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dc.contributor.authorPurnama, Herry
dc.contributor.authorWidayatno, Tri
dc.contributor.authorErawati, Emi
dc.contributor.authorBasuntoro, Wasprad Y.
dc.contributor.authorPutri, Fitriyani A.
dc.date.accessioned2016-02-05T03:33:42Z
dc.date.available2016-02-05T03:33:42Z
dc.date.issued2015-10-15
dc.identifier.citation[1] Suslick, K. S. (1990). "Sonochemistry". Science 247: 1439–1445. [2] Suslick, K. S.; Flannigan, D. J. (2008). "Inside a Collapsing Bubble, Sonoluminescence and Conditions during Cavitation". Annual Rev. Phys. Chem. 59: 659–683. [3] Suslick, Kenneth S. (February 1989). The Chemical Effects of Ultrasound. Scientific American. pp.62-68 (p.62) [4] Santos, H. Miguel, Lodeiro, C., Capelo-Martinez, J., 2009, The Power of Ultrasound, in Ultrasound in Chemistry: Analytical Application, Wiley CH, Weinheim. [5] Mason, T.J., 1992, Practical Sonochemistry: User’s Guide to Applications in Chemistry and Chemical Engineering, Ellis Horwood Ltd, New York [6] Mason, T.J., 2000, Sonochemistry, Oxford Chemistry Primers, Oxford, UK [7] Ashokkumar, M., Lee, J., Kentish, S. and Grieser, F., 2007, Bubbles in acoustic field: An overview, Ultrasonics Sonochemistry, 14: 470-475 [8] Auerbach, S., Carrado, K., and Dutta, P., 2003, “Hand book of zeolite science and technology”, Marcel Dekker, Inc., New York [9] Wu, D., Zhang, B., Yan, L., Kong, H., Wang, X., 2006, Effect of some additives on synthesis of zeolite from coal fly ash, International Journal of Mineral Processing, 80, 266-272 [10] Andac, O., Tatlıer, M., Sirkecioglu, A., Ece, I., Erdem-Senatalar, A., 2005, Effect of ultrasound on zeolite-A synthesis, Microporous andMesoporous Materials, 79(1–3), 225-233 [11] Rainey, Thomas J (2009). A study of the permeability and compressibility properties of bagasse pulp. Brisbane, Australia: Queensland University of Technology. [12] Fungaro, Denise Alves, Thais Vitória da Silva Reis, 2014, Use of sugarcane straw ash for zeolite synthesis, International Journal ofEnergy and Environment, Volume 5, Issue 5, 2014 pp.559-566. [13] Le Blond J.S., Horwell C.J., Williamson B.J., Oppenheimer C. Generation of crystalline silica from sugarcane burning. J Environ Monit. 2010, 12, 1459-70.in_ID
dc.identifier.issn2470-4330
dc.identifier.urihttp://hdl.handle.net/11617/6561
dc.description.abstractIndonesia has many sugar industries to fulfill the need of sugar consumption on its huge population and all of the sugar industries use sugarcane as raw materials. In the milling process, the side product bagasse will be generated after the sugar solution (molasses) is separated. The amount of bagasse is relatively in huge number,approximately 30% of the sugarcane crushed.The utilization of bagasse unfortunately has not been exploited economically. Since the bagasse has a high silica content, it is enable to be treated to produce synthetic zeolites.There are some methods to produce synthetic zeolites, for example by hydrothermal process, utilizing microwave, or ultrasonication. Sonication technique has been applied to develop the manufacturing of synthetic zeolites. This method utilizing ultrasonication waves with a frequency of about 20 kHz for mixing of aluminate and silicate solutions to form a homogeneous mixture. The sonication technique has a better performance when compared with the hydrothermal technique. The process is simpler and not too much chemical wastes. This technique is also safer compared with microwave technique. The effect of ultrasound has been investigated for various operational conditions, temperature of 60, 70, and 80oC combined with 30, 60, 90 and 120 minutes of sonication. At this step, the characteristics of synthetic zeolites from bagasse sugarcanehas been tested for crystalline structure by X-Ray Diffraction (XRD). The next step for characterization will include analyzing of molecular bond using spectroscopic method of Fourier transform infrared (FTIR), and also the characterization of surface area by using BET surface area analyzer. The manufacturing process of synthetic zeolites from bagasse by using sonication technique has been successfully produced. The optimum conditions to synthesize zeolites were shown by diffraction curve of zeolite crystalline at higher temperature and longer time of sonication.in_ID
dc.language.isoen_USin_ID
dc.publisherUniversitas Muhammadiyah Surakartain_ID
dc.subjectbagassein_ID
dc.subjectsonicationin_ID
dc.subjectsynthetic zeolytesin_ID
dc.subjectultrasoundin_ID
dc.titleSonication Technique on the Manufacturing of Synthetic Zeolites from Bagassein_ID
dc.typeArticlein_ID


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