Buffer Cleaner
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RXSOL Odor Eliminator is different to nearly all other odour neutralisers or masking agents. The difference lies in the product makeup: nearly every product in the market is a blend of essential oils or plant extracts combined with a standard surfactant while RXSOL Odor Eliminator is made of food and cosmetic grade compounds and contain only 1% essential oils or plant extracts (by total volume of concentrate). Basic chemistry proves all essential oil and plant extract based products cannot truly neutralise odours; they can only mask them or encapsulate them for a period before releasing them again. Essential oils and plant extracts cannot bind to, and react with, a compound such as H2S and change the structure of that volatile compound into a non-volatile compound.
1) Fogging System 2) Vapour Phase System 3) Direct Dosing into liquid
It is worth explaining, that, unlike masking agents,RXSOL Odor Eliminator does not blow away in the wind. Being positively charged, it will seek out target molecules and bond to them resulting in a chemical reaction forming a non-volitile organic salt. If a RXSOL Odor Eliminator molecule does not find a target, it will attach itself to a negatively charged surface and wait for an odorous molecule. As with all gases, the odorous molecules are constantly moving and, given time, will come into contact with a RXSOL Odor Eliminator molecule and be destroyed.
Fogging System:
Fogging systems spraying RXSOL Odor Eliminator are used when odour is from open-air sources.RXSOL Odor Eliminator is sprayed on an interval basis depending on odour type and strength. An example of this is running the system for 30 seconds ON and 2 minutes OFF.
Some examples of facilities where fogging systems can be used:
Fogging systems spraying RXSOL Odor Eliminator is also used in indoor facilities. Some examples are:
Vapour Phase Systems :
Vapour phase systems delivering RXSOL Odor Eliminator is used when odour is from ducted, or confined, air sources. This type of application is designed to inject the vapour into a continuous flow air stream that is part of an exhaust or extraction process. These types of systems are delivering vapour into the air stream continuously. Some examples of these types of problems are:
Direct Dosing:
RXSOL Odor Eliminator is exceptionally effective in capturing its target in a liquid solution. Liquid solutions only produce odours when they reach a point where cavitation occurs, say at the end of the pipe or weir. Odour is produced as a result of the reduction in water pressure and the odorous gases are stripped out of solution.
This method of application is ideal for waste treatment plants, animal and fish processing plants, and pig and chicken farms, which have wash down systems where waste water is collected and stored in a settlement pond system or holding tanks.
RXSOL Odor Eliminator molecules will attach to the odorous compounds to remove toxins from the water and, over about seven days, will spread through the whole anaerobic/facultative/aerobic pond system to remove odours. This action chemically bonds (valency bond) to the odorous compound to form a non-toxic, non-odorous organic salt. Bacteria will then break down this salt. As a result, there is no increase in BOD, and no regeneration of foul odours.
RXSOL Odor Eliminator can best be thought of as a detoxifying catalyst that beneficially affects the pond ecology. It is extremely powerful.
RXSOL Odor Eliminator , which is not required to destroy toxic odorous compounds, will continue in the stream and neutralise any air that is stripped from the stream due to water turbulence at the treatment station or ponds.
APPLICATION : Boilers, calorifiers, heat exchanges, diesel engine cooling system, condensers, evaporators & other type of equipment where rust & scale form.
Appearance |
Reddish / Yellowish / white – Powder ( without indicator ) |
| Density | 1.2g/cm3 |
| pH | (10 wt %):1.1 |
| Compatibility |
| Metal | Suitable aluminium, zinc, tin and their alloys. Stainless steel, Carbon Steel, Cast Iron, Titanium, Copper , Copper alloys, PVC, Plastic , Rubber | Rubber | No known effect |
| Rubber | No known effect |
By reducing down-time, productivity is increased. by protecting metal and by uniform leaning of the surface equipment life is prolonged and performance made superior. The above information is adequate for commonly encountered problems of descaling.
Handling & Storage
• No Fumes Avoid contact with skin or eyes. Wear Cup-type, rubber or soft plastic-framed goggles, protective clothing, and rubber gloves must be worn when handling.
• Keep in a tightly closed container. Protect from physical damage.
• Store in a cool, dry, ventilated area away from sources of heat, moisture and incompatibilities.
• Containers containing this material may be hazardous when empty since they retain product residues (dust, solids); observe all warnings and precautions listed for the product.
• Ensure as low exposure as possible. Local exhaust ventilation is generally preferred as it can control the emissions of the contaminant at its source, preventing dispersion of it into the general work area.
