"Proudly based in Indonesia, serve globally"
PT Indofurnace – Coconut Shell Activated Carbon Manufacturer
ABOUT US
History
PT Indofurnace, a foreign investment company (PMA) based in Indonesia, has developed a comprehensive profile in various industrial sectors since its establishment in 2013. Recognizing the growing demand and opportunities in activated carbon, PT Indofurnace diversified its operations by installing an activated carbon production line. This move allowed the company to expand its product range and cater to industries such as water treatment, biogas purification, gold extraction, air and oil purification, and potentially aerospace applications.
ACTIVATED CARBON
PARAMETERS
- Iodine Adsorption Value: Measures the specific surface area of activated carbon by its ability to adsorb iodine. It is typically expressed in milligrams of iodine adsorbed per gram of carbon (mg/g). Higher values indicate a larger surface area and greater adsorption capacity.
- Ash Content: The amount of inorganic residue left after the combustion of activated carbon. Low ash content is preferred in many applications to minimize impurities.
- Moisture Content: The percentage of water present in activated carbon. Low moisture content is desirable for stable performance in adsorption applications.
- Strength: Refers to the mechanical strength of activated carbon particles. It affects handling and durability during processes such as packing into filters or columns.
- pH Value: The acidity or alkalinity of activated carbon affects its performance in adsorbing acidic or basic substances. pH stability is crucial in applications where the carbon is exposed to varying pH conditions.
- Particle Size (Mesh): Activated carbon is categorized by particle size, typically in mesh sizes ranging from coarse to fine. Particle size influences flow rate and efficiency in different applications.
Additional Specific Parameters:
- CTC (Carbon Tetrachloride) Activity: This parameter measures the adsorption capacity of activated carbon for organic molecules, specifically carbon tetrachloride. It indicates the carbon’s ability to adsorb organic contaminants in aqueous and gas phases.
- Methylene Blue Adsorption: Also known as MB adsorption, it is another measure of the porosity and surface area of activated carbon. It assesses the carbon’s ability to adsorb organic compounds and colorants from liquids.
OUR
Factory Facilites
- Vibration Sieving Machine
- Rotary Furnace & Cooling Tower
- Crushing Separator Machine
- Packaging Platform
- Laboratory
PRODUCT SPECIFICATION
Activated Carbon for Water Treatment
Water treatment is the process of making water suitable for its intended use, whether for drinking, industrial processes, or environmental management. This process involves removing contaminants and undesirable components to ensure water quality. Common techniques include filtration, sedimentation, and disinfection. Effective water treatment is crucial for maintaining public health and supporting sustainable ecosystems.
Item | FWCW-1000 |
I odine Adsorption Value mg/g ≥ | 1000 |
Ash content % ≤ | 5 |
Moisture % ≤ | 10 |
Strength % ≥ | 98 |
PH value | 7-9 |
Particle size mesh | 10-24 |
Application | Water Purification |
Activated Carbon for Gold Recovery
Gold recovery involves extracting gold from various sources such as ore, scrap, and electronic waste. This process often includes crushing, milling, and chemical treatment to separate gold from other materials. Techniques like cyanidation and mercury amalgamation are commonly used in gold recovery operations. Efficient gold recovery methods are essential for maximizing yield and minimizing environmental impact.
Item | FWCG-1100 |
Iodine Adsorption Value mg/g ≥ | 1100 |
Ash content % ≤ | 5 |
Moisture % ≤ | 10 |
Strength % ≥ | 98 |
PH value | 7-9 |
Particle size mesh | 6-12 |
Application | Gold Extraction |
Activated Carbon for Hydrogen Filtration
Hydrogen filtration is the process of purifying hydrogen gas to remove impurities and contaminants. This is crucial for applications in fuel cells, industrial processes, and hydrogen storage. Advanced filtration systems use membranes and adsorption techniques to achieve high purity levels. Ensuring the purity of hydrogen is vital for the efficiency and longevity of hydrogen-based technologies.
Item | FWCH-1200 |
I odine Adsorption Value mg/g ≥ | 1200 |
Ash content % ≤ | 0.5 |
Moisture % ≤ | 10 |
Strength % ≥ | 98 |
PH value | 7-9 |
Particle size mesh | 4-10 |
Application | Hydrogen purification |
Activated Carbon for Oil Purification
Oil purification involves removing contaminants from oil to enhance its quality and performance. This process is essential in industries such as automotive, manufacturing, and power generation. Techniques like centrifugation, filtration, and chemical treatment are commonly employed. Effective oil purification extends the life of machinery and improves operational efficiency.
Activated Carbon for Special Uses
Special uses refer to unique and specific applications of technologies or processes tailored to particular needs. These may include specialized filtration systems for medical devices, custom purification processes for research labs, or bespoke recovery techniques for rare materials. Addressing special uses requires innovation and adaptation to meet stringent requirements and achieve optimal results.
Item | FWCS-1400 |
I odine Adsorption Value mg/g ≥ | 1400 |
Ash content % ≤ | 2 |
Moisture % ≤ | 3 |
Strength % ≥ | 95 |
PH value | 6-9 |
Particle size mesh | 6-12 |
Application | Aerospace, Capacitive |
FWCW-1000 (Water Purification)
Item | FWCW-1000 |
I odine Adsorption Value mg/g ≥ | 1000 |
Ash content % ≤ | 5 |
Moisture % ≤ | 10 |
Strength % ≥ | 98 |
PH value | 7-9 |
Particle size mesh | 10-24 |
Application | Water Purification |
FWCG-1100 (Gold Extraction)
Item | FWCG-1100 |
Iodine Adsorption Value mg/g ≥ | 1100 |
Ash content % ≤ | 5 |
Moisture % ≤ | 10 |
Strength % ≥ | 98 |
PH value | 7-9 |
Particle size mesh | 6-12 |
Application | Gold Extraction |
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