Container
Neutralization
Real-Time
Covers
Vapours, Fumes & Liquids
Ready to use
No water required
Safe
Non-Toxic, Non-Corrosive
Description
FAST-ACT is a powerful chemical neutralization system specially designed to make containers safer for storing or transporting hazardous materials. It is made using a unique combination of metal oxides — magnesium oxide (MgO) and titanium dioxide (TiO₂) — that together create a strong and non-toxic formula. The final particles are about 5μm in size and have a large surface area, which allows FAST-ACT to react quickly and absorb harmful vapors or liquids inside chemical containers. Because of its high porosity and stability, it works effectively in both storage and transport conditions, ensuring that chemicals inside containers remain neutralized and safe.
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FAST-ACT is widely used in chemical storage containers, emergency containment systems, and transport units to prevent leaks and control accidental releases. Its formulation makes it ideal for industries that handle toxic or corrosive substances, offering fast and reliable protection. Whether you’re storing chemicals for industrial use or managing hazardous waste, FAST-ACT helps keep your containers and surroundings safe from potential chemical hazards.
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How Does It Work?
FAST-ACT works through a process called destructive adsorption, where it doesn’t just trap harmful chemicals—it destroys them. The nanomaterial particles in FAST-ACT have an incomplete molecular structure that naturally attracts reactive substances. When it comes in contact with a toxic chemical, it forms an ionic bond with the chemical’s ions, breaking down the harmful compound into harmless by-products. This makes the system extremely effective for use in chemical containers where liquid or vapor leaks can occur.
In simple terms, FAST-ACT acts like a magnet for dangerous chemicals—it binds, reacts, and neutralizes them instantly. For example, when FAST-ACT comes into contact with hydrogen sulfide (H₂S), it reacts to form magnesium sulfide (MgS), a non-toxic and stable residue that can be easily and safely disposed of. This process ensures that chemicals stored or transported in containers are neutralized on contact, keeping both people and the environment safe.
| Neutralisation | Adsorption | Non Effective | ||
|---|---|---|---|---|
| CORROSIVE MATERIALS | VAPOUR HAZARDS | LIQUID SOLVENT SPILL | ||
| ACIDS | HALOGEN / HALIDES | ACIDS & CAUSTIC GASES | ALCOHOLS / PHENOLS | BIOLOGICALS |
| Inorganic and Organic | Acetyl Chloride | Hydrogen Chloride | Ethanol | Bacteria |
| Hydrochloric Acid | Chloroacetyl Chloride | Hydrogen Fluoride | Methanol | Viruses |
| Hydrofluoric Acid | Chlorine | Hydrogen Bromide | Allyl Alcohol | Spores |
| Nitric Acid | Chloroform | Nox/N204 | Nltrophenols | NUCLEAR |
| Phosphoric Acid | Hydrogen Bromide | Sulphur Dioxide | Chlorophenols | RADIOLOGICAL |
| Sulphuric Acid | Cyanogen Chloride | - | - | HEAVY METALS |
| Acetic Acid | Methylene Chloride | HALOGENS | CAUSTICS | SOLID WASTE |
| Methanesulfonic Acid | Carbon Tetrachloride | Chloride | Metal Hydroxides (aq) | - |
| Ethanesulfonic Acid | TCE, PCE | Bromine | - | - |
| Benzenesulfonic Acid | - | Iodine | PETROCHEMICALS | - |
| Toluenesulfonic Acid | PHOSPHORUS | - | Diesel | - |
| Hydrogen sulfide (H2S) | Pesticides | VOLATILE ORGANICS | Gasoline | - |
| - | DimethylmethylPhosphnate | Methyl Mercaption | Olis | - |
| BIS (2-CHLOROETHYL) SULFIDE | Paraoxon | Ethylene Oxide | - | - |
| - | Parathion | Formaldehyde | OTHERS | - |
| PINACOLYL | - | Phosgene | Acrylonltrlle | |
| METHYLPHOSPHONOF LUORIDAT | SULPHUR | Arsine | Benzene | - |
| - | 2-Chloroethyl Ethyl Sulfide | - | Hydrazine | - |
| O-ETHYL S | Methyl Mercaptan | CHLORINATED | Toluene | - |
| (2-DISSOPROPYLAMINOETHYL) - | - | ORGANICS | Acroleln | - |
| MET HYLPHOSPHONOTHIOATE | PHENOLS | Acetyl Chloride | Methylhydrazlne* | - |
| - | Nitrophenols | Chloroacetyl Chloride | Methyllsocynate* | - |
| CARBONYL COMPOUNDS | Chlorophenols | Chloroform | - | - |
| Aldehydes | - | Methylene Chloride | - | - |
| Ketones | CHEMICAL WARFARE AGENTS | - | - | - |
| Carboxylic Acids | Sulphur Mustard (HD) | - | - | - |
| - | Tabun (GA) | - | - | - |
| NITROGEN COMPOUNDS | Sarin (GA) | - | - | - |
| Acetonitrile | Soman (GD) | - | - | - |
| Sodium Cyanide (AQ) | VX & H2S | - | - | - |
| 4-Vinylpyridine | - | - | - | - |
What exactly is the Container neutralizer and how does it work?
