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沼气活性炭

Buy Biogas Activated Carbon

Activated carbon is a necessary step in biogas purification, primarily to remove problematic contaminants. It has the ability to adsorb hydrogen sulfide (H₂S), which is a corrosive, poisonous gas, and several different siloxanes that produce damaging deposits upon combustion, both of which are critical to remove during the purification process. The crucial function of activated carbon depends on its large surface area for physical adsorption. There are also forms of activated carbon that are chemically impregnated and these conditions allow H₂S to be catalytically converted to inert products.
 
Activated carbon is employed in filter beds that treat corrosive raw biogas as it flows through the activated carbon by-products and exits the carbon filtration. Activated carbon not only removes potentially harmful H₂S and siloxanes, protecting downstream equipment (like engines), and allowing the use of fuel or injected biogas into the electrical grid; it also assists in the overall purification of biogas, and presents an added level of operational safety in biogas purification.
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行业挑战

Material Performance Limitations

  • Adsorption Selectivity: Activated carbon exhibits non-selective adsorption, capturing CO₂ and moisture alongside target contaminants like H₂S or siloxanes, reducing effective capacity for primary pollutants.
  • Pore Clogging: Particulates, oil mist, or tars in biogas physically block micropores ("pore poisoning"), diminishing surface area and adsorption efficiency over time.

Sensitivity to Operational Conditions

  • Humidity Interference: High moisture levels (>70% RH) compete with contaminants for adsorption sites, significantly lowering H₂S removal performance, especially in humid climates.
  • Temperature Instability: Elevated biogas temperatures (e.g., >40°C) reduce adsorption capacity and may trigger desorption of captured pollutants.

System Integration and Maintenance

  • Saturation Management: Finite adsorption capacity necessitates frequent carbon replacement or regeneration, risking pollutant "breakthrough" if not timely addressed.
  • Regeneration Complexity: Thermal/chemical regeneration is energy-intensive and may incompletely restore capacity or release trapped pollutants, requiring secondary treatment.

相关类型的活性炭

颗粒活性炭(粒状活性炭)

颗粒活性炭 (GAC)

  • 碘值: 600-1200
  • 网眼尺寸:1×4/4×8/8×16/8×30/12×40/20×40/20×50/30×60/40×70(可根据要求提供更多尺寸)
  • 表观密度400-700
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柱状活性炭

粒状活性炭

  • 碘值:500-1300
  • 网眼尺寸:0.9-1mm/1.5-2mm/3-4mm/6mm/8mm(可根据要求提供更多尺寸)
  • 表观密度450-600
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粉末活性炭(Powder activated carbon)

粉末活性炭

  • 碘值:500-1300
  • 网眼尺寸:150/200/300/350(可根据要求提供更多尺寸)
  • 表观密度:450 - 550
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蜂窝活性炭(蜂巢活性炭)

蜂窝活性炭

  • 碘值400-800
  • 网眼尺寸:100×100×100 毫米/100×100×50 毫米(可根据要求定制细胞密度)
  • 表观密度350-450
  • 孔径:1.5-8 毫米
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椰壳活性炭

  • 碘值:700-1200 毫克/克
  • 表面积:700-1200 平方米/克
  • 表观密度:320-550 公斤/立方米
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果壳活性炭

  • 碘值:700-1200 毫克/克
  • 表面积:700-1200 平方米/克
  • 表观密度:320-550 公斤/立方米
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煤基活性炭

煤基活性炭

  • 碘值:700-1200 毫克/克
  • 表面积:700-1200 平方米/克
  • 表观密度:300-650 公斤/立方米
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木质活性炭

  • 碘值:700-1200 毫克/克
  • 表面积:700-1200 平方米/克
  • 表观密度:320-550 公斤/立方米
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物理活性炭

  • 活化方法:高温蒸汽/气体活化
  • 孔隙结构:微孔为主,孔隙分布均匀
  • 环境简介:无化学物质,灰分含量低
  • 主要应用:气相吸附、饮用水净化
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化学活性炭

  • 活化方法:在中等温度下进行化学活化(如 H₃PO₄/ZnCl₂)。
  • 孔隙结构:介孔丰富,表面积较大
  • 工艺效率:活化时间更短,30-50% 产量更高
  • 后处理:需要进行酸洗以去除残留物
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浸渍活性炭

  • 功能化:添加活性剂(如 I₂/Ag/KOH)
  • 定向吸附:增强对特定污染物(如 Hg⁰/H₂S/酸性气体)的捕捉能力
  • 定制:针对目标污染物进行化学优化
  • 核心应用:工业气体处理、核生化防护
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为什么需要我们的活性炭

Enhanced Contaminant Selectivity:

Targeted adsorption for critical biogas impurities (H₂S, siloxanes) with minimal interference from CO₂ or moisture, maximizing effective capacity.

Advanced Material Engineering:

(1) Chemically optimized impregnation ensures catalytic H₂S conversion to harmless byproducts without frequent media replacement.
(2) Tailored pore structure prevents premature clogging and maintains high siloxane/VOC adsorption efficiency.

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Operational Resilience:

(1) Stable performance under high humidity (>70% RH) without pre-drying requirements.
(2) Consistent adsorption capacity across variable biogas temperatures and compositions.

Sustainable Lifecycle:

(1) Biomass-derived raw materials from renewable sources align with circular economy principles.
(2) Regenerable design extends service life and reduces waste generation.

execution (1)(1)

System Integration Support:

(1) Predictable saturation indicators enable proactive maintenance scheduling. (2) Reduced backpressure in filter beds lowers energy consumption for gas transfer.

工艺与技术

1. Hydrogen Sulfide (H₂S) Removal

解决方案概述

Chemically impregnated activated carbon catalytically converts toxic H₂S into harmless elemental sulfur through oxidation. Installed in fixed-bed filters where raw biogas flows through the carbon media.

主要优势

  • Prevents corrosion damage to engines and pipelines.
  • Maintains effectiveness in humid biogas environments.
  • Eliminates toxic gas emissions during energy generation.
  • Requires no chemical additives during operation.

2. Siloxane Removal

解决方案概述

High-surface-area activated carbon physically adsorbs siloxane compounds through its microporous structure. Implemented in adsorption towers upstream of combustion equipment.

主要优势

  • Prevents abrasive silica deposits in engines.
  • Extends maintenance intervals for generation equipment.
  • Maintains consistent energy output quality.
  • Handles variable biogas composition effectively.

3. Volatile Organic Compounds (VOCs) and Odor Control

解决方案概述

Activated carbon traps diverse organic compounds and odor-causing substances via physical adsorption. Used in final polishing stages before biogas utilization.

主要优势

  • Removes hazardous air pollutants.
  • Eliminates nuisance odors from biogas facilities.
  • Improves environmental compliance.
  • Enhances community acceptance of biogas projects.

4. Carbon Dioxide (CO₂) Capture for Biogas Upgrading

解决方案概述

Specially engineered activated carbon with tuned pore structures selectively adsorbs CO₂ from biogas streams. Deployed in pressure swing adsorption systems for methane enrichment.

主要优势

  • Produces pipeline-quality biomethane.
  • Utilizes sustainable biomass-derived carbon materials.
  • Enables grid injection of purified biogas.
  • Supports circular economy through waste valorization.

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