Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3

Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3

Today, even though exist a Titanium Nitride Oxide, TiNOX, a very good commercial solar absorber, the efforts to develop new and better solar absorbers like TiNOX are continuing in several laboratories all over the world. In this article, we used the ultrasonic spray pyrolysis technique to prepare ma...

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Main Authors: Hernández-Pérez Carlos David, Barrera-Calva Enrique, González Federico, Rentería Tapia Victor
Format: Article
Language:English
Published: EDP Sciences 2021-01-01
Series:Renewable Energy and Environmental Sustainability
Online Access:https://www.rees-journal.org/articles/rees/full_html/2021/01/rees200014/rees200014.html
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spelling doaj-42be01b6ecbe42639346b9f9c8f4b7182021-08-11T12:33:24ZengEDP SciencesRenewable Energy and Environmental Sustainability2493-94392021-01-016310.1051/rees/2021003rees200014Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3Hernández-Pérez Carlos David0Barrera-Calva Enrique1https://orcid.org/0000-0002-3041-5552González Federico2https://orcid.org/0000-0001-7966-312XRentería Tapia Victor3Universidad Autónoma Metropolitana – Iztapalapa. Av. San Rafael Atlixco No. 186, Col. Vicentina, C.P. 09340. Alcaldía IztapalapaUniversidad Autónoma Metropolitana – Iztapalapa. Av. San Rafael Atlixco No. 186, Col. Vicentina, C.P. 09340. Alcaldía IztapalapaUniversidad Autónoma Metropolitana – Iztapalapa. Av. San Rafael Atlixco No. 186, Col. Vicentina, C.P. 09340. Alcaldía IztapalapaUniversidad de Guadalajara, Ameca Km. 45.5, C.P. 46600Today, even though exist a Titanium Nitride Oxide, TiNOX, a very good commercial solar absorber, the efforts to develop new and better solar absorbers like TiNOX are continuing in several laboratories all over the world. In this article, we used the ultrasonic spray pyrolysis technique to prepare manganese, Mn, Mn-doped α-Fe2O3 dark thin films deposited on titanium substrates. The results of an analysis of the solar absorptance and thermal emittance of these films are also presented here; the optical properties depend of the proportions of Mn and iron, Fe, in the spray solution and of the deposit temperature. The best solar absorptance (0.94) and thermal emittance (0.07) values of the films prepared at 600 °C for iron and manganese ion with concentrations of 0.0015 and 0.0035 mol/l, respectively, are comparable with the optical properties of the Titanium Nitride oxide, TiNOX, a very common commercial solar absorber used as an efficient coating for flat plate solar collectors industry.https://www.rees-journal.org/articles/rees/full_html/2021/01/rees200014/rees200014.html
collection DOAJ
language English
format Article
sources DOAJ
author Hernández-Pérez Carlos David
Barrera-Calva Enrique
González Federico
Rentería Tapia Victor
spellingShingle Hernández-Pérez Carlos David
Barrera-Calva Enrique
González Federico
Rentería Tapia Victor
Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3
Renewable Energy and Environmental Sustainability
author_facet Hernández-Pérez Carlos David
Barrera-Calva Enrique
González Federico
Rentería Tapia Victor
author_sort Hernández-Pérez Carlos David
title Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3
title_short Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3
title_full Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3
title_fullStr Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3
title_full_unstemmed Ultrasonic spray pyrolysis technique to generate a solar absorber coating of Mn-doped α-Fe2O3
title_sort ultrasonic spray pyrolysis technique to generate a solar absorber coating of mn-doped α-fe2o3
publisher EDP Sciences
series Renewable Energy and Environmental Sustainability
issn 2493-9439
publishDate 2021-01-01
description Today, even though exist a Titanium Nitride Oxide, TiNOX, a very good commercial solar absorber, the efforts to develop new and better solar absorbers like TiNOX are continuing in several laboratories all over the world. In this article, we used the ultrasonic spray pyrolysis technique to prepare manganese, Mn, Mn-doped α-Fe2O3 dark thin films deposited on titanium substrates. The results of an analysis of the solar absorptance and thermal emittance of these films are also presented here; the optical properties depend of the proportions of Mn and iron, Fe, in the spray solution and of the deposit temperature. The best solar absorptance (0.94) and thermal emittance (0.07) values of the films prepared at 600 °C for iron and manganese ion with concentrations of 0.0015 and 0.0035 mol/l, respectively, are comparable with the optical properties of the Titanium Nitride oxide, TiNOX, a very common commercial solar absorber used as an efficient coating for flat plate solar collectors industry.
url https://www.rees-journal.org/articles/rees/full_html/2021/01/rees200014/rees200014.html
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AT barreracalvaenrique ultrasonicspraypyrolysistechniquetogenerateasolarabsorbercoatingofmndopedafe2o3
AT gonzalezfederico ultrasonicspraypyrolysistechniquetogenerateasolarabsorbercoatingofmndopedafe2o3
AT renteriatapiavictor ultrasonicspraypyrolysistechniquetogenerateasolarabsorbercoatingofmndopedafe2o3
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