When looking for magnetic drive pumps, your needs will vary. Certain materials are better for certain industries, and price point is always a consideration. In the last few months, weve given you the background on the variety of materials we use in our magnetic drive pump production: Polypropylene, Ryton, Kynar, and Stainless Steel 316. But how do these materials stack up against each other?
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Lets compare each type of material in order to help you find the best mag drive pump for your needs.
Polypropylene
Polypropylene, also known as PP, is a thermoplastic polymer that is known for its high chemical resistance and strength against deformation. Pumps made with PP may withstand a maximum internal pressure of 50psi and a maximum temperature of 190F. Versions of PP pumps may also be FDA compliant.
PP pumps tolerate the following types of liquids: Fluosilicic Acid, Hydrochloric Acid (Muriatic), hydrogen peroxide, Nitric Acid, Phosphoric Acid, Sodium Hydroxide, Potassium Hydroxide, and Sulfuric Acid.
Polypropylene is the most widely used material for mag drive pumps because it is cost effective to produce. It also features highly effective resistance to a variety of chemicals and is used heavily in the food and medical industries.
Ryton
Ryton, also known as PPS (polyphenylene sulfide), is a thermoplastic product known as having the broadest resistance to chemicals of any high performance plastics.
Pumps constructed with Ryton may tolerate a maximum internal pressure of 50psi and a maximum temperature with 190F. Some Ryton pumps are FDA compliant.
Ryton pumps tolerate the following liquids: Freon 11, Acetone, Benzene Sulfonic Acid, Copper Chloride, Chlorobenzene, Diesel Fuel, Ethyl Chloride, Hexane, Petroleum Ether, and Xylene.
Ryton is stronger than PP because of the highly stable chemical bonds created between the elements used to make this product. Ryton is also able to tolerate different types of liquids than a polypropylene-made pump.
Kynar
Kynar, the trade name for the chemical PVDF (Polyvinylidene Fluoride), is a thermoplastic fluoropolymer that is used in applications that require the highest amount of strength. Mag drive pumps made with Kynar may tolerate a maximum internal pressure between 60 and 75psi. It can operate with a maximum temperature of 200F.
Kynar pumps are built to withstand high temperatures and a large number of liquids. Kynar pumps are more expensive than the other plastic-made pumps but your investment will operate against harsher conditions.
Pumps made with PVDF can pump liquids such as Sodium Hypochlorite, Chrome Alum, Chlorine, Dichloroethylene, Ethylene Dichloride, Hydrofluoric Acid, Kerosene, and Phosphorus Trichloride.
316 Stainless Steel
Mag drive pumps made with stainless steel are the only models of the four types of pump material that are able to tolerate higher pressures, including city water pressure.
Stainless steel magnetic drive pumps have a maximum temperature of 250F and can be increased with modification. They can also tolerate temperatures below the freezing point (32F) much more effectively than the plastic pumps listed above. Steel pumps are also FDA compliant.
While more expensive than plastic, stainless steel can tolerate high temperature or pressure ratings. Hot or high pressure liquids can cause plastic pipes to expand, which can cause leaking. This can be dangerous for your facility and expensive to repair. Stainless steel may be a higher investment, but if you have a highly caustic liquid that requires extra care, it is a wise investment.
Conclusion
When choosing your next magnetic drive pump, take into consideration your needs: type of liquid you are working with, operating temperature, level of chemical resistance needed and your budget. Our line of magnetic drive pumps can be constructed based on your unique specifications. To learn more, contact us today.
Sealless magnetic drive pumps offer greater reliability and user safety over traditional mechanically sealed pumps because they completely contain liquids during the pumping process. This feature gives assurance to industries processing hard-to-seal hazardous or volatile chemicals that can impact environmental and health and safety requirements.
This guide is focused on two broad categories of industrial pumps: mechanically sealed pumps and sealless magnetic (mag) drive pumps.
Mechanically sealed pumps are lubricated and cooled by leaking fluid as they operate. As the seals wear down, they leak greater amounts of liquid, which can lead to process inefficiency, decreased workplace safety, and increased maintenance costs.
A sealless mag drive pump is a traditional centrifugal pump without the mechanical seals that are normally used to seal the pump shaft. There are no parts to wear. A static containment shell replaces the dynamic seal to form a liquid barrier. Movement energy is transferred to the pumps hermetically sealed liquid end by a set of outer magnets that rotate, transferring the magnetic force through the static containment shell (fluid barrier) to drive a set of inner magnets, thus turning the impeller.
Sealless mag drive pumps provide the significant benefit of zero leakage and are better for pumping not only corrosive fluids, but expensive fluids where yield is paramount.
The Many Advantages of Sealless Mag Drive Pumps
- 1/3 the number of parts of conventional types
- No mechanical seals or flush lines
- Easy installation - minimal or no piping changes
- Close-coupled design - no alignment needed
- Zero emissions for EH&S
- Interchangeability - minimal spares and parts inventory
- Wide range of standard features
- Lower cost of ownership
Products Focus
The Backstory on Sealless Mag Drive Pumps
Since the original development of mag drive pumps by HMD Kontro in the s, they have gained widespread acceptance.
