Sodium Hypochlorite Pump

March Pumps offers a variety of Sodium Hypochlorite Pumping System. March Pumps offers pumps ranging from 5 GPM to 200 GPM for Sodium Hypochlorite applications. Sodium hypochlorite is mostly created by the electrolysis of sodium hydroxide and chlorine.

Because of the safety risks associated with shipping and handling chlorine in its elemental condition, sodium hypochlorite is manufactured on-site wherever practical. Sodium hypochlorite is an unstable chemical that breaks into sodium chloride and sodium chlorate.

Depending on storage circumstances, its shelf life ranges from 28 to 90 days as a concentrated solution. In-home cleansers using sodium hypochlorite, sodium hydroxide is added to reduce the rate of deterioration.

Sodium hypochlorite is extremely corrosive and toxic to human flesh and many metals. Sodium hypochlorite is a commonly utilized chemical, owing to its oxidizing capabilities, antimicrobial qualities, and bleaching ability on materials such as textiles.

Because of the safety risks associated with shipping and handling chlorine in its elemental condition, sodium hypochlorite is manufactured on-site wherever practical. Sodium hypochlorite is an unstable chemical that breaks down into sodium chlorate.

As a concentrated solution, its shelf life ranges from 28 to 90 days, depending on storage circumstances. In home cleansers using sodium hypochlorite, sodium hydroxide is added to reduce the rate of deterioration.

Sodium hypochlorite is extremely corrosive and toxic to human flesh and many metals. Sodium hypochlorite is a commonly utilized chemical, owing to its oxidizing capabilities, antimicrobial qualities, and bleaching ability on materials such as textiles.

Applications Sodium Hypochlorite Pumping System

Sodium Hypochlorite Pumping System

Sodium hypochlorite is extensively used for effluent and water treatment. Because of its antimicrobial qualities, it may be added to both sewage and clean water. When raw sewage enters a wastewater treatment facility, the solution is added to it. At clean water sites, the solution is used to ‘chlorinate’ the water and give a working agent to keep it potable until it reaches the tap.

Sodium hypochlorite is used as a biocide in water systems and for disinfection in swimming pools.

Sodium hypochlorite’s bleaching qualities make it a desirable process fluid in the textile and paper industries.

Effluent can be treated to minimize odours and neutralize industrial effluents, especially from metal processing.

The chemical is utilized in medical treatments at low concentrations for skin problems including dermatitis and in root canal dental operations to treat necrotic tissue.

Various quantities of sodium hypochlorite are utilized for various applications.

Bleaching

The use of sodium hypochlorite to bleach paper dates back to the early nineteenth century. Since then, multistage bleaching procedures have evolved, with companies utilizing sodium hypochlorite as an invaluable process fluid for bleaching textiles, papers, and leathers. It is also used in industrial wastewater to minimize smells. Sodium hypochlorite concentrations ranging from 3 to 8% are also commonly used in houses for bleaching.

Stain Removal

Because of its outstanding destaining characteristics, sodium hypochlorite is commonly used to remove dental stains as well as stains on dishes and cups, particularly tea stains. The chemical is also found in several washing powder products.

Disinfection

Because of its extensive antibacterial action, Sodium Hypochlorite is used in a variety of settings and applications in healthcare. The food sector utilizes weak chemical solutions for the same reason.

Deodorizing

Sodium Hypochlorite has excellent deodorizing capabilities, making it an even better option for disinfection and stain removal.

Water Treatment

Sodium hypochlorite is used in the majority of water treatment plants in Europe and the United States due to its outstanding disinfection characteristics and inexpensive cost.

Medical Treatment

When diluted, sodium hypochlorite is an effective antiseptic for minor wound care or before surgical operations to avoid infections from cuts or abrasions. It can also be used to treat skin ailments like eczema.

Choosing a Sodium Hypochlorite Pumping System

Sodium Hypochlorite Pumping System

Centrifugal pumps are suggested for pumping Sodium Hypochlorite at room temperature. What are the features of sodium hypochlorite that will influence the pump and material you buy?

Sodium hypochlorite is a powerful oxidant with a high PH value. Liquids containing 500 ppm or higher chlorine are very corrosive and will eventually corrode metals and other internal pump components. Industrial pumps should employ robust materials for sections in touch with the compound.

What pumps can handle sodium hypochlorite, and at what temperature and viscosity

March Pumps offers a comprehensive selection of Sodium Hypochlorite Pumping Systems that are specifically built to handle sodium hypochlorite. These pumps range in size from 5 GPM to 200 GPM and may meet almost any purpose. These pumps are intended to handle Sodium Hypochlorite viscosity at room temperature.

Finding the right Sodium Hypochlorite Pumping System

Sodium Hypochlorite Pumping System

When selecting the best pump for a certain application, there are several factors to consider. These characteristics include, but are not limited to compound concentration, operating temperatures, chemical gravity, and pump materials.

