structure, it is hard to apply analytical or numerical methods for design optimization.
Apr 15, 2016 today widespread application of energysaving equipment based on heat pipes makes a significant contribution to the task of resources saving. The proposed system utilizes a special type of heat pipe wickless heat pipe or named thermosiphon as shown in fig. The fabrication and purpose of very small wickless heat pipes are discussed. A theoretical analysis of their performance characteristics shows that they have nearly the heat transport. A novel and comprehensive threedimensional cfd model of a wickless heat pipe was developed to simulate both the complex multiphase heat and mass transfer characteristics of boiling and. The transient thermal behaviour of wickless heat pipe flat plate solar collectors has been analyzed with regard to various parameters. Efficient heat transferefficient heat transfer boiling and condensationboiling and condensation small temperature difference between the heat source and. A study of heat pipes which was conducted by anderson 5 showed that dowtherma provides adequate thermal stability and compatibility. Water heat pipe parameters and limitations when to use. Heat pipe is a capillary twophase heat transfer device. The innovative wickless heat pipe systems for ground and space applications inwip project, funded by esa, aims at designing, manufacturing and testing innovative wickless heat pipes with enhanced performances and reliability for both space and ground applications. Ats now offers a comprehensive selection of high performance round and flat copper heat pipes.
It is a twophase heat transfer device that utilizes the evaporation and condensation of a working fluid to transfer heat, and. The minimum amount of working liquid fill volume in a wickless heat pipe for given working fluids acetone, ethanol, methanol and water depends upon the amount of heat to be transferred, vapor temperatures, working fluid properties and dimensions of the wickless heat pipe. Recently heat pipe heat exchanger is widely used in solar applications for its high thermal performance. Experimental investigation of an inclinedcondenser wickless heat pipe charged with water and an ethanolwater azeotropic mixture. Towards a durable polymeric internal coating for diabatic. A heat flux of 4 wcm2 is about two to three times of the value generally accepted as the limit by forced air cooling together with heat pipes kishimoto et al. I do not have much experience with lab scale equipment, but can provide some points which might help. They have also carried out a cfd simulation to investigate the.
The driving mechanism in the heat pipe is the heat figure1. Inwip innovative wickless heat pipe systems for ground and. The heat pipes used in electronics thermal management, spot cooling heat. Typically, micro heat pipes, figure 9 have convex but cusped cross sections for example, a polygon, with hydraulic diameter in range of 10 to 500. Another study investigates that dowtherma operates within temperature range 200450. How to model a heat pipe a brief explanation is provided of a networkbased method that is suitable for modeling constant conductance heat pipes cchps, also called fixed conductance. On the basis of relative weight and volume, five concepts were selected for further evaluation. The innovative wickless heat pipe systems for ground and space applications inwip project, funded by esa, aims at designing, manufacturing and testing innovative wickless heat pipes. Miniature heat pipe is defined as a heat pipe with a hydraulic diameter in the range of 0. Everyday, heat pipes designers have to cope in heat pipe production with serious constraints strictly depending on the kind of applications for which the heat pipe has been selected, like the. They appear attractive for applications calling for close temperature control, but having only modest cooling requirements. Using the heat pipes as heat transfer and heat exchange design elements allows creating new effective equipment generation for solar energy systems. Haringx 10 modeled the bellow as the combination of annular plates connected by elastic cylinders and derived. The udf didnt work on ansys 16 due to some bug in the program, so you should use ansys 15 or 17 instead.
Hence, other than thermal design of the heat pipe, mechanical design of the. An investigation of condensation heat transfer of dowtherm. Investigation on the performance of a wicklessheat pipe. Tubes, condensation in atoz guide to thermodynamics, heat. The driving mechanism in the heat pipe is the heat. Wick structure problem description a heat pipe with. The graph also shows that if the heat pipe is operated against the force of gravity, the liquid undergoes a larger pressure drop.
The experimental setup includes a transparent side enabling the visualization of the oscillating flow pattern during the. The amount of heat transfer decrease depends on the particular heat pipe. A loop heat pipe with coherent pores integrated to the heat source is considered as a calculation model in this paperfig. Hence the major component of the system is flat plate heat pipe solar collector. A wickless heat pipe capable of transferring heat of 850 w at a vapour temperature between 20 0c and 80 0c over a distance of 800 mm was selected for experimentation. The result is less pumping of the wick with reduced. Transports heat from a heat source to a heat sink works as an isothermalizer why twophase thermal system.
The system required can be as simple as a circular system with one. Surface weapons center, 18 different heat pipe cooling system concepts were defined and evaluated. This is achieved by thermally linking the cooling strip to the heating strip via multiple rotating heat pipes. Pdf performance investigation of a wickless heat pipe.
The minimum amount of working liquid fill volume in a wickless heat pipe for given working fluids acetone, ethanol, methanol and water depends upon the amount of heat to be transferred. Everyday, heat pipes designers have to cope in heat pipe production with serious constraints strictly depending on the kind of applications for which the heat pipe has been selected, like the temperature gradient along the pipe and its heat transfer limits i. Wick structure problem description a heat pipe with minimum heat transport of 25 w is going to be used for cooling electronic components. Inwip innovative wickless heat pipe systems for ground. In this work, the effect of surface wettability in pool boiling heat transfer is studied in order to understand if there could. The information were utilized to calculate the warm resistance and heat. Pdf wickless heat pipes in microgravity researchgate.
Pdf experimental investigation of an inclinedcondenser. Principles and prospects for micro heat pipes unt digital. If heat pipe pa take out and let ai below sol end of a heatp ipe 1015 mm. Pdf experimental investigation of the thermal performance of a. The first oscillating heat pipe ohp, introduced by akachi circa 1990 5, is a wickless candidate for efficiently dissipating high heat fluxes in a variety of operating environments e. Optimization of a wickless heat pipe flat plate solar. An investigation of condensation heat transfer of dowtherm a. Within the tests, the temperature dissemination on the wickless warm pipe. Manufacturing and experimental investigation of copper heat pipes. Heat pipes are passive twophase heat transfer devices that transfer heat by evaporation and condensation. The results of this study are summarized in appendix a. Heat pipe wick structures are constructed from various materials and methods. How to model a heat pipe heat transfer and fluid flow.
The vapor travels along the heat pipe to the condenser, reliquifies and releases its latent heat, eventually returning to the evaporator, without any moving parts. Alizadhdakel et al 17 have reported experimentally the effect of input energy and fill ratio on the. Many works study the effect of size, shape, working fluid, fill ratios, and inclined angles on the performance of whps. Jan 12, 2016 i do not have much experience with lab scale equipment, but can provide some points which might help. This thesis work is to perform copper heat pipe manufacturing, testing, and theoretical analyses. Abstract several heat pipes were designed and manufactured to study the. How should i go about designing a wickless heat pipe. This technology enables reusing the heat extracted during cooling of the strip in the heating part of the process.
Improvements of gravity assisted wickless heat pipes. Pulsating heat pipes, flow pattern transitions from slugplug to semiannular induce a. The heat pipe cooling system studies reported herein in cluded the following tasks. These parameters include global solar radiation intensity, inlet cooling water temperature, absorber plate material and thickness, ratio of pitch distance to wickless heat pipe diameter and ratio of condenser section length to total wickless heat pipe length. I succeeded in simulation of a 2d heat pipe using fluent 17 vof multiphase model with hooking udf with the case.