Like Oil and Water, and Ethylbenzene?

Chemical Resistance Compatibility

Tips From the Service Bench

Technology TIP

When pumping liquids, you must be sure flow path wetted materials are compatible with intended media. If not researched and tested, issues may arise in the field that may impact product life and maintenance schedules.

While Chemical Compatibility Charts are a good place to start your research, there is typically a standard disclaimer at the bottom that limits their application and places the responsibility on you the buyer, such as:

Warning: The information in this chart is to be used as a guide, ONLY. Although believed to be accurate, actual decisions on material selection need to be thoroughly tested and evaluated by the customer for each specific application. It is the full responsibility of the customer to perform and evaluate the compatibility of materials for their specific requirements. The manufacturer takes no responsibility, etc., etc…


ARE WE COMPATIBLE?

Polymer components exposed to incompatible media can experience swelling or loss of physical properties. When severe, these effects can lead to degradation of pump performance, reduced pump life, leakage, and even pump failure. These issues are avoided with proper material selection. Many pump manufacturers provide a selection of flow path materials to meet most needs, and some provide additional material options for exceptional cases.

TESTING OUR RELATIONSHIP

So, how do you go about testing chemical compatibility? You can get test swatches of possible polymer materials. But, results using test swatches can be less than applicable since they may be much thinner or thicker than the actual parts used in pumps. KNF offers a better way to assist your compatibility decisions, with our Chemical Resistance Test Kit (p/n 173610). This kit contains our most popular head plates and elastomer valves materials. These are actual production parts in current use, so they offer the best test subjects possible. For each material, two parts are supplied – one for resistance testing, the other as a comparison reference. Simple instructions will guide you through the static soak test process.

Chemical Resistance Kit Materials

Kit materials: (1) PEEK (2) PPS (3) PVDF (4) PP (5) FFKM-A (6) FKM (7) EPDM (8) FFKM-B (9) FFKM-C

SUMMARY

In a typical fluidic system, component lifetime will be influenced by several variables beyond simple compatibility of the liquid media, including chemical concentration, liquid temperature, operating pressure, flow rate, and exposure to abrasive materials. A static soak test cannot, therefore, replace a long-term validation test with a pump running in a real system under system parameters. But, a static soak test is well suited as part of an initial screening to identify and eliminate materials which are clearly incompatible with expected liquids.

Contact KNF today for a Chemical Resistant Test Kit and get pumping with confidence!

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Is It Time To Replace Your Water Aspirator?

A water aspirator is a simple device capable of creating a low strength vacuum for many standard laboratory applications. Though they are inexpensive to purchase and easy to use, the long-term operating costs and environmental impact of laboratory water aspirators can be quite significant.

The above video from Lab Manager follows Linda the Lab Manager as she and her colleagues investigate the real costs of owning and operating a laboratory water aspirator.

Video: Choosing the Best Vacuum Pump for Your Lab Application

 

Are you in the market for a new laboratory vacuum pump? Perhaps you need more information on which pump to choose. A new video, produced by Lab Manager, may provide valuable insights. View the video directly above, or click here.

Reaction Time: Q&A with Jim Abbott, Market Manager, Julabo USA, Inc.

PITTCON mascot, Pete Con, standing beside the Julabo reactorNot too long ago, while attending the PITTCON show in Atlanta, Georgia, we came across a unique and eye-catching exhibitor system – a special reactor manufactured by Julabo USA, Inc. featuring two KNF SIMDOS® liquid metering pumps transferring fluids to and from the reactor vessel. The machine is quite intriguing on its own; however, after having noticed the two KNF liquid diaphragm pumps, we contacted Jim Abbot, Market Manager, from Julabo USA, Inc. to learn more about the company’s impressive reactor.

