羊骨废活性炭作为井水中锰重金属吸附剂的应用

Elkawnie Pub Date : 2022-01-17 DOI:10.22373/ekw.v7i2.9586
S. Wardani, S. Savitri, Firda Mawardah, M. Adham, L. Lindawati
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引用次数: 0

摘要

摘要:骨是一种含有有机和无机成分的牲畜废弃物。它由69%的有机化合物组成,用作活性炭制造的原料。该研究旨在将羊骨废物加工成活性炭产品,以吸收钻孔水中的锰重金属。本研究通过炭化、活化和表征进行。将羊骨废碳化,700℃加热1小时,活化。测定了山羊骨活性炭在5 g、10 g、15 g、接触时间15和30分钟的不同重量下对锰重金属的吸收。采用近似测试、傅里叶变换红外光谱(FT-IR)和扫描电镜(SEM)对所得羊骨废炭进行了表征。结果表明,羊骨活性炭的含水量为2%,灰分含量为7%,挥发物含量为10%,固定碳含量为87%,碘吸收率为968 mg/g。这些值仍然满足SNI 06-3730-1995和SNI 06-4253-1996中规定的要求。傅里叶红外光谱(FTIR)分析得到C -H、C=C、C=H、CºC、N-H和O-H等官能团。扫描电子显微镜(SEM)测试结果发现活性炭的孔径为5200 mm × 12952 mm。井水对锰类重金属的吸附效率为99.707% ~ 99.821%。摘要:Tulang merupakan limbah hasil peternakan yang pemanfaatannya belum maksimal。Tulang tersusun dari senyawa organik sebesar yang dapat dijadikan bahan baku pembuatan arang aktif。Penelitian bertujuan mengolah limbah tulang kambing menjadi产品,arang aktif yang mampu menyap logam, mangan pada air sumur bor。方法penelitian meliputi tahap karbonisasi tulang, tahap aktivasi arang paada suhu 700 oC selama 1 jam, tahap penyerapan logam berat mangan mengunakan variasi berat arang aktif tulang kambing 5 g, 10 g, 15 g, dengan waktu kontak 15 dan 30 menit dantahap分析meliputi uji proksimat, uji gugus真菌,danuji形态。哈苏吉proksimsimmenunjukkan nilai卡达尔空气2%,卡达尔约7%,挥发物10%,固定碳87%,daya serap yodium 968 mg/g masimemuhi SNI 06-3730- 1995和SNI 06-4253-1996。Uji FTIR menghasilkan gugus fungus C -H, C=C, C=H, CºC, N-H和O-H。企鹅SEM menghasilkan直径为5,200 mm × 12,952 mm。Efesiensi penyerapan logam - mangan - air - sumur - berkisar - 99,707% - 99,821%。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Application of Goat Bone Waste Activated Charcoal As Manganese Heavy Metal Absorbent in Borehole Water
Abstract: Bone is a waste from livestock that contains both organic and inorganic components. It consists of 69% organic compounds used as raw materials for activated charcoal manufacturing. The research aimed to process goat bone waste into activated charcoal products to absorb manganese-heavy metals in borehole water. This research was conducted through carbonization, activation, and characterization. The goat bone waste was carbonized and heated at 700oC for 1 hour, followed by activation. The absorption of manganese-heavy metal was determined by variating the weight of goat bone activated charcoal in 5 g, 10 g, 15 g with a contact time of 15 and 30 minutes. The goat bone waste charcoal obtained was characterized by proximate test, Fourier  Transform  Infrared  Spectroscopy  (FT-IR), and Scanning  Electron  Microscopy  (SEM). The results showed that goat bone activated charcoal has a water content value of 2%, ash content of 7%, volatile matter of 10%, fixed carbon 87%, and iodine absorption of 968 mg/g. These values still meet the requirement specified in SNI 06-3730-1995 and SNI 06-4253-1996. The Fourier Transform Infrared Spectroscopy (FTIR) analysis produced functions groups of C–H, C=C, C=H, CºC, N-H dan O–H. The Scanning Electron Microscopy (SEM) test results found an active charcoal pore diameter of 5,200 mm x 12,952 mm. The efficiency of manganese heavy metals absorption in borehole water ranges from 99.707% - 99.821%.Abstrak: Tulang merupakan limbah hasil peternakan yang pemanfaatannya belum maksimal. Tulang tersusun dari senyawa organik sebesar 69% yang dapat dijadikan bahan baku pembuatan arang aktif. Penelitian bertujuan mengolah limbah tulang kambing menjadi produk arang aktif yang mampu menyerap logam berat mangan pada air sumur bor. Metode penelitian meliputi tahap karbonisasi tulang, tahap aktivasi arang pada suhu 700 oC selama 1 jam, tahap penyerapan logam berat mangan mengunakan variasi berat arang aktif tulang kambing 5 g, 10 g, 15 g dengan waktu kontak 15 dan 30 menit dan tahap analisis meliputi uji proksimat, uji gugus fungsi dan uji morfologi. Hasil uji proksimat menunjukkan nilai kadar air 2%, kadar abu 7%, volatile matter 10%, fixed karbon 87 %, daya serap yodium 968 mg/g masih memenuhi SNI 06-3730- 1995 dan SNI 06-4253-1996. Uji FTIR menghasilkan gugus fungsi C–H, C=C, C=H, CºC, N-H dan O–H. Pengujian SEM menghasilkan diameter pori arang aktif sebesar 5,200 mm x 12,952 mm. Efesiensi penyerapan logam berat mangan pada air sumur bor berkisar pada 99,707% - 99,821%.
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