A laboratory nitrogen generator is a machine that is able to separate nitrogen molecules from the air around it by using a compressed air source. By removing the vast majority of oxygen molecules and other impurities from an air source, these machines are able to produce high purity or ultra-high purity nitrogen gas needed to run a variety of different laboratory applications and instruments.
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There are many applications that require a lab to use a nitrogen gas generator, with LC-MS, GC, ICP, ELSD, and sample preparation/blowdown evaporation being the most common. Each application will have specific nitrogen requirements (flow rate, purity level, etc.) which will determine the exact type of N2 generator needed by the lab.
N2 gas generators aren’t the only way labs are able to obtain nitrogen. Let’s get into some other common sources, and discuss when they may be a better fit.
Although nitrogen generators are a must-have for many laboratories, there are some instances where they just don’t make sense. Some labs may have a nitrogen consumption rate that is just too high for a generator to meet. On the other hand, some may require such a low amount of gas that the purchase of a generator can’t be justified.
So what are the common nitrogen gas sources for labs and who should be using each?
Ordering nitrogen gas from a third party vendor and having it delivered to your facility in tanks, cylinders, or Dewars is a great option for labs who have a very low or sporadic need for nitrogen. It’s a convenient way to get a small amount of N2 gas which may only be needed for a single project, without committing to the purchase of a new piece of equipment.
The technology behind membrane-based nitrogen generators is…you guessed it…a membrane. This type of generator contains a series of narrow, semi-permeable fibers located in a porous membrane. As compressed air is passed through, some gas molecules such as oxygen, carbon dioxide and water vapor are able to permeate the fibers quite easily and are vented off, while nitrogen molecules pass through much slower. This results in a high purity nitrogen stream (95-99% purity) from the membrane outlet.
Continue reading here for a more in-depth explanation on how membrane nitrogen generators work.
Organomation’s NITRO-GEN is a popular membrane-based N2 generator for sample preparation that is used by analytical laboratories worldwide. Producing up to 20 L/min at up to 99% purity, this lightweight generator is suitable for those using blowdown evaporation for solvent concentration. Find out how the NITRO-GEN supplies high purity nitrogen for a sample concentrator.
PSA generators work by using two columns of tightly packed material called Carbon Molecular Sieve (CMS). Compressed air will pass through one CMS column, which will adsorb all oxygen, water vapor and other molecules, while allowing nitrogen to pass through and be stored in an accumulation tank. Once one sieve becomes saturated, compressed air will be diverted to the second CMS column, allowing the first one to depressurize, releasing all adsorbed impurities through an outlet. This process repeats over and over, leaving behind N2 gas with a 98-99.999% purity.
Continue reading here for a more in-depth explanation on how PSA technology works.
As this technology tends to produce a slightly higher purity and flow rate than with membranes, PSA generators are a great choice for both sample preparation and LC-MS applications. The NITRO-GEN+ is an affordable PSA generation solution that is able to produce up to 35 L/min, meeting all your sample prep and analytical needs. Find out how the NITRO-GEN+ can be your laboratory’s all-in-one nitrogen generation solution.
For more information on the pros and cons of each generator type, go to "which generator technology is right for me?"
Although seen as the popular and “traditional” nitrogen generation solution by many, the process of purchasing N2 tanks is quite pricey, especially for those consuming gas on a weekly or daily basis. There are many associated costs with tank-based solutions including the cost of the actual nitrogen, tank rentals, and required delivery. Let’s take a look at how much one analytical lab could be spending on tanks in just one year.
** This example uses estimated pricing. Your actual costs may vary.
A typical nitrogen tank costs around $50. It’s also common for vendors to charge a monthly rental fee, which is often around $20 each month, per individual cylinder. On top of that, you’ll be charged for delivery – for this example, let’s say the lab orders their tanks locally and it only costs them $25 per delivery.
Now, let’s estimate the nitrogen consumption for this particular lab. Let’s say they need 30 L/min of nitrogen for 4 hours a day, 5 days a week. That equals 36,000 liters of nitrogen per week, or about 5 cylinders. Over the course of a whole year, that’s nearing 2 million liters and over 250 nitrogen cylinders.
In just one year, this lab would be spending over $18,000 in nitrogen tanks alone! For most, this just isn’t feasible.
Acquiring a generator and producing your own nitrogen is a sure way to cut back on these extensive costs. Laboratory generators that are able to produce moderate flow rates and purity levels can range anywhere from $5,000 to $40,000. This one-time payment plus any required maintenance are the only things you have to take care of. No more worrying about rental costs, delivery costs, or wondering why the price of tanks has suddenly increased.
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Depending on a lab’s nitrogen consumption levels, the payback period on a N2 generator could be as little as 1-3 years.
Determine how long it would take your lab to pay off a generator by using this simple nitrogen generator payback period calculator, and see how much you could be saving.
