Heavy metal precipitation from sulfide produced from anaerobic sulfidogenic reactor

1. A substance is present in autolyzed pepsin solutions which stimulates the release of phage by some strains of S. muscae when added to Fildes' synthetic medium. 2. The substance is assayed by determining the quantity necessary to increase the phage yield to one-half the maximum value, using the one-step growth curve technique. 3. The substance has been concentrated and partially purified (500-fold) by heavy metal precipitation, butyl alcohol extraction, and absorption on norit. 4. No known amino acid or accessory growth substance tested could replace this substance.

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A pyridine-thiol ligand with multiple bonding sites for heavy metal precipitation

Journal of Hazardous Materials ◽

10.1016/s0304-3894(00)00353-8 ◽

2001 ◽

Vol 82 (1) ◽

pp. 55-63 ◽

Cited By ~ 55

Author(s):

Matthew M Matlock ◽

Brock S Howerton ◽

Kevin R Henke ◽

David A Atwood

Keyword(s):

Heavy Metal ◽

Multiple Bonding ◽

Metal Precipitation ◽

Thiol Ligand

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PRESIPITASI LOGAM BERAT LIMBAH CAIR LABORATORIUM MENGGUNAKAN NATRIUM SULFIDA DARI BELERANG ALAM

Jurnal Sains Natural ◽

10.31938/jsn.v10i2.283 ◽

2020 ◽

Vol 10 (2) ◽

pp. 61

Author(s):

Wisni Rona Anami ◽

Mamay Maslahat ◽

Dian Arrisujaya

Keyword(s):

Heavy Metals ◽

Heavy Metal ◽

Atomic Absorption ◽

Sodium Sulfide ◽

Precipitation Efficiency ◽

Metal Precipitation ◽

Initial Ph ◽

Sulphide Precipitation ◽

Optimal Efficiency ◽

Precipitation Phase

Precipitation of Laboratory Wastewater Heavy Metals by Natural Sulphur Sodium Sulfide Sodium sulfide (Na2S) from natural sulfur has been used for heavy metal precipitation from laboratory wastewater. Heavy metals in laboratory wastewater include mercury (Hg), lead (Pb), chromium (Cr) and zinc (Zn). Initial laboratory wastewater testing was performed by measuring the initial pH and the concentration of heavy metals in the wastewater prior to precipitation using the atomic absorption spectrophotometer. Sulphide precipitation phase consists of variations in the concentration of NaOH, time, temperature, and volume of dissolving Na2S. Parameters for the efficiency of Hg, Pb, Zn and Cr heavy metal precipitation were the initial pH, concentration and rate of stirring of the solution. Results showed that the optimum precipitation efficiency for Zn is achieved by using 10 % Na2S solution with an efficiency of 97.93 %. The most significant reduction in Cr and Hg was the use of 20 % Na2S solution with a precipitation efficiency of 99.24 % and 99.76 % respectively. The optimal efficiency for Pb with a 30 % Na2S solution was 99.68 %. Natural sulfur can reduce the levels of heavy metals in laboratory wastewater by precipitation.Key words: Natural sulfur, Heavy metals, Precipitation, Sodium sulfide, ABSTRAKPresipitasi logam berat dari limbah cair laboratorium telah dilakukan dengan menggunakan natrium sulfida (Na2S) dari belerang alam. Logam berat yang terkandung dalam limbah cair laboratorium diantaranya adalah merkuri (Hg), timbal (Pb), kromium (Cr) dan seng (Zn). Pengujian awal limbah laboratorium dilakukan dengan mengukur pH awal dan kadar logam berat yang terdapat dalam limbah sebelum presipitasi menggunakan pH meter dan spektrofotometer serapan atom. Tahapan presipitasi limbah oleh sulfida meliputi pembuatan variasi konsentrasi NaOH, waktu, suhu, dan volume pelarutan Na2S. Parameter efisiensi presipitasi logam Hg, Pb, Zn, dan Cr meliputi pH, Konsentrasi dan Kecepatan pengadukan. Hasil penelitian menunjukkan efisiensi pengendapan optimal untuk logam Zn terdapat pada penggunaan larutan Na2S 10% dengan efisiensi 97,93%. Larutan Na2S 20% paling banyak menurunkan logam Cr dan Hg dengan efisiensi masing-masing sebesar 99,24% dan99,76%. Efisiensi optimal untuk logam Pb berada pada penggunaan larutan Na2S 30% dengan efisiensi 99,68%. Belerang alam mampu menurunkan kadar logam berat dalam limbah cair laboratorium dengan metode presipitasi.Kata kunci: Belerang alam, Logam berat, Presipitasi, Natrium sulfida

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Co-Disposal of Municipal Refuse and Industrial Waste Sludge in Landfills

Water Science & Technology ◽

10.2166/wst.1986.0173 ◽

1986 ◽

Vol 18 (12) ◽

pp. 177-192 ◽

Cited By ~ 19

Author(s):

F. G. Pohland ◽

J. P. Gould

Keyword(s):

Heavy Metals ◽

Heavy Metal ◽

Industrial Waste ◽

Pilot Scale ◽

Inhibitory Effect ◽

Subsequent Removal ◽

Waste Sludge ◽

Metal Precipitation ◽

Waste Stabilization ◽

Municipal Refuse

The results of a 2-year pilot-scale investigation on the codisposal of heavy metal sludge with municipal refuse, under the influence of leachate containment and recycle, are used to illustrate and describe the effects of various metal loadings on the normal progress of waste stabilization and to assess associated assimulative capacity. Evidence of metal precipitation as sulfides or hydroxides and subsequent removal by filtration and sorption in the refuse mass was demonstrated. Conversely, the mobilization of heavy metals was shown to be enhanced by complexation with humic-like substances which also tended to reduce overall toxic effects. Whereas, high heavy metal loadings exhibited a clear inhibitory effect, a definite capacity for assimilation and acclimation at low to moderate levels was established.

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