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Application of nanotechnology in thermal processes and energy conversion

Abstract

In general, this project deals with the theoretical and experimental study of nucleate boiling on nanostructured surfaces. This research involves the design of an experimental apparatus and the results analysis, including the phenomenon visualization. The aim of this study is to analyze the influence of nanostructured surfaces and the gap size on heat transfer coefficient and critical heat flux. Aspects concerning the drying out, related to the gap size effect, are thoroughly studied by analysis of the experimental data and visualization of the boiling phenomenon. This study will also involve the characterization of the surfaces tested, through the techniques of scanning electron microscopy (SEM), atomic force microscopy (AFM) and wettability test, before and after the boiling tests; the study of different nanofluids concentrations, as well as, the size of the nanoparticles deposited. A deep analysis is necessary in the case of confined nucleate boiling in order to perfect its use as an intensification technique and also to minimize the risks associated with confinement when it is imposed on a design because it can cause problems linked to the premature occurrence critical heat flux, which represents the limit of operation of the system in the nucleate boiling regime. The tests will be performed for different working fluids, water and HFE7100 (at atmospheric pressure and at saturation temperature) and, for heating surfaces of copper. The contribution of this work is to obtain results of interest to the industry for new refrigeration system components, air conditioning and cooling of electronic components for thermal control of machines, where the heat fluxes to be removed are higher than those provided by single-phase systems. (AU)

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Scientific publications (13)
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
DOS SANTOS FILHO, ERIVELTO; KIYOMURA, IGOR SEICHO; DE ANDRADE, BRUNO ALVES; CARDOSO, ELAINE MARIA. Pool boiling performance of HFE-7100 on hierarchically structured surfaces. CASE STUDIES IN THERMAL ENGINEERING, v. 28, . (17/04276-1, 14/19497-5, 14/07949-9, 19/02566-8, 13/15431-7)
GOODARZI, MARJAN; TLILI, ISKANDER; MORIA, HAZIM; CARDOSO, E. M.; ALKANHAL, TAWFEEQ ABDULLAH; ANQI, ALI E.; SAFAEI, MOHAMMAD REZA. Boiling flow of graphene nanoplatelets nano-suspension on a small copper disk. Powder Technology, v. 377, p. 10-19, . (13/15431-7, 19/02566-8)
NUNES, JESSICA MARTHA; SOUZA, REINALDO RODRIGUES DE; RODRIGUES, ALESSANDRO ROGER; SAFAEI, MOHAMMAD REZA; CARDOSO, ELAINE MARIA. Influence of coated surfaces and gap size on boiling heat transfer of deionized water. Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 42, n. 3, . (13/15431-7, 14/19497-5, 19/02566-8)
KIYOMURA, IGOR SEICHO; NUNES, JESSICA MARTHA; DE SOUZA, REINALDO RODRIGUES; GAJGHATE, SAMEER S.; BHAUMIK, SWAPAN; CARDOSO, ELAINE MARIA. Effect of microfin surfaces on boiling heat transfer using HFE-7100 as working fluid. Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 42, n. 7, . (13/15431-7, 17/13813-0, 19/02566-8)
ORTEGON, J. A. A.; SOUZA, R. R.; SILVA, J. B. C.; CARDOSO, E. M.. Analytical, experimental, and numerical analysis of a microchannel cooling system for high-concentration photovoltaic cells. Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 41, n. 6, . (13/15431-7, 14/19497-5, 14/07949-9)
SOUZA, R. R.; MANETTI, L. L.; KIYOMURA, I. S.; CARDOSO, E. M.. Liquid/surface interaction during pool boiling of DI-water on nanocoated heating surfaces. Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 40, n. 11, . (13/15431-7, 17/13813-0)
MANETTI, LEONARDO LACHI; STEPHEN, MOGAJI TAYE; BECK, PAULO ARTHUR; CARDOSO, ELAINE MARIA. Evaluation of the heat transfer enhancement during pool boiling using low concentrations of Al2O3-water based nanofluid. EXPERIMENTAL THERMAL AND FLUID SCIENCE, v. 87, p. 191-200, . (13/15431-7, 14/19497-5)
KIYOMURA, I. S.; MANETTI, L. L.; DA CUNHA, A. P.; RIBATSKI, G.; CARDOSO, E. M.. An analysis of the effects of nanoparticles deposition on characteristics of the heating surface and ON pool boiling of water. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, v. 106, p. 666-674, . (13/15431-7, 14/07949-9, 14/19497-5)
MANETTI, LEONARDO LACHI; RIBATSKI, GHERHARDT; DE SOUZA, REINALDO RODRIGUES; CARDOSO, ELAINE MARIA. Pool boiling heat transfer of HFE-7100 on metal foams. EXPERIMENTAL THERMAL AND FLUID SCIENCE, v. 113, . (13/15431-7, 17/13813-0, 19/02566-8)
MANETTI, LEONARDO LACHI; OLIVEIRA HENRIQUES MOITA, ANA SOFIA; DE SOUZA, REINALDO RODRIGUES; CARDOSO, ELAINE MARIA. Effect of copper foam thickness on pool boiling heat transfer of HFE-7100. INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER, v. 152, . (19/15250-9, 13/15431-7, 17/13813-0, 19/02566-8)
GAJGHATE, SAMEER SHESHRAO; BARATHULA, SREERAM; CARDOSO, ELAINE MARIA; SAHA, BIDYUT BARAN; BHAUMIK, SWAPAN. Effect of staggered V-shaped and rectangular grooves copper surfaces on pool boiling heat transfer enhancement using ZrO2 nanofluids. Journal of the Brazilian Society of Mechanical Sciences and Engineering, v. 43, n. 2, . (13/15431-7, 19/02566-8)
DA CUNHA, ALEX P.; MOGAJI, TAYE S.; DE SOUZA, REINALDO R.; CARDOSO, ELAINE M.. A Method for Measuring Contact Angle and the Influence of Surface-Fluid Parameters on the Boiling Heat Transfer Performance. JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME, v. 142, n. 9, . (13/15431-7, 17/13813-0, 19/02566-8)
KIYOMURA, IGOR SEICHO; MOGAJI, TAYE STEPHEN; MANETTI, LEONARDO LACHI; CARDOSO, ELAINE MARIA. A predictive model for confined and unconfined nucleate boiling heat transfer coefficient. APPLIED THERMAL ENGINEERING, v. 127, p. 1274-1284, . (13/15431-7, 14/19497-5)

Please report errors in scientific publications list by writing to: cdi@fapesp.br.