산업 폐수에서 중금속 침전

화학 침전으로 폐수에서 독성 금속 제거하기

Environmental & Water Treatment Global Industrial Scale $2 billion

개요

Chemical precipitation is the most widely used method for removing dissolved heavy metals (Cu, Zn, Ni, Cr, Pb, Cd) from industrial wastewater. By raising the pH with lime (Ca(OH)2) or sodium hydroxide (NaOH), dissolved metal ions form insoluble metal hydroxides that can be separated by sedimentation and filtration. Metal finishing, electronics manufacturing, mining, and battery recycling industries generate heavy metal wastewater requiring treatment before discharge. Discharge limits are typically in the low mg/L or ug/L range.

화학 공정

Acidic metal-bearing wastewater is first treated for chromium reduction (Cr6+ to Cr3+ using sodium metabisulfite at pH 2-3). The pH is then raised to 8.5-9.5 using lime or NaOH, precipitating metal hydroxides. Polymer flocculant (anionic polyacrylamide) is added to agglomerate fine precipitates. The sludge settles in a clarifier, is dewatered by filter press, and disposed of as hazardous waste or sent for metals recovery. Polishing by sand filtration or ion exchange achieves discharge-quality effluent.

Cr2O72- + 3Na2S2O5 + 5H2SO4 -> Cr2(SO4)3 + 3Na2SO4 + 3SO2 + 5H2O (Cr6+ reduction at pH 2-3)
Cu2+ + 2OH- -> Cu(OH)2 (precipitation, Ksp = 2.2 x 10^-20)
Zn2+ + 2OH- -> Zn(OH)2 (Ksp = 3 x 10^-17)
Multiple metals co-precipitate as mixed hydroxide sludge

원자재

  • Calcium hydroxide (Ca(OH)2, lime) — Lime kiln (slaked lime) (pH adjustment and metal precipitation agent)
  • Sodium metabisulfite (Na2S2O5) — Chemical synthesis (Chromium(VI) reduction agent)
  • Anionic polyacrylamide flocculant — Polymer synthesis (Sludge flocculation and dewatering aid)

최종 제품

  • Treated effluent meeting discharge standards — Sewer discharge or water reuse (Metals <0.1-1.0 mg/L depending on jurisdiction)
  • Metal hydroxide sludge — Metals recovery or hazardous waste disposal (Contains 20-60% solids after filter press dewatering)
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Environmental Impact

Chemical precipitation generates hazardous metal hydroxide sludge requiring proper disposal or stabilization. Excess lime addition increases sludge volume. The process does not destroy metals -- it concentrates them for disposal or recovery. Metals recovery from sludge by hydrometallurgical processes is increasingly practiced to create a circular economy and reduce landfill burden.

안전 고려사항

최근 혁신

Sulfide precipitation (using Na2S or FeS) achieves lower residual metal concentrations than hydroxide precipitation.
Organothiol-based chelating agents selectively remove metals in the presence of complexing agents (EDTA, citrate).
Electrocoagulation generates coagulant in situ without chemical addition.
Zero-liquid-discharge systems recover both water and metals.

더 보기: Environmental & Water Treatment

Frequently Asked Questions

What industry uses 산업 폐수에서 중금속 침전?
산업 폐수에서 중금속 침전 is used in the environmental & water treatment sector at global industrial scale scale.
What process is involved in 산업 폐수에서 중금속 침전?
Acidic metal-bearing wastewater is first treated for chromium reduction (Cr6+ to Cr3+ using sodium metabisulfite at pH 2-3). The pH is then raised to 8.5-9.5 using lime or NaOH, precipitating metal hydroxides. Polymer flocculant (anionic polyacrylamide) is added to agglomerate fine precipitates. The
What is the economic significance of 산업 폐수에서 중금속 침전?
산업 폐수에서 중금속 침전 has a market value of $2 billion.
What is the environmental impact of 산업 폐수에서 중금속 침전?
Chemical precipitation generates hazardous metal hydroxide sludge requiring proper disposal or stabilization. Excess lime addition increases sludge volume. The process does not destroy metals -- it concentrates them for disposal or recovery. Metals recovery from sludge by hydrometallurgical processe
What raw materials are used in 산업 폐수에서 중금속 침전?
The main raw materials include: Calcium hydroxide (Ca(OH)2, lime), Sodium metabisulfite (Na2S2O5), Anionic polyacrylamide flocculant.