Chemical Transfer Pumps

Chemical transfer refers to the process of moving fluids from one reservoir to another. Magnetic drive pumps, also known as Chemical Transfer Pumps, efficiently transfer these fluids within a set time frame and flow rate. Fluids might be water, solvents, chemicals, or acids, depending on the use.

Our heavy-duty products are suitable for chemical recirculation, bicarbonate systems, deionized water systems, freezers, scrubber systems, detergent mixers, computer cooling, carbon arc furnace cooling, ion exchange recovery, and aquariums.

Our Chemical Transfer Pumps stand up to the harshest chemicals, including Acetic Acid Chemical Pumps, Chemical Pumps for Aluminum Sulfate, Citric Acid Chemical Pumps, Chemical Pumps for DI Water, Chemical Pumps for Ethylene Glycol, Chemical Pumps for Ferric Chloride, Chemical Pumps for Fluosilicic Acid, Chemical Pumps for Formaldehyde, Chemical Pumps for Formic Acid, Chemical Pumps for Hydrochloric Acid, Chemical Pumps for Hydrofluoric Acid, Chemical Pumps for Hydrofluosilicic Acid, Chemical Pumps for Hydrogen Peroxide, Chemical Pumps for Nitric Acid, Chemical Pumps for Phosphoric Acid, Chemical Pumps for Potassium Hydroxide, Chemical Pumps For Potassium Permanganate, Chemical Pumps for Salt Water, Chemical Pumps for Sodium Cyanide, Chemical Pumps For Sodium Hydroxide, Chemical Pumps For Sodium Hypochlorite, Chemical Pumps For Sulfuric Acid, Urea Chemical Pumps, Chemical Pumps for Wort and Chemical Pumps for Formic Acid.

Acetic Acid Chemical Transfer Pumps

Chemical Transfer Pumps

Acetic acid, also known as ethanoic acid, is a colourless organic chemical compound with the molecular formula CH3COOH, well known for the sour flavour and strong odour it imparts to vinegar. The global yearly demand for acetic acid is around 6.5 metric tons, which is utilized in the creation of synthetic materials, wastewater treatment, and the synthesis of organic compounds, to mention a few.

Chemical Transfer Pumps for Aluminium Sulphate

Chemical Transfer Pumps

Aluminium sulfate – Al₂(SO₄)₃ – is a salt utilized as a coagulating agent in various industries and applications. It can be hazardous if not utilized appropriately. If spills get on the skin, eyes, or other parts of the body, they can cause significant damage.

Fortunately, choosing March Pumps for your Chemical Transfer Pumps for aluminium sulfate allows you to apply safe and effective methods. We provide a selection of pump types that are effective for spreading aluminium sulfate for a variety of applications, and we tailor our recommendations to match your specific requirements.

Citric Acid Chemical Transfer Pumps

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical Citric Acid. March Pumps provides Citric Acid Chemical Transfer Pumps ranging in size from 5 GPM to 200 GPM to suit any application. If pumping the chemical Citric Acid at room temperature, use a centrifugal sealless Chemical Transfer Pump constructed of Polypropylene, Kynar Plastic, or Stainless Steel with an encapsulated impeller.

Citric acid is an organic acid that has the chemical formula C6H8O7. It occurs naturally in large concentrations in a wide range of fruits and vegetables, most notably the citrus fruit family, which includes lemons, limes, and grapefruits. In 2007, global citric acid production reached an astonishing 1.6 million tons. More than 70% of this amount is utilized in the food business. Citric Acid may be weighty 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.

Higher quantities and temperatures of the chemical Citric Acid, combined or separately, may render the pumps described above ineffective. It is strongly advised that, regardless of temperature or concentration, you contact Kiron Hydraulic Needs directly to examine your application before obtaining a Chemical Transfer Pumps.

Chemical Transfer Pumps for DI Water

Chemical Transfer Pumps

If you need a pump for liquid Deionized or DI water, March Pumps provides various options! March Pumps provides DI Water pumps ranging from 5 GPM to 200 GPM to suit any application.
Water includes ions, or charged particles, that can contribute to its composition. Ions in water can range from sodium to calcium and magnesium. In certain cases, these ions and others like them can be useful, however, deionizing water is frequently required for many industrial systems and applications.

The charge of ions in water can provide a barrier in some chemical reactions, necessitating deionization. Deionizing water can assist in preventing reactivity induced by the presence of certain compounds in water. Our deionization Chemical Transfer Pumps may benefit customers who demand deionized water in a variety of manufacturing and industrial settings. If pumping DI water at room temperature, use a centrifugal sealless magnetic drive Chemical Transfer Pumps constructed of plastic with an encased impeller.

