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dc.contributor.authorSugiharto, Agung
dc.contributor.authorSarto
dc.contributor.authorSutijan
dc.contributor.authorHidayat, Muslikhin
dc.date.accessioned2016-02-05T03:09:12Z
dc.date.available2016-02-05T03:09:12Z
dc.date.issued2015-10-15
dc.identifier.citation[1] Cahyari K, and Putra, R.A., Design of Biogas Plant From Fruit Market Waste in Indonesia, 2010 [2] De Hullu, J.,Maassen J.L.W., van Meel, P.A., Shazad, S., Vaessen J.M.P., Comparing Different Biogas Upgrading Techniques. Eindhoven University of Technology, 2008 [3] G.K.Anderson., Solubility of carbondioxide in water under in cipient clathrate formation conditions, J. Chem. Eng. Data. Vol. 47 (2), pp. 219-222, 2002. [4] H. Bay, A.C. Yeh, Removal of CO2 greenhouse gas by ammonia scrubbing, Ind. Eng. Chem. Res. 36, pp. 2490–2493, 1997. [5] Kaparaju P., D5.1 Evaluation of Potential Technologies and Operational Scales Reflecting Market Needs for Low-cost Gas Upgrading Systems. Valorgas. [6] L. Tina, Z. Deng, Z. Xia, Y. Hu, Y. Zhang., The application of variable pressure adsorption in biogas purification, Environ. Eng, Vol. 28, pp. 78-82, 2010. [7] P. Chiquet, J.L. Daridon, D. Broseta, S. Thibeau., “CO2/water inter tensions under pressure and temperature conditions of CO2 geological storage”, Energy Convers. Manag. Vol. 48 (3), pp.736-774 (2007). [8] Papacz, W, Biogas as Vehicle Fuel, Journal of KONES Powertrain and Transport, vol. 18 No. 1, Poland, 2011. [9] Persson, M, Evaluasion of Upgrading Techniques for Biogas, Report SGC 142, Swedis, 2003 [10] Petersson dan Wellinger., “Biogas upgrading technologiesdevelopments and innovations”, Swedishgas Centre and Nova Energie, Sweden and Switzerland, 2009. [11] Syamsiah S dkk, Final Report Demostration Project Biogas from fruit wastes in Indonesia, 2011. [12] Warrant, Katie., Techno-economic comparison of biogas upgrading technologies in Europe, thesis of master, university of jyvaskyla, 2012 [13] Young Xia, Hairong Yuan, Yunzhi Pang, Shulin Chen, Baoning Zhu, Dexun Zou, Jingwei Ma, Liang Yu, Xiujin Li., CO2 Removal from Biogas by Water Washing System, Chinese Journal of Chemical Engineering, Vol 22, pp. 950-953, 2014.in_ID
dc.identifier.issn2470-4330
dc.identifier.urihttp://hdl.handle.net/11617/6558
dc.description.abstractFor vehicle fuelapplication,biogas need to have high energy content. So, the gas has to be upgraded. The value of energy in the biogas is in direct proportion to the methane concentration. Raw biogas produced by anaerobic digester has methane content about 50-60% and carbon dioxide as main contaminant at 40-50% of volume. The methane content in biogas can be upgraded by carbon dioxide removal process. In contrary, carbon dioxide removal process need cost addition of biogas production. It is important to have an optimized biogas upgrading process in term of low energy consumption and high efficiency giving high methane content in biogas. On the other hand, it is very important to minimize emission of methane from upgrading process because methane have a greenhouse gas effect 23 times greater than carbon dioxide.Water scrubbing is simplest and cheapest technology to produce bio methane using biogas upgrading process.The best control process scenario need to keep the process work in optimal condition. But fluctuation of flow and concentration in biogas produced by anaerobic digester make difficultupgrading process control. By sensitivity analysis study, control scenario for this process can decided in the best way.in_ID
dc.language.isoen_USin_ID
dc.publisherUniversitas Muhammadiyah Surakartain_ID
dc.subjectbiogasin_ID
dc.subjectcarbon dioxide removalin_ID
dc.subjectsensitivity analysisin_ID
dc.subjectupgrading biogasin_ID
dc.subjectwater scrubbingin_ID
dc.titleSensitivity Analysis of Water Scrubbing Process for Biogas Purificationin_ID
dc.typeArticlein_ID


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