Elizondo Luna, Erardo Mario (2016) Investigation of Porous Metals as Improved Efficiency Regenerators. PhD thesis, University of Sheffield.
Abstract
In these past few years the subject of porous metals has gained considerable attention. The area of flow and heat transfer behaviour in porous metals used as regenerators is the focus of this work. A total of 37 porous metal samples have been produced to evaluate their characteristics as regenerators, these include 12 replicated porous metal samples made from commercially pure aluminium using three different NaCl preform particle sizes and two packing methods. The replication method using argon only was improved to become more efficient, tests were done to determine adequate time and temperature for uniform porous metal sample production. In total 4 different protocols (W, X, Y and Z) were developed to produce different levels of porosity (from 61 to 78%) by changing certain variables in the production process. Other porous metal samples were manufactured with the objective of having a wide range of structures and material comparisons; 7 SS304L wire mesh samples, 3 wire felt samples (Al, Cu and SS304L), to evaluate the effect of pore size, 5 packed sphere samples (Al, AISI 52000 chrome steel, Cu, soda glass and SS420) and 10 additive layer manufactured samples (SS316L and Ti6Al4V) to evaluate the effect of material and porosity levels. All the samples were tested on pressure drop and heat transfer capabilities, they were compared with the literature using Reynolds and Stanton numbers, the thermal conductivity was also measured, a characteristic that had to be estimated in previous work due to a lack of an experimental test rig, which was developed during this research. It was found that the best performing ones were the stainless steel wire meshes, the wire felts and the replicated porous metals. Several correlations involving pore size, porosity and material effects were proposed as an aid for designing regenerators obtained from the experimental results. The replicated porous metals have the potential of being used as regenerators if they can be made from high efficiency materials and of a smaller pore size than the ones discussed here, their advantage is that they may be modified to a large range of specifications, being able to replicate the behaviour of other structures.
Metadata
Supervisors: | Goodall, Russell and Woolley, Robert |
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Keywords: | Porous Metal, Replication, Aluminium, Porosity, Regenerator, Heat Transfer Coefficient. |
Awarding institution: | University of Sheffield |
Academic Units: | The University of Sheffield > Faculty of Engineering (Sheffield) The University of Sheffield > Faculty of Engineering (Sheffield) > Materials Science and Engineering (Sheffield) |
Identification Number/EthosID: | uk.bl.ethos.686511 |
Depositing User: | Erardo Mario Elizondo Luna |
Date Deposited: | 26 May 2016 15:27 |
Last Modified: | 03 Oct 2016 13:12 |
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