Buffer Cleaner
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Contents |
Industrial Standard (best quality) |
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Na2S2O5 % ≤ |
38 - 42.0 |
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Fe %≤ |
Iron, (Fe ppm)≤ 15 |
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pH |
3.6 – 4.6 |
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Sodium Sulfate, wt% |
≤ 3.5% |
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| Specific Gravity @ 25degree C | 1.310 – 1.370 | |
| Density, lbs/gal @ 25 degreeC | 10.9 - 11.3 |
Properties
Molecular formula Na2S2O5, Na-O-(S=O)-O-(S=O)-O-Na
Molar mass 190.107 g/mol
Appearance white to yellow powder
Odor Faint SO2
Solubility in water 100%
Solubility Soluble in glycerol, Soluble in ethanol
EU Index 016-063-00-2 EU classification Harmful (Xn) Irritant (Xi) R-phrases R22 R31 R41 S-phrases (S2) S26 S39 S46
Dechlorination in municipal wastewater, pulp & paper, power, and textile water treatment plants
Oxygen scavenger
Boiler water treatment
Preservative in photo developer process
Food additive
Flue gas desulfurization
Mild reducing agent in organic synthesis
Efficiently remove traces or excess amounts of bromine, iodine, osmate esters, chromium trioxide, and potassium permanganate
Magnesium sulphate is an inorganic chemical which contains magnesium, sulfur and oxygen, It is used as a nutrient additives, firming agent and flavour enhancer. It serves to be a fermentation aid in the processing of beer and malt beverages. Additionally it exhibit as a nutrient used primarily in salt-replacer products, dietary supplements, carbonated diet soft drink beverages, sports drinks and fortified water beverages.
| CAS number | 7647-14-5 Y |
| PRODUCT NAME | SODIUM CHLORIDE TABLET |
| FORMULA | NACL |
| FORMULA WT | 58.44 |
| CAS NO | 7647-14-5 |
| NIOSH/RTECS NO | VZ4725000 |
| COMMON SYNONYMS | SALT RXSOL TAB-SOFT |
| PRODUCT CODES | 3628,3624,3625,3632,4924 |
| EFFECTIVE | 05/30/86 |
Test Parasmeter
| PRODUCT Parameter | Test Method | Specification | Test Result |
| Sodium Chloride | IS7224:2006 | > 99.9% | 99.93% |
| Calcium | IS7224:2006 | < 0.01% | 0.004% |
| Magnesium | IS7224:2006 | <0.01% | 0.002% |
| Sulphate | IS7224:2006 | <0.1% | 0.04% |
| Insoluble in Water | IS7224:2006 | 0.1% | 0.005% |
| Moisture | IS7224:2006 | <0.5% | 0.2% |
| Arsenic | EN 973 | < 0.3 mg/kg | <0.1 mg/kg |
| Chromium | EN 973 | <0.75 mg/kg | < 0.1 mg/Kg |
| Mercury | EN 973 | <0.05 mg/Kg | <0.02 mg/Kg |
| Copper | EN 973 | < 2 mg/Kg | <0.1 mg/Kg |
| Iron | EN 973 | < 2 mg /kg | < 1 mg/Kg |
| pH | IS7224:2006 | 7 -7.5 | 7.4 |
| Dia | IS7224:2006 | 23.5 mm | |
| Hight | IS7224:2006 | 12 mm |
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IS7224:2006 |
|
IS7224:2006 |
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<0.01% |
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<0.01% |
| Appearance | Brilliant white |
| Whiteness Index (with BaSO4) | 88 min |
| Size | 22 mm Dia / 10 mm Thick |
| Sodium Chloride (NaCl) | MIN% 99.5 |
| Calcium AS Ca | MAX % 0.04 |
| Magnesium AS Mg | MAX % 0.04 |
| Sulphate AS SO4 | MAX % 0.2 |
| Moisture | MAX % 0.2 |
| INSOLUBLES | MAX % 0.02 |
| PRODUCT NAME | : | MORPHOLINE 10% |
| CAS number | : | 110-91-8 |
| UN number | : | 2054 |
| Formula | : | C4H8ONH |
| Odour | : | AMINE LIKE |
| Solubility in water | : | COMPLETE |
| Density | : | 1.002 at 20 OC |
| Boiling point | : | 128 OC |
| Melting point | : | -5 OC |
| Viscosity | : | 2.23 cp at 20 OC |
| Flashpoint | : | 37 OC |
| Explosive limits | : | |
| Vapour pressure | : | 11 mbar at 20 OC |
| Skin absorption/irritation | : | YES |
| TLV Country NL Year 1995 | : | 20 S ppm 70 S mg/m3 |
| Pollution category 1994 | : |
D |
| Product Specifications: | |
|
Density |
1 |
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Packing, Type |
PLASTIC |
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Volume |
25 l |
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pH |
10.5 |
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Colour |
LIGHT YELLOW |
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Appearance |
LIQUID |
Directions for use
This product is formulated for use in conjunction.Oxygen Scavenger Plus can be used in any boiler system, and in conjunction with mechanical deaeration systems. Removal of dissolved oxygen is vital for prevention of corrosion and especially pitting corrosion in boilers. When dosed into a boiler system, Oxygen Scavenger Plus will react with dissolved oxygen and form non corrosive compounds. The product is volatile, and left over product from oxygen scavenging in the pre-boiler section will evaporate and assist protection of the steam and condensate system. No solid materials are produced when using Oxygen Scavenger Plus.