1. Overall, what is the purpose of this reactor, what exactly does it do? Does it have an official name?

“We typically just refer to the small reactors of 100mL to 5L size as ‘bench scale’ or ’bench top reactor’, and the 10L to 100L sizes as ’kilo-scale pilot plant reactors’. Systems are available in both glass and stainless steel. Also, we are proud to be the US distributor of Berghof high pressure reactor systems – these have a ton of applications which they are used for but typical uses include: pharma, bio-pharma, plastics, paints, polymers, adhesives, petrochemical, energy, and most recently cannabis. The reactors are primarily used in mixing applications but with add-on features they can be easily equipped for various distillation methods such as: refluxing, short path and fractional distillation. All of our units are automation capable and can be easily controlled using our PC or PLC based AUTOReactor™ control and data logging packages.”

2. What is the function of the two KNF SIMDOS® pumps used within the Julabo reactor?

SIMDOS_Pumps_2 SIMDOS_pumps_1“We use the KNF pumps to control liquid additions or product sampling. The KNF SIMDOS pumps are used, specifically, because of their high quality, reliability, and automation capability. The pumps are connected to our PC or PLC based AUTOReactor™ control and data logging packages which allows users to program and control the process quite effectively and efficiently.”

3. I noticed that the reactor uses both KNF SIMDOS 10, and SIMDOS 02 pumps. Is there a reason why two different KNF SIMDOS pump types were selected?

“We displayed both [pumps] on [our demo] system, but typically we use the SIMDOS 02 on the bench scale reactors, while the SIMDOS 10 is used on the kilo-scale reactors. This is because of their different delivery rates as associated with the scale of the process, but quite often these are used interchangeably across both platforms.”

4. Is there any particular reason that compelled the system’s designer to choose KNF pumps over other dosing pumps from other pump manufacturers?

“We (Julabo) have had a long relationship with KNF both in the USA, and around the world. Moreover, we know without a doubt that KNF has the same principals as JULABO as far as delivering high-quality, reliable products.”

5. Will the Julabo reactor(s) be featured at the ACS tradeshow next week?

“Yes it will; we plan to display it again with the [KNF SIMDOS] pumps in a different configuration but always taking front stage, hand-in-hand with the JULABO products.”

6. Would you like to share any additional facts, or interesting notes regarding this system?

“We are devoted to offering our expertise in temperature control and reaction systems to our customers. Likewise, we are dedicated to providing solutions, from the inception of a process, through scale-up, and into manufacturing. One of the key factors is we design all of our systems with the utmost flexibility so as processes change, and companies grow we to can change and grow together with them.”

Julabo will be exhibiting at the upcoming ACS tradeshow in Philadelphia on August 21-23, 2016. If you will be attending the show, then be sure to check out Julabo’s incredible reactor system(s) incorporating KNF SIMDOS dosing/metering pumps. Also, don’t forget to visit KNF booth #1626 to see our latest laboratory technology, including: SIMDOS 10 and SIMDOS 02 liquid metering/dosing pumps, LABOPORT diaphragm vacuum pumps, LIQUIPORT liquid transfer pumps, the versatile VC 900 vacuum controller, and KNF’s award-winning RC 900 rotary evaporator.

In Case You Missed It: KNF Neuberger Pump Used on PBS’ “NOVA”

“The global cyberwar is heating up and the stakes are no longer limited to the virtual world of computers.”

So says the voiceover talent, during a recent episode of “NOVA” on PBS. During the episode, real-world examples are provided to examine the science and technology behind today’s cyber warfare. Already, highly sophisticated, stealthy computer programs such as the notorious Stuxnet worm can take over the control systems that regulate food factories, pipelines, power plants, and chemical facilities—even our cars.

However, this blog isn’t written to put a scare into our readers; we just found it interesting that 23 minutes into the episode, a KNF air pump is used to pop a balloon! (episode available on PBS website via link below)

http://www.pbs.org/wgbh/nova/military/cyberwar-threat.html

Liam O’Murchu, Sr. Development Manager at Symantec, demonstrates how a PLC—or programmable logic controller—can be used with malicious code to override an intended program command. The air pump, KNF model N 828, inflates a balloon for three seconds, and then stops, as directed by the PLC. However, if infected, the PLC can be used to drive the pump continuously, thus leading to the balloon being inflated until…POP!