Chemical Transfer Pumps for Ethylene Glycol

Chemical Transfer Pumps

The charge of ions in water can function as a barrier in some chemical processes, prompting deionization. Deionizing water can help to reduce reactivity caused by the presence of certain chemicals in water. Our deionization pumps may help clients who require deionized water in a range of manufacturing and industrial environments. Pump DI water at room temperature with a centrifugal sealless magnetic drive Chemical Transfer Pumps are made of plastic with an enclosed impeller.

Being hazardous, its lack of color and smell should not be neglected, since this chemical may be damaging or even lethal in some situations. Ethylene glycol has been known as a chemical having similar advantages to formaldehyde, but with less related hazards in its usage and application. Its benefits in some industrial contexts may necessitate a chemical pump, such as those carried by March Manufacturing, to allow it to be processed appropriately for its industrial or manufacturing context.

March provides a wide range of Chemical Transfer Pumps to handle ethylene glycol, particularly those that rely on the chemical transfer or recirculation of ethylene glycol. March Pump proposes the 893-03 Brush 12V DC Pump for Ethylene Glycol, as well as the 809-BR-HS 12V and 24V Magnetic Drive Pump, among others.

March Pumps’ chemical pump choices for ethylene glycol provide a wide range of maximum heads and flows, including 2.7 gallons per minute at 10.6 feet and 8 gallons per minute at 18.6 feet, respectively. Kiron Hydraulic Needs professionals are accustomed to advising customers about acceptable goods for their needs, and they frequently lead clients to the best chemical pump for their individual circumstances. March Pump’s expertise can assist you in locating the right equipment required to handle and process complicated chemicals and compounds.

Chemical Transfer Pumps for Ferric Chloride

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical Ferric Chloride. March Pumps provides Chemical Transfer Pumps ranging in size from 5 GPM to 200 GPM to suit any application. For pumping Ferric Chloride at room temperature, use a centrifugal sealless magnetic drive pump constructed of polypropylene or Kynar plastic with an encapsulated impeller.

Ferric chloride, commonly known as Iron(III) chloride or Iron trichloride, is a chemical compound with the formula FeCl3. When dissolved in water, Ferric Chloride hydrolyzes and generates heat in an exothermic process. The end product is a dark, caustic, acidic fluid. In 2010, around 2 million metric tons of ferric chloride were produced worldwide, with an annual increase rate of almost 3%. Wastewater and potable water treatment are the world’s single largest users of Ferric Chloride, accounting for over 80% of the market, followed by usage as an etching medium in the production of printed circuit boards.

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

Chemical Transfer Pumps for Fluosilicic Acid

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical Fluosilicic Acid. March Pumps provides Chemical Transfer Pumps ranging from 5 GPM to 200 GPM to suit any application.

If pumping Fluosilicic Acid at room temperature, use a centrifugal sealless magnetic drive chemical pump constructed of Polypropylene or Ryton Plastic, Buna N or Viton O-Ring, Encapsulated Impeller, and Carbon or Ryton/Teflon/Carbon Combination Bushing.

Fluosilic acid can 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.

Chemical Transfer Pumps for Formaldehyde

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical Formaldehyde. March Pumps provides Chemical Transfer Pumps ranging in size from 5 GPM to 200 GPM to suit any application. To pump Formaldehyde at room temperature, use a centrifugal sealless magnetic drive pump composed of polypropylene or Kynar plastic, with an encapsulated impeller and Teflon O-Ring.

Formaldehyde, also known by its scientific name, methanal, is a colourless organic molecule having the chemical formula CH2O. It is a common precursor to several chemical compounds and materials. The global yearly manufacturing capacity for formaldehyde is estimated to be around 10 million tons. In 2003, the value of acquired formaldehyde and its derivatives exceeded 145 billion USD. The formaldehyde business employs more than 4 million people in the United States and Canada alone. Formaldehyde may be heavy depending on its content and temperature. If the specific gravity exceeds 1.1, a trimmed impeller is strictly required to avoid disconnecting or overloading the motor.

Higher quantities and temperatures of the chemical Formaldehyde, either combined or separately, may render the pumps indicated above inappropriate. It is strongly advised that, regardless of temperature or concentration, you contact Kiron Hydraulic Needs directly to examine your application before obtaining a pump. Given the toxicity and volatility of formaldehyde, it poses a major risk to human health and should be handled with extreme caution and confined at all costs.