Dosing method
Rx Marine International recommends continuously into the boiler feed line and Boiler Water Treatment Dosing Unit.
Dosing should be controlled so that the DEHA residual in the condensate is between 0.08-0,30 ppm. The consumption will depend on feed water temperature and the amount of water fed into the boiler. For more information about initial dosage and dose rate please consult your nearest Customer Centre.
Test result condensate PPM DEHA
0.00 - 0.08 0.08 - 0.30 0.30 +
Increase dose 25% Maintain dose Decrease dose 25%
Sampling and testing
A representative sample of Condensate should be drawn for analysis daily. The sample should always be taken from the same sampling point, cooled and tested immediately By Rxsol Test Kit. It is important that regular testing is carried out, to ensure the correct level of treatment is maintained.
Features
• Fast acting, liquid oxygen scavenger.
• Safe and easy to use, low toxicity.
• Reduces corrosion of iron and copper, increasing system life and reliability.
• Neutralises acids occurring in condensate system.
• Volatile product, provides distribution and protection throughout the boiler system, economical in use.
• Suitable for use in conjunction with combined and co-ordinated treatment programmes.
• Organic product, no dissolved solids added.
• Simple test to determine treatment level.
The establishment of protective metal oxide lay-ers through the use of reducing agents (such as hydrazine, hydroquinone, and other oxygen scavengers) is known as metal passivation or metal conditioning. Although "metal passivation" refers to the direct reaction of the compound with the metal oxide and "metal conditioning" more broadly refers to the promotion of a protective surface, the two terms are frequently used interchangeably.
The reaction of hydrazine and hydroquinone, which leads to the passivation of iron-based metals, proceeds according to the following reactions:
| N2H4 | + | 6Fe2O3 | ® | 4Fe3O4 | + | 2H2O | + | N2 |
| hydrazine | hematite | magnetite | water | nitrogen |
| C6H4(OH)2 | + | 3Fe2O3 | ® | 2Fe3O4 | + | C6H4O2 | + | H2O |
| hydroquinone | hematite | magnetite | benzoquinone | water |
Similar reactions occur with copper-based metals:
| N2H4 | + | 4CuO | ® | 2Cu2O | + | 2H2O | + | N2 |
| hydrazine | cupric oxide | cuprous oxide | water | nitrogen |
| C6H6O2 | + | 2CuO | ® | Cu2O | + | C6H4O2 | + | H2O |
| hydroquinone | cupric oxide | cuprous oxide | benzoquinone | water |
Magnetite and cuprous oxide form protective films on the metal surface. Because these oxides are formed under reducing conditions, removal of the dissolved oxygen from boiler feedwater and condensate promotes their formation. The effective application of oxygen scavengers indirectly leads to passivated metal surfaces and less metal oxide transport to the boiler whether or not the scavenger reacts directly with the metal surface.
| Properties | Unit | Typical Value |
| Form and Appearance | - | Clear Colorless Liquid |
| Odor | - | Characteristic |
| pH (neat) | pH | Alkaline |
| Solubility | - | Completely Soluble in Water |
STORAGE & HANDLING
pH booster should be stored in an air tight container away from direct heat.