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TECHNICAL SPECIFICATION Of BLUE SILICA GEL available in BREATHER |
|
|
DESCRIPTIONS |
SILICA GEL BLUE |
|
Assay (as SiO2) |
98 % |
|
pH |
6.8 - 7.2 |
| Melting point | 1610oC |
| Boiling Point | 2230oc |
|
Bulk Density gm/ltr |
0.600 – 0.700 |
| Density | 2.6 |
|
Loss on Drying % |
4 - 6 % |
|
Loss on Attrition |
2.5 % Max |
|
Adsorption Capacity at 100 % humidity |
35 - 40 % |
|
Friability |
99.5 |
|
Chloride (as Nacl) |
Max. 0.5% ppm |
|
Sulfates (as Na2SO4) |
Max 0.5 % ppm |
|
Cobalt Chloride (as CaCl2) |
0.5 – 0.7 % |
|
Ammonium Compound (as NH3) |
0 % |
|
Binder as CaSO4 |
0 % |
|
Dimethyl Fumrate (DMF) |
0 % |
|
Particle size |
4 - 6 |
Silica Gel Details
CAS No. : 112926-00-8
Chemical Name : Silica gel
CBNumber : CB1199389
Molecular Formula : O2Si
Formula Weight : 60.08
| Property | Typical Value, Units |
| Molecular Weight | 102.1 |
| Formula | C4H6O3 |
| Specific Gravity @ 20°C | 1.08 |
| Boiling Point | 139.9 °C (283.8 °F) |
| Freezing Point | -73.1 °C (-99.5 °F) |
| Vapor Pressure @ 20°C | 4.6 mm Hg |
| Viscosity @ 25°C | 0.91 cP |
| Coefficient of Expansion @ 20°C | 0.00145 |
| Upper explosion limit | 96.2 mg/L |
| Lower explosion limit | 381 mg/L |
| Flash Point Closed Cup | 49 °C (120 °F) |
| Flash Point Open Cup | 56 °C (132 °F) |
| Fire Point | 58 °C (136 °F) |
| Form | Liquid |
| Assay | 99 wt % |
| Product Name | Di-calcium Phosphate (DCP) Di-hydrate |
| IUPAC Name | Calcium hydrogen phosphate Di-hydrate |
| Molecular Formula | CaHPO4.2H2O |
| Molecular Weight | 172.1 |
| Appearance | White fine Powder |
| PH Range | 6.5 – 7.5 |
| Assay %/ Purity % (minimum) | 98.00 |
| P2O5 content % (minimum) | 40.00 |
| ‘Ca’ Content % (minimum) | 22.00 |
| Iron as ‘Fe’ content % | 0.02 |
| Chloride as ‘Cl’ content % | 0.2 |
|
Sulfate as ‘SO4’ content % |
0.03 |
|
TECHNICAL SPECIFICATION Of BLUE SILICA GEL available in BREATHER |
|
|
DESCRIPTIONS |
SILICA GEL ORANGE BEADS |
|
Assay (as SiO2) |
98 % |
|
pH |
4-6 |
| Melting point | 1610oC |
| Boiling Point | 2230oc |
|
Bulk Density gm/ltr |
0.670 – 0.780 |
| Density | 2.6 |
|
Loss on Drying % |
4 - 6 % |
|
Loss on Attrition |
2.5 % Max |
|
Adsorption Capacity at 100 % humidity |
35 - 40 % |
|
Friability |
99.5 |
|
Chloride (as Nacl) |
Max. 0.5% ppm |
|
Sulfates (as Na2SO4) |
Max 0.5 % ppm |
|
Cobalt Chloride (as CaCl2) |
0.5 – 0.7 % |
|
Ammonium Compound (as NH3) |
0 % |
|
Binder as CaSO4 |
0 % |
|
Dimethyl Fumrate (DMF) |
0 % |
|
Particle size |
4 - 6 |
|
COLOUR CHANGE RH =20 % RH =50 % RH = 100 % |
PALE ORANGE ALMOST COLORLESS |
Silica Gel Details
CAS No. : 112926-00-8
Chemical Name : Silica gel
CBNumber : CB1199389
Molecular Formula : O2Si
Formula Weight : 60.08
| Form | Emulsion Liquid |
| Colour | Opaque, yellow |
| Odour | Slight |
| Boiling point and boiling range | 100°C |
| Flash Point | Not applicable, Does not sustain combustion. |
| Freezing Point | No Data Available |
| pH | 13.0 - 14.0, 100 % |
| Relative density | 1.207 - 1.275 |
| Water solubility | Soluble |
| Solubility in other solvents |
No data available |
| Specifications |
Extra Pure |
Industrial |
| Formula | Na2S2O3.5H2O | Na2S2O3.5H2O |
| CAS | 10102-17-7 | 10102-17-7 |
| Molecular Weight | 248.17 | 248.17 |
| Physical Appearance | Snow White Crystalline Material | White Crystalline Material |
| Assay (Min.) | 99% | 98% |
| Loss on Drying (LOD) | 1% Max. | 2% Max. |
| pH of 10% Solution | 6.5 - 8.5 | 6.5 - 8.5 |
We are marine chemical supplier since 1996.These Marine Chemicals include different sets of products such as Tank Cleaners, Maintenance Chemicals, Cooling Water Treatment Chemicals, Boiler Water Treatment Chemicals, Fuel Additives, etc.
Oman Chemical is leading one Largest Supplier, Manufacture a
Oman Chemical is leading one Largest Supplier, Manufacture a