Chemical Transfer Pumps for Formic Acid

Chemical Transfer Pumps

Formic acid is utilised in a range of industrial applications. This includes but is not limited to, the manufacture of rubber and leather. Many additional industrial facilities employ formic acid as a preservative. In certain situations, the chemical is also utilised as an antibacterial agent.

March provides Chemical Transfer Pumps to fit your specific requirements. We recognise the significance of high-quality chemical pumps for formic acid and will make certain that you have all you need to accomplish your industrial and commercial processes safely and efficiently. Our Chemical Transfer Pumps also work well with various chemicals and acids, including formic acid.

Chemical Transfer Pumps for Hydrochloric Acid

Chemical Transfer Pumps

Hydrochloric acid is a very pungent solution of hydrogen chloride in water. It is a transparent, colourless inorganic acid that has several applications in various sectors. It is naturally present in stomach acid. Historically, it was known as spirits of salt, muriatic acid, and acidum salis since it was created from green vitriol and rock salt, then sulphuric acid and common salt. The chemical Hydrochloric Acid (Muriatic Acid) can be heavy depending on its concentration and temperature.

Higher concentrations and temperatures of the chemical Hydrochloric Acid, combined or alone, may render the pumps described above ineffective.It is strongly advised that, regardless of temperature or concentration, you contact Kiron Hydraulic Needs directly to examine your application before obtaining a pump. Currently, the world produces 20 million tonnes of hydrochloric acid per year. It is used in the manufacture of PVC plastic, polyurethane, household detergents, and food products.

Chemical Transfer Pumps for Hydrofluoric Acid

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical Hydrofluoric Acid. March Pumps provides Chemical Transfer Pumps ranging from 1 GPM to 82 GPM for any purpose.

If pumping Hydrofluoric Acid at room temperature, use a centrifugal sealless Chemical Transfer Pumps constructed of Kynar Plastic, Encapsulated Impeller, and Carbon Bushing. Special care should be exercised with the Ceramic Shaft and Thrust Washers; contact Kiron Hydraulic Needs with the concentration to decide whether the Ceramic needs to be changed.

Hydrofluoric Acid can 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.

Chemical Transfer Pumps for Hydrofluosilicic Acid

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical Hydrofluosilicic Acid. March Pumps provides Chemical Transfer Pumps ranging from 1 GPM to 200 GPM to suit any application. If pumping the chemical Hydrofluosilicic Acid at room temperature, use a centrifugal sealless magnetic drive chemical pump constructed of Polypropylene, Encapsulated Impeller, Carbon Bushing, and Viton O-Ring.

Hydrofluorosilicic acid is a colourless liquid and inorganic chemical that is seldom encountered undiluted. It has a strong smell and a distinctive sour flavour. Hydrofluorosilicic acid in concentrated form is poisonous and corrosive. It is primarily manufactured as a precursor for synthetic cryolite and aluminium trifluoride. It is also often used in water treatment to keep the fluoride level stable.

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

Chemical Transfer Pumps for Hydrogen Peroxide

Chemical Transfer Pumps

If you need a pump for the chemical Hydrogen Peroxide, March Pumps provides various options. March Pumps provides Chemical Transfer Pumps ranging in size from 5 GPM to 200 GPM to suit any application.
Another well-known chemical molecule is hydrogen peroxide, which is denoted by the molecular symbol H2O2. Hydrogen peroxide is commonly used for cleaning as well as the everyday treatment of small wounds and other physical irritations. However, hydrogen peroxide has various applications as a chemical component and is required in a variety of sectors, including aerospace and textile manufacture.

In commercial and industrial contexts, hydrogen peroxide pumping may be required. March pumps. is pleased to provide a diverse selection of chemical pumps, both magnetically linked and magnetic drive, to address client hydrogen peroxide difficulties. If pumping hydrogen peroxide at room temperature, use a centrifugal sealless magnetic drive chemical pump constructed of polypropylene, kynar plastic, or stainless steel, with a carbon or mica Teflon bushing.

Chemical Transfer Pumps for Nitric Acid

Chemical Transfer Pumps

Looking for Chemical Transfer Pumps for the chemical Nitric Acid? March Pumps offers several options! March Pumps provides Chemical Transfer Pumps ranging from 5 GPM to 200 GPM to suit any application. To pump Nitric Acid at room temperature, use a centrifugal sealless magnetic drive chemical pump composed of Polypropylene, Kynar, or Stainless Steel, with a Teflon O-Ring, encapsulated impeller, and Mica Teflon Bushing.