Always store at cool & dry place.
Handle using goggles & do not breathe in the vapours.
Wash thoroughly in case of contact. Do not swallow.
pH Control
Maintenance of proper pH throughout the boiler feedwater, boiler, and condensate systems is essential for corrosion control. Most low-pressure boiler system operators monitor boiler water alkalinity because it correlates very closely with pH, while most feedwater, condensate, and high-pressure boiler water requires direct monitoring of pH. Control of pH is important for the following reasons:
The pH or alkalinity level maintained in a boiler system depends on many factors, such as sys-tem pressure, system metals, feedwater quality, and type of chemical treatment applied.
The corrosion rate of carbon steel at feedwater temperatures approaches a minimum value in the pH range of 9.2-9.6 . It is important to monitor the feedwater system for corrosion by means of iron and copper testing. For systems with sodium zeolite or hot lime softened makeup, pH adjustment may not be necessary. In systems that use deionized water makeup, small amounts of caustic soda or neutralizing amines, such as morpholine and cyclohexylamine, can be used.
In the boiler, either high or low pH increases the corrosion rates of mild steelThe pH or alkalinity that is maintained depends on the pressure, makeup water characteristics, chemical treatment, and other factors specific to the system.
The best pH for protection of copper alloys is somewhat lower than the optimum level for carbon steel. For systems that contain both metals, the condensate and feedwater pH is often maintained between 8.8 and 9.2 for corrosion protection of both metals. The optimum pH varies from system to system and depends on many factors, including the alloy used
To elevate pH, neutralizing amines should be used instead of ammonia, which (especially in the presence of oxygen) accelerates copper alloy corrosion rates. Also, amines form protective films on copper oxide surfaces that inhibit corrosion.
Physical Properties
| Empirical Formula | C4H11NO | |
| Molecular Wt | 89.1 | |
| DEHA 98% | DEHA 85% | |
| Sp. Gr. at 20°C | 0.855 - 0.875 | 0.895 - 0.905 |
| Refractive Index | 1.418 - 1.420 | 1.418 - 1.420 |
| Boiling Point | 124 to 126°C | 94 to 96°C |
| Freezing Point | -25 to -27°C | Below 0°C |
| Flash Point (Closed C) | Below 45°C | 45 to 47°C |
| Solubility in water | Soluble | Soluble |
| pH | 10.2 | 10 |
Specification :
| Specification | DEHA 98% | DEHA 85% |
| Purity as DEHA (wt. %) | 98.00 min. | 85.00 min. |
| Water Content (% by wt.) | -- | 15.00 max |
| Ethylamines (% by wt.) | 0.5 max. | 0.05 max. |
Diethylhydroxylamine (DEHA) is an organic compound with the formula (C2H5)2NOH. It is a colorless liquid, although it is usually encountered as a solution. It is mainly used as an oxygen scavenger in water treatment. It is a volatile oxygen scavenger and reacts in a ratio of 2.8/1 DEHA/O2. It is employed in high pressure (>70 bar) boiler systems due to a very low rate of reaction at low temperatures and pressures. Due to its volatility, it acts as an oxygen scavenger throughout the entire boiler system due to steam carryover. DEHA also reacts with ferrous metals to form a passivized film of magnetite throughout the boiler system.
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Appearance |
: Clear liquid |
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Specific gravity at 25 º C (77 º F) |
: 1.056 |
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Fire |
: off |
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Freezing temperature |
: -6.6 º C (20 º F) |
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pH |
: 13.4 |
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Stability after freeze / that |
: yes |
Did you know, how to keep BOILER water CLEAR and Sludge free?
RXSOL BOILPLEX AT Phosphate and synthetic polymer Based Boiler water treatment chemicals to control sludge for low and medium pressure Boilers which results in the clean boiler water. USES of RXSOL BOILPLEX AT Hardness Control provide tolerance of feedwater quality fluctuations.
Chemically one part of The polymers used in BOILPLEX AT keeping the sludge particles soft by increasing property of nonadherent which also resulting smooth blowdown during boiler cleaning and maintenance operation.
While Other part of Phosphate which is used in BOILPLEX AT serve as deposit control agents by Iron dispersancy, main cause of sequestering deposits.
USES of RXSOL BOILPLEX AT boiler water treatment, can help BOILER WATER CLEAN and CLEAR.
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