KNF’s Laboratory Symposium Offered an Evening of Exploration and Learning

Last week, KNF Neuberger Inc. hosted a Laboratory Pumps and Applications Symposium in collaboration with the Trenton Section of American Chemical Society (ACS). The event, a first of its kind, attracted attendees from local academia and industry.

Beginning in the early evening, the Lab Symposium kicked-off with a mixer featuring beverages and hors d’oeuvres. Attendees became better acquainted with each other, and more familiar with KNF laboratory equipment which was on display throughout the room. Soon after, guests were invited to a guided tour of KNF’s 50,000 square foot manufacturing facility. The tour, led by KNF Director of Sales and Marketing, Eric Pepe, allowed symposium guests to view important aspects of KNF’s pump production area including: assembly and testing stations, high-tech machining equipment, and state-of-the art inventory management systems.

Roland Anderson delivering the Laboratory Symposium presentation.

R. Anderson leads a discussion tailored to the applications employed by those in attendance.

Next, attendees were invited to help themselves to a complimentary hot buffet, featuring local Italian fare. Guests and staff carefully balanced plates, as they made way to their seats for the Laboratory Pumps and Applications presentation, delivered by KNF Laboratory Products Manager, and applications specialist, Roland Anderson (pictured right). The presentation featured a review of pump technologies, their pros/cons, and the benefits of their usage in several typical lab applications.

The evening was capped off with desserts and coffee, as well as a door prize drawing. Congratulations to the prize winners, and thank you to all who helped make this initial KNF Laboratory Pumps and Applications Symposium a success!

If you would like to schedule a similar KNF lunch-and-learn symposium with KNF, at your facility, please contact a laboratory applications specialist.

 

 

KNF to Host Lab Pumps & Applications Symposium in Collaboration with Local ACS

Pumps are an important component in practically all chemistry laboratories. Yet for such a common device, selecting the correct pump for a particular application is often a challenge.

Join us for a Laboratory Pumps and Applications Symposium

Join us on Nov. 4th for a Laboratory Pumps & Applications Symposium

KNF Neuberger, in collaboration with the Trenton Section of the American Chemical Society, will be hosting a symposium on “Laboratory Pumps and Applications”. The presentation will focus on taking the mystery out of laboratory pumps, looking at the most common applications and the pumps that best support them. Discussion topics include:

  • What is the best pump type for my application?
  • What accessories are available to help me optimize the performance of the pump in my application?
  • What are the signs that my pump is in need of maintenance or repair?
  • And much more!


LOCATION

This exclusive, co-sponsored event will be held at KNF’s state-of-the-art, 50,000 square ft. manufacturing facility at Two Black Forest Road in Trenton, NJ.

SCHEDULE
5:30 pm – Mixer with drinks and appetizers, plant tours and product demos
6:30 pm – Dinner and presentation
7:30 pm – Coffee and dessert
Refreshments and dinner are complimentary. There will also be a drawing for door prizes.

PRESENTER
Roland Anderson is the Laboratory Products Manager and applications specialist at KNF Neuberger, Inc.

RSVP
Reservations are required, as seating is limited, so be sure to register now!

A Simple Lab Equipment Change with an Immediate, Positive Environmental Impact

Right now there is a considerable water shortage throughout the United States, particularly in California, and other Western states. Drought conditions and other environmental factors have wreaked havoc on local agriculture, while the growing water demand of a steadily increasing population has led to a severe water scarcity situation. Moreover, what is currently limited to the Western United States will soon extend throughout the entire country; according to the U.S. Government Accountability Office – 40 of 50 states have at least one region that’s expected to face some kind of water shortage within the next 10 years. This growing national emergency should serve as considerable cause for concern as there are few natural resources as vital to our very survival than water. This isn’t just a U.S. problem either. The water crisis is even worse in other parts of the world where the infrastructure to collect and/or distribute water is poor or non-existent. It would appear that this is, in fact, everybody’s problem.

water aspiratorThe good news is that, while everyone is affected by this water shortage, there are steps that anyone can take to help address and improve the issue. In fact, making one simple change to your laboratory equipment can help save over 50,000 gallons of water per year! In a recent article published by Laboratory Equipment, KNF Laboratory Products Manager, Roland Anderson explains why you should get rid of your water aspirator.