Nitric acid (HNO3), often known as the spirit of nitre, is a mineral acid with a high corrosion rate. The chemical is initially colourless, but when it decomposes into nitrogen oxides and water, it takes on a yellow hue. Nitric acid is usually accessible as a 68% solution in water. Concentrations of greater than 86% are referred to as fuming nitric acid.

The chemical Nitric Acid can 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. Higher concentrations and temperatures of the chemical Nitric Acid, combined or separately, may render the pumps described above ineffective. It is strongly advised that, regardless of temperature or concentration, you contact Kiron Hydraulic Needs directly to examine your application before obtaining a pump. Nitric acid has a global production of roughly 30 million tonnes per year and is utilised in a variety of sectors, most notably in the manufacturing of fertilisers, which accounts for 75 to 80 percent of global nitric acid production.

Chemical Transfer Pumps for Phosphoric Acid

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical Phosphoric Acid. March Pumps provides a pump for Phosphoric Acid ranging from 5 GPM to 200 GPM to suit any application. To pump phosphoric acid at room temperature, use a centrifugal sealless magnetic drive pump made of polypropylene or Kynar plastic, encapsulated impeller, Viton or Teflon O-Ring, and carbon or mica Teflon bushing. Phosphoric acid is a colourless, clear, and odourless liquid.

It’s a powerful inorganic acid with the chemical formula H3PO4. It can be created by absorbing phosphorous pentoxide directly in water or by digesting phosphate rock with sulphuric acid. The most common kind of phosphoric acid is a 90% aqueous solution.

Phosphoric acid has a variety of applications, including food additives, rust inhibitors, fertilisers, electrolytes, dispersion agents, dental and orthopaedic etchants, and many others. Phosphoric Acid can be heavy depending on its concentration and temperature, the impeller must be adjusted to prevent the motor from disconnecting or overloaded.

Higher concentrations and temperatures of the chemical Phosphoric Acid, whether mixed or alone, may render the pumps described above useless. Regardless of the temperature or concentration, before purchasing a Chemical Transfer Pump, you should know Kiron Hydraulic Needs directly about your application.

Chemical Transfer Pumps for Potassium Hydroxide

Chemical Transfer Pumps

March Pumps offers a wide range of pumps for the chemical Potassium Hydroxide. March Pumps provides Chemical Transfer Pumps for any application, with flow rates ranging from 5 to 200 GPM. To pump Potassium Hydroxide at room temperature, use a centrifugal magnetic drive pump with Polypropylene or Ryton Plastic, Stainless Steel, Teflon O-Ring, and Carbon or Ryton/Teflon/Carbon Combination Bushing.

Chemical Transfer Pumps for Potassium Permanganate

Chemical Transfer Pumps

March Pumps offers a wide range of pumps for the chemical Potassium Permanganate. March Pumps provides Chemical Transfer Pumps ranging from 5 GPM to 200 GPM to suit any application.

To pump the chemical Potassium Permanganate at room temperature, use a centrifugal sealless magnetic drive chemical pump manufactured of Polypropylene, Ryton, or Kynar Plastic or Stainless Steel, Viton O-Ring, and Carbon, Mica Teflon, or Ryton/Teflon/Carbon Combination Bushing.

Potassium permanganate can be heavy depending on the concentration and temperature. If the specific gravity reaches 1.1, the impeller must be adjusted to prevent the motor from disconnecting or overloading.

Chemical Transfer Pumps for Salt Water

Chemical Transfer Pumps

March Pumps offers a wide range of pumps for liquid salt water. March Pumps provides a variety of Chemical Transfer Pumps ranging from 1GPM to 200 GPM to suit any application.

Salt Water may be pumped at ambient temperatures using any of March’s centrifugal sealless magnetic drive pumps. Above ambient temperature, various pumps will have varying saltwater temperature restrictions, particularly when nearing 190F.

Chemical Transfer Pumps for Sodium Cyanide

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical Sodium Cyanide. March Pumps provides Chemical Transfer Pumps ranging from 1 GPM to 200 GPM to suit any application.

When pumping the chemical Sodium Cyanide at room temperature, use a centrifugal sealless magnetic drive chemical pump made of polypropylene or Kynar plastic.

Sodium cyanide may be very heavy depending on its concentration and temperature. If the specific gravity reaches 1.1, the impeller must be adjusted to prevent the motor from disconnecting or overloading.

