Application of carbon steel and Armco iron in the production of hydrogen gas in formic acid

被引:0
|
作者
Gallina, Andre Lazarin [1 ]
Camargo Matheus, Ana Paulo [2 ]
Dias, Bianca Vanjura [2 ]
de Oliveira, Marilei Fatima [3 ]
Pinto Rodrigues, Paulo Rogerio [2 ]
机构
[1] Univ Fed Fronteira Sul, Dept Quim, Rodovia PR 182 Km 466 S-N, Realeza, PR, Brazil
[2] DEQ UNICENTRO, Grp Pesquisa Eletroquim GPEL, BR-85040080 Guarapuava, PR, Brazil
[3] UTFPR, Dept Engn Mecan, Ave Prof Laura Pacheco Bastos 800, BR-85053510 Guarapuava, Parana, Brazil
来源
MATERIA-RIO DE JANEIRO | 2016年 / 21卷 / 04期
关键词
biomass; catalyst; biofuel; BIOHYDROGEN PRODUCTION; PROCESS PARAMETERS; GASIFICATION; ELECTROLYSIS;
D O I
10.1590/S1517-707620160004.0082
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Incentives for energy policies and current environmental requirements motivate the search for alternative energy sources such as hydrogen gas. This paper aims at the production of hydrogen gas via electrolysis of formic acid using electrodes of 1008 carbon steel and Armco iron. Samples were done by experimental design, and employed the techniques of optical microscopy, cathodic potentiodynamic polarization, open circuit potential and chronoamperometry. The results showed that the surface treatment of the electrodes with #320 grit SiC abrasive paper is effective when compared to the other treatments tested for the evolution of H-2. The Armco iron, showed higher hydrogen production, on average 70% increased when compared with platinum in both studied media, however its lifetime is shorter.
引用
收藏
页码:880 / 897
页数:18
相关论文
共 50 条
  • [1] Hydrogen/formic acid production from natural gas with zero carbon dioxide emissions
    Lopez, Jorge A. Pena
    Somiari, Ibubeleye
    Manousiouthakis, Vasilios I.
    [J]. JOURNAL OF NATURAL GAS SCIENCE AND ENGINEERING, 2018, 49 : 84 - 93
  • [2] Iron-Catalyzed Hydrogen Production from Formic Acid
    Boddien, Albert
    Loges, Bjorn
    Gaertner, Felix
    Torborg, Christian
    Fumino, Koichi
    Junge, Henrik
    Ludwig, Ralf
    Beller, Matthias
    [J]. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 2010, 132 (26) : 8924 - 8934
  • [3] CATHODE HYDROGEN DIFFUSION COEFFICIENT FOR MOLTEN IRON AND ARMCO STEEL
    RACZYNSKI, W
    TALBOTBE.S
    [J]. COMPTES RENDUS HEBDOMADAIRES DES SEANCES DE L ACADEMIE DES SCIENCES SERIE C, 1969, 269 (21): : 1253 - +
  • [4] MIGRATION OF CARBON ON A FERRITE SURFACE IN TRANSFORMER STEEL AND ARMCO IRON
    LNYANOY, VN
    [J]. RUSSIAN METALLURGY, 1980, (04): : 91 - 95
  • [5] DIFFUSION BONDING OF GREY CAST-IRON TO ARMCO IRON AND A CARBON-STEEL
    CALVO, FA
    URENA, A
    DESALAZAR, JMG
    MOLLEDA, F
    [J]. JOURNAL OF MATERIALS SCIENCE, 1989, 24 (11) : 4152 - 4159
  • [6] Formic Acid in Hydrogen: Is It Stable in a Gas Container?
    Bacquart, Thomas
    Morris, Abigail S. O.
    Hookham, Mathew
    Ward, Michael K. M.
    Underwood, Robin
    Hristova, Yoana
    Perkins, Mark
    Ferracci, Valerio
    Murugan, Arul
    [J]. PROCESSES, 2023, 11 (06)
  • [7] Screening of Carbon-Supported PdAg Nanoparticles in the Hydrogen Production from Formic Acid
    Navlani-Garcia, Miriam
    Mori, Kohsuke
    Nozaki, Ai
    Kuwahara, Yasutaka
    Yamashita, Hiromi
    [J]. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2016, 55 (28) : 7612 - 7620
  • [8] EVOLUTION OF HYDROGEN ON ARMCO IRON IN SULFURIC-ACID-SOLUTIONS IN THE PRESENCE OF CRYPTOCYANINE
    KUZNETSOV, AA
    FEDOROV, YV
    [J]. PROTECTION OF METALS, 1981, 17 (04): : 361 - 363
  • [9] EVOLUTION OF HYDROGEN ON ARMCO IRON IN SULFURIC ACID SOLUTIONS IN THE PRESENCE OF CRYPTOCYANINE.
    Kuznetsov, A.A.
    Fedorov, Yu.V.
    [J]. Protection of Metals (English translation of Zaschita Metallov), 1981, 17 (04): : 361 - 363
  • [10] The bacterial decomposition of formic acid into carbon dioxide and hydrogen
    Parkes, WCC
    Jollyman, WH
    [J]. JOURNAL OF THE CHEMICAL SOCIETY, 1901, 79 : 386 - 391
12345