The Use of PT Petro Kimia’s by-Product Gypsum as Fill Materials

IPTEK Journal of Proceedings Series Pub Date : 2021-10-15 DOI:10.12962/j23546026.y2020i6.11087

Raditya Widiatama, I. B. Mochtar, N. E. Mochtar

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Abstract

factory PT Gresik Petrochemicals; it is produced around 1,200,000 tons/year. In order to reduce the amount, an effort needed to use gypsum as fill materials. For this purpose, the problem needs to be considered is that gypsum should not contain substances that harmful to the environment and meet the fill materials requirements. In order to answer all these questions, chemical tests were carried out to determine its heavy metal content. Gypsum plasticity and its particle size distribution were determined by conducting Atterberg limit and sieve analysis tests. Compaction test and CBR test were also carried out to determine the density and its strength. Those results were then analyzed using "The Fifteen Point Method" to obtain a relationship curve between dry density (d) and soakedCBR. This curve was important to determine the soaked-CBR that can be achieved by gypsum materials in the field with different compaction energy 90%, 95%, and 100% of maximum compaction energy. Chemical test result shows that all heavy metals content in gypsum material are far below the regulatory limit; therefore, it is safe for the environment. Besides, Gypsum is non-plastic (NP) material and it is classified as A-4 (AASHTO) or SM (USCS); it means that Gypsum is very good for fill materials and safe to the environment. In addition, the result from the Fifteen Point Method shows that the minimum soaked CBR value is 13% achieved by using 90% of maximum compaction energy with 30-40 % of water content. It means that the gypsum material can be used as selected fill material because it fulfils its requirement where IP<6% and soaked CBR>10%.

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PT Petro Kimia副产石膏作为填料的应用

工厂PT Gresik石化;年产量约为120万吨。为了减少其数量，需要努力使用石膏作为填充材料。为此，需要考虑的问题是石膏不应含有对环境有害的物质，并满足填充料要求。为了回答所有这些问题，进行了化学测试以确定其重金属含量。通过阿特伯格极限和筛分试验确定了石膏的塑性和粒度分布。并进行了压实试验和CBR试验，以确定其密度和强度。然后使用“十五点法”对这些结果进行分析，以获得干密度(d)与浸渍cbr之间的关系曲线。这条曲线对于确定石膏材料在最大压实能量为90%、95%和100%的情况下在现场所能达到的浸水cbr具有重要意义。化学检测结果表明，石膏材料中所有重金属含量均远低于规定限值;因此，它对环境是安全的。此外，石膏属于非塑性材料(NP)，属于A-4 (AASHTO)或SM (USCS);这意味着石膏是非常好的填充材料，对环境是安全的。此外，十五点法的结果表明，在含水量为30- 40%的情况下，使用最大压实能量的90%可获得最小浸渍CBR值为13%。这意味着石膏材料可以作为选择的填充材料，因为它满足IP10%的要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IPTEK Journal of Proceedings Series

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