Read article: “Last Word: Why You Should Get Rid of Your Water Aspirator” (Laboratory Equipment, Sep. 2015) >>

Also notable: “Water Aspirators: Cheap Pumps with Environmental Impact and High Operating Costs” >>

Water Aspirators: Cheap Pumps With Environmental Impact & High Operating Costs

Application Note: LabWater Aspirators are a common way of creating a low strength vacuum for many standard laboratory applications. Their simple design employs water running through a narrowing tube to create a reduced pressure via the Venturi effect. The pump’s performance is dependent upon the temperature and pressure of the water, two variables that often change based on the number of users and the ambient temperature, resulting in an unreliable vacuum source. In addition, when being used in chemistry and biology labs, aspirators allow potentially hazardous solvents to mix into the water stream and flow down the drain. Since a stream of continuously running water is required to operate the pump, a significant amount of water is wasted. The cost of water coupled with the environmental impact of wasted water and solvent pollution need to be considered.

With concern over water usage on the rise, use of aspirator pumps is understandably under scrutiny due to their excessive water consumption. A typical aspirator pump requires 1.5 – 2.0 gallons of water per minute to operate.3 Assuming an average of 1.75 gal/min and an average usage of 3 hours per day, 4 days a week for 10 months a year, one aspirator pump uses more than 50,000 gallons (189,000 Liters) per year! To put this amount of water in perspective, it is equivalent to:
Water Aspirator

  • 39,062 flushes of a low-flow toilet.4
  • 3,215 eight-minute showers, or a single shower lasting 416 hours.4
  • Washing 1,852 loads of laundry.4
  • 1.4 years’ worth of water consumed by the average American household for outdoor uses (watering lawns and gardens, etc.).5
  • 1,250 cars washed at a water-efficient car wash facility.6

When one considers the number of facilities with multiple water aspirators in operation, these numbers become staggering! >> Click here to view the full Application Note.

Adding Convenience to Field Filtration, Thanks to the New Mini-LABOPORT® Pump

Field Filtration Pump

Filtration of field water samples is not that easy. In discussions with customers, they’ve mentioned three alternatives that are available to accomplish the task, none of which are ideal:

  • Use a manual vacuum pump. However, manual pumps can be weak and therefore very slow. And, they can wear you out if you have a lot of samples or ones with moderate-to-heavy particulates.
  • Use a generator to power a standard lab bench vacuum pump. This option requires transporting the heavy generator and gasoline to the field water site.
  • Transport samples back to the lab. Transportation requires the extra step of packaging the unfiltered samples, and means a delay in getting results and possible degradation of the sample depending on what is being collected and/or tested.

KNF engineers decided that a fourth option would be useful to field scientists, so they developed the new lightweight 12 volt mini-LABOPORT pump, model PJ26078-811. Designed specifically for in-the-field use where vehicle access is possible, it combines the robust operation of the traditional KNF LABOPORT pump with the ability to be powered via 12V DC car outlet. Therefore, field scientists can now rely on a lightweight oil-free vacuum source in environments where weight, portability, space, and timeliness often factor into operation.

KNF LABOPORT 12V Field Filtration PumpEquipped with a three-meter long, coiled power cord fitted with a 12 volt car outlet adaptor cord and two 1/4” hose barbs for vacuum inlet and outlet, the new 12 volt mini-LABOPORT pump is ideally suited for filtration and gas sampling in the field. Its combination of compact convenience and reliable performance allow it to meet the needs of environmental companies, water treatment plants, field researchers, and anyone in need of a convenient vacuum source in remote locations.

Employing a compact, low-maintenance design, the pump is driven by a sturdy motor and features chemically-resistant construction. Providing up to 11 L/min flow at atmosphere, it offers 75 Torr (100 mbar) end vacuum.

To learn more, click here, and refer to model PJ26078-811, which is the first product listed in the chart on the resulting page. Or, contact us to discuss your particular needs.