Effect of gamma irradiation on the critical heat flux of nano-coated surfaces

Effect of gamma irradiation on the critical heat flux of nano-coated surfaces

An anodic electrophoretic deposition (EPD) technique is used to create a uniform TiO2 thin film coating on boiling thin steel plates (1.1 mm by 90 mm). All of the effective parameters except time of the EPD method are kept constant. To investigate the effect of gamma irradiation on the critical heat...

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Main Authors: A. Rahimian, H. Kazeminejad, H. Khalafi, A. Akhavan, M. Mirvakili
Format: Article
Language:English
Published: Elsevier 2020-10-01
Series:Nuclear Engineering and Technology
Subjects:
Electrophoretic deposition (EPD)
Nano-coating
Critical heat flux
Gamma irradiation
Online Access:http://www.sciencedirect.com/science/article/pii/S1738573318308611
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spelling doaj-1dbd63ab2a9e420b9307120b146cd9e02020-11-25T03:47:13ZengElsevierNuclear Engineering and Technology1738-57332020-10-01521023532360Effect of gamma irradiation on the critical heat flux of nano-coated surfacesA. Rahimian0H. Kazeminejad1H. Khalafi2A. Akhavan3M. Mirvakili4Nuclear Science and Technology Research Institute (NSTRI), P.O. Box 11365-3486, Tehran, I.R., IranCorresponding author.; Nuclear Science and Technology Research Institute (NSTRI), P.O. Box 11365-3486, Tehran, I.R., IranNuclear Science and Technology Research Institute (NSTRI), P.O. Box 11365-3486, Tehran, I.R., IranNuclear Science and Technology Research Institute (NSTRI), P.O. Box 11365-3486, Tehran, I.R., IranNuclear Science and Technology Research Institute (NSTRI), P.O. Box 11365-3486, Tehran, I.R., IranAn anodic electrophoretic deposition (EPD) technique is used to create a uniform TiO2 thin film coating on boiling thin steel plates (1.1 mm by 90 mm). All of the effective parameters except time of the EPD method are kept constant. To investigate the effect of gamma irradiation on the critical heat flux (CHF), the test specimens were irradiated in a gamma cell to different doses ranging from 100 to 300 kGy, and then SEM and BET analysis were performed. For each coated specimen, the contact angle and capillary length were measured. The specimens were then tested in a boiling pool for CHF and boiling heat transfer coefficient. It was observed that irradiation significantly decreases the maximum pore diameter while it increases the porosity, pore surface area and pore volume. These surface modifications due to gamma irradiation increased the CHF of the nano-coated surfaces compared to that of the unirradiated surfaces. The heat transfer coefficient (HTC) of the nano-coated surfaces irradiated at 300 kGy increased from 83 to 160 kW/(m2 K) at 885 kW/m2 wall heat flux by 100%. The CHF of the irradiated (300 kGy) and unirradiated surfaces are 2035 kW/m2 and 1583 kW/m2, respectively, an increase of nearly 31%.http://www.sciencedirect.com/science/article/pii/S1738573318308611Electrophoretic deposition (EPD)Nano-coatingCritical heat fluxGamma irradiation
collection DOAJ
language English
format Article
sources DOAJ
author A. Rahimian
H. Kazeminejad
H. Khalafi
A. Akhavan
M. Mirvakili
spellingShingle A. Rahimian
H. Kazeminejad
H. Khalafi
A. Akhavan
M. Mirvakili
Effect of gamma irradiation on the critical heat flux of nano-coated surfaces
Nuclear Engineering and Technology
Electrophoretic deposition (EPD)
Nano-coating
Critical heat flux
Gamma irradiation
author_facet A. Rahimian
H. Kazeminejad
H. Khalafi
A. Akhavan
M. Mirvakili
author_sort A. Rahimian
title Effect of gamma irradiation on the critical heat flux of nano-coated surfaces
title_short Effect of gamma irradiation on the critical heat flux of nano-coated surfaces
title_full Effect of gamma irradiation on the critical heat flux of nano-coated surfaces
title_fullStr Effect of gamma irradiation on the critical heat flux of nano-coated surfaces
title_full_unstemmed Effect of gamma irradiation on the critical heat flux of nano-coated surfaces
title_sort effect of gamma irradiation on the critical heat flux of nano-coated surfaces
publisher Elsevier
series Nuclear Engineering and Technology
issn 1738-5733
publishDate 2020-10-01
description An anodic electrophoretic deposition (EPD) technique is used to create a uniform TiO2 thin film coating on boiling thin steel plates (1.1 mm by 90 mm). All of the effective parameters except time of the EPD method are kept constant. To investigate the effect of gamma irradiation on the critical heat flux (CHF), the test specimens were irradiated in a gamma cell to different doses ranging from 100 to 300 kGy, and then SEM and BET analysis were performed. For each coated specimen, the contact angle and capillary length were measured. The specimens were then tested in a boiling pool for CHF and boiling heat transfer coefficient. It was observed that irradiation significantly decreases the maximum pore diameter while it increases the porosity, pore surface area and pore volume. These surface modifications due to gamma irradiation increased the CHF of the nano-coated surfaces compared to that of the unirradiated surfaces. The heat transfer coefficient (HTC) of the nano-coated surfaces irradiated at 300 kGy increased from 83 to 160 kW/(m2 K) at 885 kW/m2 wall heat flux by 100%. The CHF of the irradiated (300 kGy) and unirradiated surfaces are 2035 kW/m2 and 1583 kW/m2, respectively, an increase of nearly 31%.
topic Electrophoretic deposition (EPD)
Nano-coating
Critical heat flux
Gamma irradiation
url http://www.sciencedirect.com/science/article/pii/S1738573318308611
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