Investigation of Hydrogen Production via Black Water Electrolysis

被引:0
作者
Yildiz, Merve Gordesel [1 ]
Yoruk, Ozgu [1 ]
Uysal, Duygu [1 ]
Dogan, Ozkan Murat [1 ]
机构
[1] Gazi Univ, Fac Engn, Chem Engn Dept, TR-06570 Ankara, Turkiye
来源
JOURNAL OF POLYTECHNIC-POLITEKNIK DERGISI | 2025年 / 28卷 / 02期
关键词
Hydrogen; black water; olive oil wastewater; electrolysis; electrochemical reaction; MILL WASTE-WATER; ADVANCED OXIDATION PROCESSES; ELECTROCHEMICAL TREATMENT; PHENOLIC-COMPOUNDS; ANODIC-OXIDATION; PRETREATMENT; MEMBRANE;
D O I
10.2339/politeknik.1477790
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
As an alternative to hydrogen production by electrolysis of water, using as raw material waste valorization and organic pollutants in wastewater are crucial issues. In this context, electrolysis of black water, produced as waste in olive oil production and high energy source potential due to the aromatic compounds in its content, was carried out in this study. Parametric studies were carried out by examining the effect of working conditions on hydrogen production. The experiments using a two-chamber electrolysis cell examined the effects of catalytic additive (Fe2+/3+), temperature (26degree celsius-60degree celsius-70degree celsius-80degree celsius), type of electrode (Cu/Cu, Zn/Zn and Pd/Pt) and electrolyte (H2SO4, H3PO4, HCl, C2H2O4 and C2H4O2), membrane and pretreatment applied to the membrane. In the electrolysis of black water with FeSO4 and acidic electrolyte (H2SO4) using a pretreated Nafion XL membrane on the Zn/Zn electrode pair, pure H-2 formation at the cathode was determined. Under these conditions, 1.9 mA/cm(2) current density was obtained at 1 V potential and room temperature.
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页数:12
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共 47 条
  • [31] Impact of cultivar, harvesting time, and seasonal variation on the content of biophenols in olive mill waste
    Obied, Hassan K.
    Bedgood, Danny
    Mailer, Rod
    Prenzler, Paul D.
    Robards, Kevin
    [J]. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY, 2008, 56 (19) : 8851 - 8858
  • [32] Ultrasound pretreatment for enhanced biogas production from olive mill wastewater
    Oz, Nilgun Ayman
    Uzun, Alev Cagla
    [J]. ULTRASONICS SONOCHEMISTRY, 2015, 22 : 565 - 572
  • [33] Parveen Fatemeh Rupani Parveen Fatemeh Rupani, 2010, World Applied Sciences Journal, V10, P1190
  • [34] Ribordy P, 1997, WATER SCI TECHNOL, V35, P293, DOI 10.1016/S0273-1223(97)00038-3
  • [35] Valorization and Potential Antimicrobial Use of Olive Mill Wastewater (OMW) from Italian Olive Oil Production
    Russo, Eleonora
    Spallarossa, Andrea
    Comite, Antonio
    Pagliero, Marcello
    Guida, Patrizia
    Belotti, Vittorio
    Caviglia, Debora
    Schito, Anna Maria
    [J]. ANTIOXIDANTS, 2022, 11 (05)
  • [36] Aqueous methanol eletrolysis using proton conducting membrane for hydrogen production
    Sasikumar, Gangadharan
    Muthumeenal, Arunachalam
    Pethaiah, Sethu Sundar
    Nachiappan, Nachiappan
    Balaji, Rengarajan
    [J]. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY, 2008, 33 (21) : 5905 - 5910
  • [37] Detrimental effects of high molecular-mass polyphenols on olive mill wastewater biotreatment
    Sayadi, S
    Allouche, N
    Jaoua, M
    Aloui, F
    [J]. PROCESS BIOCHEMISTRY, 2000, 35 (07) : 725 - 735
  • [38] Sciancalepore V, 2000, EUR J LIPID SCI TECH, V102, P680, DOI 10.1002/1438-9312(200011)102:11<680::AID-EJLT680>3.0.CO
  • [39] 2-6
  • [40] Souilem S, 2017, OLIVE MILL WASTE: RECENT ADVANCES FOR SUSTAINABLE MANAGEMENT, P1, DOI 10.1016/B978-0-12-805314-0.00001-7