Chemical Transfer Pumps for Sodium Hydroxide

Chemical Transfer Pumps

March Pumps provides a wide selection of Chemical Transfer Pumps for the chemical sodium hydroxide. March Pumps offers Chemical Transfer Pumps for applications ranging from 5 GPM to 200 GPM. To pump Sodium Hydroxide at room temperature, utilise a centrifugal sealless magnetic drive chemical pump with an encased impeller made of Ryton and/or Polypropylene, a Teflon O-Ring, and Carbon or Ryton/Teflon/Carbon bushings.

sodium hydroxide, often known as lye or caustic soda, is an inorganic compound with a strong metallic base. Caustic soda comes as granules, pellets, flakes, and solutions of varying concentrations. Sodium hydroxide may be heavy, depending on its concentration and temperature. If the specific gravity reaches 1.1, the impeller must be adjusted to prevent the motor from disconnecting or overloading.

Higher concentrations and temperatures of the chemical Sodium Hydroxide, together or individually, may render the pumps mentioned above inoperable. It is strongly recommended that, regardless of temperature or concentration, you contact Kiron Hydraulic Needs directly to have your application evaluated before purchasing a pump. As of 2004, global demand for sodium hydroxide had surpassed 51 million tonnes.

Chemical Transfer Pumps for Sodium Hypochlorite

Chemical Transfer Pumps

March Pumps provides a wide selection of Chemical Transfer Pumps for the chemical sodium hydroxide. March Pumps offers Chemical Transfer Pumps for applications ranging from 5 GPM to 200 GPM. To pump Sodium Hydroxide at room temperature, utilise a centrifugal sealless magnetic drive chemical pump made of Ryton and/or Polypropylene Plastic, with an encased impeller, Teflon O-Ring, and a Carbon or Ryton/Teflon/Carbon bushing.

Sodium hydroxide, often known as lye or caustic soda, is an inorganic compound with a strong metallic base. Caustic soda comes as granules, pellets, flakes, and solutions of varying concentrations. Sodium hydroxide may be heavy, depending on its concentration and temperature. If the specific gravity reaches 1.1, the impeller must be adjusted to prevent the motor from disconnecting or overloading.

Higher concentrations and temperatures of the chemical Sodium Hydroxide, together or individually, may render the pumps mentioned above inoperable. It is strongly recommended that, regardless of temperature or concentration, you contact Kiron Hydraulic Needs directly to have your application evaluated before purchasing a pump.

Chemical Transfer Pumps for Sulfuric Acid

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical sulphuric acid! March Pumps provides Chemical Transfer Pumps for applications ranging from 5 GPM to 200 GPM. If pumping Sulphuric Acid at room temperature, use a centrifugal sealless magnetic drive chemical pump composed of Polypropylene or Kynar plastic, with an encapsulated impeller, Viton O-Ring, and either a Carbon or Mica Teflon Bushing.

Before determining which pump to use to handle sulphuric acid liquids, you need to understand the properties of sulphuric acids and how they influence various elements of pumps. You should also evaluate many factors that define the ideal Sulphuric Acid Pump for your specific needs. These characteristics include but are not limited to, the acid content, liquid temperature, specific gravity, and pump materials. Sulphuric Acid can 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.

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

Urea Chemical Transfer Pumps

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for the chemical urea. March Pumps provides Chemical Transfer Pumps for urea ranging from 1 GPM to 200 GPM to suit any application.

If pumping the chemical Urea at room temperature, use a centrifugal sealless magnetic drive chemical pump composed of Polypropylene, Kynar Plastic, or Stainless Steel with an encapsulated impeller.

The chemical urea 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.

Chemical Transfer Pumps for Wort

Chemical Transfer Pumps

March Pumps offers a wide range of Chemical Transfer Pumps for liquid Wort. March Pumps offers Wort Chemical Transfer Pumps ranging from 1 GPM to 120 GPM for a variety of applications.

If pumping the liquid Wort near boiling, use a centrifugal sealless magnetic drive chemical pump composed of polysulfone or stainless steel with a Mica Teflon bushing.

When Wort reaches boiling point, it is critical to monitor the Net Positive Suction Head Available (NPSHA) and ensure it exceeds the Net Positive Suction Head Required (NPSHR) to avoid cavitation.

Our Principals

March Chemical Transfer Pumps are required for chemical transfer applications. Our mag drive pumps are intended for heavy-duty applications in agriculture, construction, public works, transportation, industrial settings, and fuel generation.

Kiron Hydraulic Needs takes care of March Manufacturers in India, they are the authorized distributors of March Pumps in India, they have their own manufacturing setup in Ahmedabad, and Head office in Mumbai followed by regional offices in Chennai, Delhi, Pune, and Asangaon.

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