Our focus is on three quality sealless mag drive pump manufacturers: HMD Kontro, ANSIMAG, and EnviroGear®. All meet ANSI and ASME standards. ANSIMAG and HMD Kontro are centrifugal brands of Sundyne LLC.
ANSIMAG is a reliable, ETFE, nonmetallic-lined mag drive pump that can safely handle a wide range of chemicals, including acids and caustics up to 250°F (121°C), without corrosion. These pumps will go up to a maximum 100 hp and are attractively priced. Despite the lower temperature limit, ANSIMAG offers an economical alternative to an exotic metal pump.
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HMD Kontro innovated the original sealless mag drive pump in . It is particularly suited to the handling of high-temperature, toxic, lethal, carcinogenic, flammable, expensive, caustic, heat transfer, corrosive, aggressive, and volatile process fluids. Several HMD Kontro models are available for numerous ASME and API applications. HMD Kontro pumps range in temperatures up to 750°F without any auxiliary cooling and a maximum horsepower range up to 400.
EnviroGear from PSG, a Dover company, offers a metallic E-Series mag drive gear pump, featuring a simple, unique design that has only seven primary parts and a patented between-the-bearing support system that reduces shaft deflections.
Complementary Technologies
All three of these pumps are complementary and form a trinity of possibilities: a nonmetallic centrifugal pump, a metallic centrifugal pump, and a gear pump that are all mag drive with sealless technology. One plant may commission all three of these pumps to address various applications - from the harshest to less severe.
Because ANSIMAG, HMD Kontro, and EnviroGear are all ANSI (American National Standards Institute) pumps, they can be easily configured into your process, just by lifting out the failing unit and replacing it with the new - often without changing your piping.
Why Sealless? RELIABILITY
Mag drive pumps have become the standard for low maintenance and reliability, the latter having become a very popular term in our industry. We typically interface with purchasing, engineering, or maintenance managers, but what is becoming more and more common in industry today is Reliability Engineers. Their job is to find where they are spending too much money on pumps, which typically are mechanical seal, i.e., expensive and difficult to replace. We are finding that the versatile sealless pump can eliminate that reliability issue.
With sealless technology, you can eliminate the need for that seal, giving you a more cost effective, simpler, easy-to-maintain, long-term, and safer solution.
Application Focus - Its Local
Sealless mag drive pumps are found in industrial applications - from steel pickling to wastewater - but I would like to highlight an application right in our own backyard here in western Pennsylvania.
West View Cunningham Co. (WVCC) is centrally located in the Marcellus Shale natural gas region, which has made us the go-to source for field service companies. Sealless pumps are found in the entire spectrum of the oil and gas industry, but are more popular upstream and downstream, as opposed to midstream.
Just an overview: Upstream in the oil and gas industry is where they are performing horizontal drilling and hydraulic fracking, for example. Midstream is where they are taking the gas and pumping it out of the ground, splitting it, and creating byproducts. The downstream sector is where processing, refining and purifying occur, as well as the marketing and distribution of products.
A popular application in the upstream market is brine (salt water) transfer for fracking. That is where you will find ANSIMAG pumps. Brine tends to crystallize, which accelerates wear on mechanical seal faces, resulting in excessive leaks. Brine used in fracking also has a hazardous radioactive signature that makes the standard zero emissions feature by ANSIMAG attractive.
In this region, wet gas is found and has many uses, unlike the dry gas found in northeastern Pennsylvania, which does not require further processing. When wet gas is taken out of the ground, it is sent to processing plants where it is split off into the -anes, such as propane, butane, and ethane.
An example of a downstream application is the large Shell ethane cracker plant in Monaca, PA, which is breaking down ethane into smaller molecules to create ethylene, used for plastics manufacturing. HMD Kontro is very popular in the downstream for processing facilities at end-user chemical plants, such as Shell.
The chemical industry in our Ohio River Valley will flourish once again because the local oil and gas industry will provide good feedstock.
The Importance of Paying Attention
Sealless has become a preferred choice for the referenced oil and gas applications, but it is not always the best alternative. In processes that pump heavy slurries or high-solid content, sealless is not typically the best technology. Sealless centrifugal pumps thrive on water-like fluids, and even some abrasive or lime slurries, but every case is unique. Concentration levels, in combination with temperatures and other variables, need to be examined.
It is best to work with a distributor who has a wide portfolio and a neutral perspective. The bottom line is that the distributor needs to specify the best equipment for that application, whether it is sealless or not.
In Closing
Theres a wide range of benefits and features with these sealless products, so trust a distributor that can work closely with you. A full line of custom application work needs to be performed in the design of the pump, as well as in an engineered system. That's why it's important for a distributor to have engineers on staff.
Tom Plank is President of West View Cunningham Co, a distributor of pumps and engineered systems for industrial, commercial, and municipal applications in western Pennsylvania, eastern Ohio, eastern Kentucky, West Virginia, and western Maryland.
Contact us to discuss your requirements of Stainless Steel Magnetic Drive Pump. Our experienced sales team can help you identify the options that best suit your needs.
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