ANALISA KADAR Fe DENGAN METODE PERMANGANOMETRI MENGGUNAKAN RESIN PENUKAR ION (ION EXCHANGER) DALAM AIR SUNGAI BANJARSARI (Fe Content Analysis with Permanganometry Method Using an Ion Exchanger Resin as A Filter Media in River Water Banjarsari )

ANALISA KADAR Fe DENGAN METODE PERMANGANOMETRI MENGGUNAKAN RESIN PENUKAR ION (ION EXCHANGER) DALAM AIR SUNGAI BANJARSARI (Fe Content Analysis with Permanganometry Method Using an Ion Exchanger Resin as A Filter Media in River Water Banjarsari )

According to Erlinda (2014), in general, the iron in the water can be dissolved as a salt compound ferric (Fe 3+) or salt ferrous (Fe 2+) were suspended as the grains of colloidal (diameter <1) and incorporated with organic substances or inorganic solid. Fe is an essential heavy metals, which in...

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Main Author: MINTARI, DEWI (Author)
Format: Academic Paper
Published: 2015.
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NonPeerReviewed
Online Access:http://eprints.undip.ac.id/47835/
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Summary:According to Erlinda (2014), in general, the iron in the water can be dissolved as a salt compound ferric (Fe 3+) or salt ferrous (Fe 2+) were suspended as the grains of colloidal (diameter <1) and incorporated with organic substances or inorganic solid. Fe is an essential heavy metals, which in some measure is needed by the human body, but excessive levels may cause toxic effects. Ion exchange resin or ion exchange resin can be defined as polymerized hydrocarbon compounds, containing crosslinking (crosslinking) as well as functional groups that have ions that can be exchanged. The principle of ion exchanger is in the process of insoluble compounds, in this case the resin, received a positive or negative ions from solution and release certain other ions into the solution in an amount equivalent to the same. If the ions are exchanged in the form of a cation, then the resin is called cation exchange resin, and if ions are exchanged in the form of anion, the resin is called an anion exchange resin. The series of ion exchangers tool consists of three tanks, the tank cation exchanger, anion exchanger tank, and activated carbon tanks, each of which is made of FRP. At the top of the tank there is a way valve to the filter, fast rinse and back wash. The method used in the analysis of Fe content is permanganometry the process of titration for determining the concentration of a reducing agent using an oxidant (KMnO4) as a standard solution. In this lab to test the Fe content is done by means of Ion Exchangers, with as much as 100 liters of water each variable. The variables used are the valve 1/3, 2/3, and 3/3. Time used for 30 minutes and take 10 ml of the sample in the tank cation, anion active and more carbon. Results of observations obtained tank Fe content of cations, anions, activated carbon 1/3 variable by 0,146%; 0.134%; 0.089%. At 2/3 variable of 0.207%; 0,201%; 0.185%. And the 3/3 variable of 0.347%; 0.325%; 0.274%. It can be concluded that the greatest reduction in Fe content occurs at the smallest aperture or variable valve 1/3. (Keywords : Levels of Fe, Ion Exchangers, resin)
Item Description:http://eprints.undip.ac.id/47835/1/COVER_DLL.pdf
http://eprints.undip.ac.id/47835/2/BAB_I.pdf
http://eprints.undip.ac.id/47835/3/BAB_II.pdf
http://eprints.undip.ac.id/47835/4/BAB_III.pdf
http://eprints.undip.ac.id/47835/5/BAB_IV.pdf
http://eprints.undip.ac.id/47835/6/BAB_V.pdf
http://eprints.undip.ac.id/47835/7/BAB_VI.pdf
http://eprints.undip.ac.id/47835/8/BAB_VII.pdf
http://eprints.undip.ac.id/47835/9/DAFTAR_PUSTAKA.pdf
http://eprints.undip.ac.id/47835/10/LAMPIRAN.pdf

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