PENGARUH JENIS KATODA TERHADAP GAS HIDROGEN YANG DIHASILKAN DARI PROSES ELEKTROLISIS AIR GARAM
Munawar Alfansury Siregar(1*), Khairul Umurani(2), Wawan Septiawan Damanik(3)(1) Universitas Muhammadiyah Sumatera Utara
(2) Universitas Muhammadiyah Sumatera Utara
(3) Universitas Muhammadiyah Sumatera Utara
(*) Corresponding Author
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BP Statistical Review of World Energy, 2019. BP, from, https://www.bp.com/content/dam/bp/ business- sites/en/global/corporate/pdfs/energy-economics/statistical-review/bp-stats-review-2019-full-report.pdf, diakses tanggal 13 Oktober 2019.
Amikam G, et al.,2018, Chlorine-free alkaline seawater electrolysis for hydrogen production, International Journal of Hydrogen Energy
BPPT Indonesia Darurat Energi, 2019, https://www.bppt.go.id/teknologi-informasi-energi-dan-material/3296-bppt-indonesia-darurat-energi.
M.Hasanuzzaman, Zubir US, Ilham NI, Che HS, 2017, Global electricity demand, generation, grid system, and renewable energy polices: a review. Wiley Interdiscipl Rev Energy Environ ;6(3):1e18.
S.A.Munwar, ,U.khairuL, D.S.Wawan, 2015, pengaruh jarak katoda dan anoda terhadap tekanan gas hidrogen dan korin yang dihasilkan pada proses elektrolisis air garam, http://septiawanwdamanik.blogspot.com.
Mardiansyah, 2011, sistem produksi hidrogen melalui proses elektrolisis plasma nonthermal dalam larutan elektrolit KOH dengan penambahan methanol dan etanol, Skripsi, Fakultas Teknik/Program Studi Teknik Kimia, Universitas Indonesia, Depok.
Eurochlor. Chlorine industry review 2017. http:// www.eurochlor.org/download-centre/the-chlorine-industryreview. Aspx 201-2017, diakses tanggal 13 Oktober 2019.
Karlsson RKB, Cornell A, 2016, Selectivity between oxygen and chlorine evolution in the chlor-alkali and chlorate processes. Chem Rev ;116(5):2982e3028.
M. Brinkmann T, Santonja GG, Schorcht F, Roudier S, Sancho LD. Best available techniques (BAT) reference document for the production of chlor-alkali. JRC Science and Policy Reports Luxemburg: Publications office of the European Union; 2014. ISSN 1831e9424.
A Ursua, Gandia LM, Sanchis P, 2012. Hydrogen production from water electrolysis: current status and future trends. Proc IEEE;100(2):410e26.
K Zeng, D Zhang, 2010. Recent progress in alkaline water electrolysis for hydrogen production and applications. Prog Energy Combust Sci;36:307e26.
M Carmo, DL. Fritz, Mergel J, Stolten D,2013. A comprehensive review on PEM water electrolysis. Int J Hydrogen Energy;38:4901e34.
Godula-Jopek A. In: Guillet N, Millet P, editors,2015. Hydrogen production: electrolysis. Chapter 4 e alkaline Water electrolysis. Wiley-VCH, Verlag GmbH & Co; [KGaA].
M Rudolf, I Rousar, J Krysa, 1995. Cathodic reduction of hypochlorite during reduction of dilute sodium chloride solution. J Appl Electrochem;25:155e65.
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