The Container neutralizer (FAST-ACT) is a special blend of common metal oxides (like magnesium oxide MgO and titanium dioxide TiO₂) processed into very fine particles (around 5 microns), with a porous, high-surface-area structure. When it touches reactive, hazardous chemicals (vapours, liquids, or spills), it uses ionic bonding: the neutralizer binds to the chemical’s ions, completing its own molecular structure, thereby neutralizing the threat into a non-hazardous byproduct.
Which kinds of chemicals or spills can it handle, and which are not suitable?
It works well for many corrosive materials, vapour hazards, liquid solvent spills, alcohols, phenols, halogen/halides, acids, and gases including Hâ‚‚S and chlorine. It is not effective for certain heavy metals, solid wastes, or some radiological/nuclear agents. The Application Table shows which substances are neutralised, which are only adsorbed, and which materials it does not work with. (Aska Equipments Private Limited)
Do I need water or other agents for it to work?
No — it’s ready-to-use. You don’t have to mix it with water or other solvents for many applications. It reacts directly with the hazardous chemical, vapour, or liquid spill without needing extra diluents. This makes it quicker and safer in urgent spill or vapour situations. (Aska Equipments Private Limited)
Is it safe and non-toxic for humans and the environment?
Yes. The material is non-toxic and non-corrosive in its normal form. After reacting with the target hazardous chemical, the residue is a neutral by-product (for example MgS when reacting with Hâ‚‚S), minimizing risk. Still, normal safety precautions (gloves, eye protection, ventilation) should be used when dealing with hazardous chemicals. (Aska Equipments Private Limited)
How quickly does it neutralize vapours or spills?
The neutralization happens fast because of its high surface area and nanomaterial nature. As soon as the neutralizer comes in contact with the harmful vapour or liquid, the ionic bonding begins and the chemical is converted. The exact time depends on quantity, concentration, and how well the neutralizer is applied (coverage etc.).
How do I apply it in a spill situation or for vapours?
For spills: sprinkle the powder over the liquid, cover fully, allow it to bind, then sweep or collect the neutralized material safely. For vapours: disperse the neutralizer in the affected area so it contacts the vapour molecules. Because it works on both liquids and gases, the key is coverage — making sure the neutralizer physically reaches the hazard.
What size or form does this Container product come in, and how much area can one container handle?
It comes in a container (volume depends on your order), ready for immediate use. The coverage area depends on the type of chemical, its quantity, and concentration. Heavier or more concentrated spills will need more neutralizer. For smaller leaks or vapours, less material may suffice. For large spills, multiple containers will be needed.
After neutralization, how should I dispose of the residue?
Once the reaction is complete, the residue is generally non-hazardous or much less hazardous than the original chemical. However, disposal must still follow local regulations. Usually you can collect the residue, place in sealed bags or containers, label them properly, and dispose through hazardous waste management routes. Do not wash it down drains without verifying it's allowed.
Are there limits on temperature or environmental conditions for safe and effective use?
Yes, extreme heat, humidity, or very cold conditions can affect reaction performance. While the product is designed for real-time, field conditions, very hot or freezing environments may slow down the binding process or make application more difficult. Store the container in cool, dry places, and in use ensure good ventilation and appropriate PPE.
How do I know if the neutralization is complete?
You can tell by observing whether there is any visible vapour, smell, or chemical reaction continuing. If the neutralizer has stopped reacting (no more bubbling, heat, or odour), and the surface is dry (or residue stable), it’s likely done. For safety, always treat the area as possibly hazardous until you have confirmation (lab test, safety instrument, or expert check).