March Pump offers a diverse selection of Sodium Hypochlorite Pumping Systems to meet almost any need. For further information, please contact Kiron Hydraulic Needs, and our specialists would be pleased to assist. You can reach us by phone or online. The Sodium Hypochlorite Pumping System has a magnetic drive and is composed of Kynar plastic with Viton O-Ring and Mica Teflon bushings. Sodium hypochlorite can also be heavy, depending on its concentration and temperature. If the specific gravity exceeds 1.1, a trimmed impeller is strictly required to avoid disconnecting or overloading the motor.

Sodium Hypochlorite (NaOCI), sometimes known as bleach, is a chemical compound composed of sodium ions and hypochlorite anions. It is a clear solution with a slightly yellowish tint and the distinct odour of home bleach.

Pumping Considerations for Sodium Hypochlorite

Sodium Hypochlorite Pumping

Sodium Hypochlorite is an oxidant that may corrode both human flesh and metals. Proper handling is essential when employing the chemical in its concentrated form.

Avoid most Metals in the Specified Pump Specifications

Instead, consider employing pumps with non-metallic wet-side materials such as polypropylene or PTFE.

Sodium Hypochlorite Dosing

A Sodium Hypochlorite Pumping System, metering pump, or peristaltic hose can be used to deliver a predefined amount of chemicals without damaging your pump and pipe systems.

Type of Pump

Centrifugal mag drive pumps provide greater chemical containment when transferring large amounts of sodium hypochlorite.

Venting

The design of your venting at the point of discharge can either protect or damage your Sodium Hypochlorite Pumping System, depending on how well it releases trapped vapour.

Maintenance

Regular flushing is suggested to prevent scaling, which can clog piping, particularly in hard water locations.

Higher concentrations and temperatures of the chemical Sodium Hypochlorite, combined or alone, may render the pumps described above ineffective. It is strongly advised that, regardless of temperature or concentration, you contact a Kiron Hydraulic Needs to examine your application before obtaining a pump.

Sodium hypochlorite demands careful material selection. This is owing to the chemical’s high oxidizing properties. It is generally suggested that most metals be avoided in pump specifications. Metals such as aluminium, cast iron, and stainless steel will corrode, although higher-end alloys like titanium, Hastelloy, or duplex may be acceptable depending on the concentration. Avoid elastomer materials such as Acetal, Buna, nylon, and polyurethane.

It is advised to utilize a non-metallic construction made of polypropylene or PTFE, with wet-side materials including PTFE, ceramic, Hypalon, EPDM, ETFE, PVC, and Viton.

At wastewater treatment facilities, the chemical may be dosed via a peristaltic hose tube pump or a metering pump with diaphragms that supply an amount of chemical determined by a probe sensor such as turbidity or pH.

These pumps’ positive displacement allows them to provide the necessary priming suction for extraction from a tank/IBC at low flow rates while also being readily controlled for consistent delivery.

Because of the nature of the working principle, the Sodium Hypochlorite Pumping System can handle gaseous fluids, making it especially suitable for hypochlorite solution, which generally ‘gasses off’ and causes vapour lock in conventional pumps.

To avoid vapour locks, systems and pumps are frequently constructed with venting at the output and highest point. Pump heads may have auxiliary attachments like a manual or automatic bleed valve to remove trapped gas.

Scaling can also form in piping, especially in hard water locations, and can sometimes stop the line. Regular flushing is advised.

When transferring significant amounts of sodium hypochlorite, it is advisable to use a Sodium Hypochlorite Pumping System to confine the fluid. Depending on the flow rate and site conditions, the solution can be transported using an all-nonmetallic construction, such as a whole polypropylene body; however, carbon-bearing assemblies and lower-quality magnets should be avoided due to chemical degradation.

Where the hypochlorite solution is more aggressive and chemical compatibility is critical, a cast-iron construction with thick ETFE/PTFE lining can be the best choice, combining the strength of a metallic structure with the security of an inert material lining. Magnet/bearing materials such as Inconel, samarium cobalt, and silicon carbide are preferred. Although a build of this grade may result in a higher initial purchase price, these pumps have been known to be placed for decades, whereas cheaper materials, while compatible, would ultimately become more brittle, allowing for a pump life of several years.

When the liquid is transported with pulsation, such as with an AODD pump, or with more volatility, the hypochlorite may be more prone to ‘gassing out’. To prevent vapour lock, set the stroke length to 100% and install bleed valves with the pump and system.

Why March Pumps Have the Best Pumps to Transfer Sodium Hypochlorite

March Pumps has a specialist range of Sodium Hypochlorite Pumping Systems that are engineered to withstand the rigorous workload that corrosive chemicals like sodium hypochlorite impose. Kiron Hydraulic Needs distributes Sodium Hypochlorite Pumping System in India, which includes long-lasting fluorocarbon seals and other fittings to ensure the life and performance of your Sodium Hypochlorite Pumping System.

Leave a Reply

Your email address will not be published.

You may use these <abbr title="HyperText Markup Language">HTML</abbr> tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <s> <strike> <strong>

*

error: Content is protected !!