Penggunaan Karbon Aktif di Settling Pond Pengolahan Bijih Emas di Desa Kutawaringin, Kecamatan Kutawaringin, Kabupaten Bandung, Provinsi Jawa Barat

Bandung Conference Series: Mining Engineering Pub Date : 2022-08-01 DOI:10.29313/bcsme.v2i2.3944

Gita Ashari Pratama, Linda Pulungan, Solihin

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Abstract

Abstract. Gold mining activities in Kutawaringin District, Bandung Regency are one example of the use of amalgamation methods in gold processing. Previous reports stated that the mercury content in the lower reaches of the Ciherang River was 0.2 mg/L [10]. Previous research stated that activated carbon can absorb up to 99%. This research is focused on settling pond to reduce mercury levels in gold processing waste when it will be flowed into the river. Initial sample testing showed that mercury content was 0.07984 mg/L, above the water quality standard threshold of 0.005 mg/L, TDS was 443 mg/L and pH was 7.86. The research was conducted using activated carbon weight test variables 2, 3, 4, 5, 6, 7 grams with contact times of 3, 4, 5, 6, 7, 8, and 9 hours for 1 liter gold processing waste samples. The test results showed the highest decrease in mercury levels in the variable weight of activated carbon 6 grams with a contact time of 8 hours of 0.00337 mg/L. The use of activated carbon in the settling pond by adjusting the volume of the settling pond at the research location was 0.891 m3 with a variable weight of 5.3 kg and a contact time of 8 hours to obtain a result of 0.000433 mg/L with a percentage decrease of 99.46%. Abstrak. Kegiatan penambangan emas di Kecamatan Kutawaringin, Kabupaten Bandung merupakan salah satu contoh penggunaan metode amalgamasi dalam pengolahan emas. Laporan terdahulu menyebutkan kandungan merkuri di hilir Sungai Ciherang sebesar 0,2 mg/L [10]. Penelitian sebelumnya menyebutkan bahwa karbon aktif dapat menyerap hingga 99%. Penelitian ini difokuskan pada settling pond untuk mengurangi kadar merkuri pada limbah hasil pengolahan emas ketika akan dialirkan ke sungai. Pengujian sampel awal didapatkan hasil kandungan logam merkuri sebesar 0,07984 mg/L, di atas nilai ambang batas baku mutu air yakni sebesar 0,005 mg/L, TDS sebesar 443 mg/L dan pH sebesar 7,86. Penelitian dilakukan menggunakan variabel uji berat karbon aktif 2, 3, 4, 5, 6, 7 gram dengan waktu kontak yakni 3, 4, 5, 6, 7, 8, dan 9 jam untuk sampel limbah pengolahan emas sebanyak 1 Liter. Hasil pengujian menunjukkan penurunan kadar merkuri tertinggi pada variabel berat karbon aktif 6 gram dengan waktu kontak 8 jam sebesar 0,00337 mg/L. Penggunaan karbon aktif pada settling pond dengan menyesuaikan volume settling pond lokasi penelitian sebesar 0,891 m3 dengan variabel berat 5,3 kg dan waktu kontak 8 jam mendapatkan hasil sebesar 0,000433 mg/L dengan persentase penurunan sebesar 99,46 %.

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摘要。万隆县库塔瓦林金区的金矿开采活动是在黄金加工中使用汞化方法的一个例子。已有报道称慈和让河下游汞含量为0.2 mg/L[10]。此前的研究表明，活性炭的吸收率可达99%。本研究的重点是沉降池，以降低金加工废物流入河流时的汞含量。初步样品检测显示，汞含量为0.07984 mg/L，高于水质标准阈值0.005 mg/L, TDS为443 mg/L, pH为7.86。采用活性炭重量测试变量2、3、4、5、6、7 g，接触时间分别为3、4、5、6、7、8、9小时，对1升黄金加工废弃物样品进行研究。试验结果表明，在接触时间为8小时、重量为6克的活性炭中，汞含量下降幅度最大，为0.00337 mg/L。通过调节研究地点沉淀池的体积为0.891 m3，重量为5.3 kg，接触时间为8小时，得到的结果为0.000433 mg/L，降低率为99.46%。Abstrak。我的意思是，我的意思是我的意思是我的意思是我的意思是我的意思是我的意思是我的意思。拉波兰terdahulu menyebutkan kandungan merkuri di hilir Sungai Ciherang sebesar 0,2 mg/L[10]。Penelitian sebelumnya menyebutkan bahwa carbon aktif dapatmenyerap hingga 99%。Penelitian ini difokuskan pada沉降池untuk mengurangi kadar merkuri pada limbah hasil pengolahan emas ketika akan dialirkan ke sungai。企鹅样品awal didapatkan hasil kandungan logam merkuri sebesar 0,07984 mg/L，数据nilai ambang batas baku mutu air yakni sebesar 0,005 mg/L, TDS sebesar 443 mg/L和pH sebesar 7,86。Penelitian dilakukan menggunakan变量uji berat碳aktif 2,3,4,5,6,7克dengan waktu kontak yakni 3,4,5,6,7,8, dan 9 jam untuk样品limbah pengolahan emas sebanyak 1升。Hasil penguin menunjukkan penurunan kadar merkuri tertingi paada可变碳含量6克登克瓦克康塔克8 jam sebesar 0.00337毫克/升。彭家南碳沉降池dengan menyesuaikan体积沉降池lokasi penelitian sebesar 0,891 m3 dengan变量为5,3 kg dan waktu kontak 8 jam mendapatkan hasil sebesar 0,000433 mg/L dengan penurunan sebesar 99,46%。

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Bandung Conference Series: Mining Engineering

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