Let’s say you’re in the middle of concentrating down some analytical samples using a nitrogen dryer, and your nitrogen tank has just run out. You’re forced to stop the evaporation process, disconnect the empty tank, move it aside, bring in a new tank, recalibrate it, and hook it up to the evaporator. All the while your samples are sitting in the open air with the risk of oxidizing or otherwise becoming contaminated. With the constant gas supply a N2 generator provides, you’ll never have to worry about this happening.
What is a Nitrogen Generator?
Nitrogen generators or nitrogen generation systems are machines that can separate nitrogen molecules from compressed air. These nitrogen gas generators or N2 generators are capable of purities of up to 99.999% at flow are required for your scientific equipment.
Peak Scientific's Nitrogen generators are used in laboratories all over the world to supply various analytical instruments with the most reliable nitrogen gas source. Our N2 gas generators can produce up to 99.999% pure nitrogen at the push of a button for your laboratory.
Nitrogen generation systems are still the most efficient way to supply instrument gas as, unlike gas cylinders, a nitrogen gas generator never runs out of gas and constantly supplies a consistent high purity of gas. Nitrogen, for those who don’t know, is an inert gas meaning it is not very reactive with other elements and chemicals. Nitrogen is highly abundant, accounting for around 78% of the earth’s atmosphere meaning we breathe in more nitrogen than any other element every day.
What is Nitrogen?
Nitrogen, for those who don’t know, is an inert gas meaning it is not very reactive with other elements and chemicals. Nitrogen is highly abundant, accounting for around 78% of the earth’s atmosphere meaning we breathe in more nitrogen than any other element every day.
Atomic number 7, discovered in by Daniel Rutherford, nitrogen is an inert gas meaning it is not very reactive with other elements and chemicals. Nitrogen is highly abundant, accounting for around 78% of the earth’s atmosphere meaning we breathe in more nitrogen than any other element every day.
Nitrogen use in the lab
Nitrogen gas has been used in laboratory analysis for decades. In the past, labs were required to have their nitrogen gas supply delivered in cylinders or in bottles from their closest nitrogen plant, which for some labs could take several days to deliver. These cylinders or bottles would then supply an LC-MS (Liquid Chromatograph-Mass Spectrometer) instrument, or perhaps a detector in the case of GC (Gas Chromatograph), allowing the lab to carry out its analysis.
Nitrogen generators in the lab
There is an alternative to nitrogen cylinders, this is an on-site nitrogen generator. A nitrogen generator not only removes the hassle of having to change over cylinders, it provides an uninterrupted supply of gas at a consistent purity. This consistency is generated using one of two technologies, namely, Pressure Swing Adsorption (PSA) and membrane nitrogen generators.
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Membrane nitrogen generators
The principle of operation for a membrane nitrogen generator is where atmospheric air is compressed by an air compressor and passed through a hollow fibre membrane, filtering out parts of air (primarily oxygen) leaving behind a high purity nitrogen gas.
More advanced nitrogen generation systems can include multiple stages of filtration before reaching the membrane, this removes more of the other particles in the gas such as dust and moisture. Fine mesh filters are commonly used in the nitrogen generation process, these are for removing particles in air whilst air dryers are used to remove moisture. Beyond ensuring higher purity of nitrogen, these extra filtration stages will also protect the membrane.
PSA nitrogen generators (Pressure Swing Adsorption)
A PSA nitrogen generator (Pressure Swing Adsorption) works in a similar way to a membrane nitrogen generator in terms of compressing atmospheric air with an air compressor. Instead of passing through a membrane, a PSA nitrogen generator will pass air through a column of tightly packed material at pressure made of carbon called a Carbon Molecular Sieve (CMS). The CMS only allows the smaller nitrogen molecules to pass through whilst the larger molecules of oxygen and other molecules are adsorbed by the CMS leaving high purity nitrogen. Two CMS columns are required for a PSA nitrogen generator, as one column is deprussirized the other pushes the air through the sieve at pressure hence the name Pressure Swing Adsorption.
Similar again to the membrane nitrogen generator, an advanced PSA nitrogen generator will also contain prefiltration stages to remove dust particles and moisture from the air before entering the CMS.
Nitrogen generators vs nitrogen gas cylinders
For most mass spectrometers, a high volume of nitrogen gas is required meaning that cylinders or bottles could be consumed in a matter of days, when using an LC-MS instrument. This can result in regular interruptions of analysis and the inconvenience of having to switch over cylinders or wait for nitrogen deliveries. There is also the added inconvenience of the inconsistent purity delivered by cylinders and bottles when they reach the lower end of their capacity. This is because contaminants can enter the empty space in the cylinder. These impurities can have an impact on the integrity of analysis as they can react with the sample.
These inconsistencies and inconveniences are eliminated by a nitrogen gas generator which is why more and more labs are turning to nitrogen generators to supply their instrument gas. Also, a nitrogen generator is especially suitable for time-critical applications where there is no time for the analysis to be halted while gas cylinders are changed over.
On-site nitrogen gas generation is also a safer solution than using cylinders as staff are not required to move heavy cylinders around the laboratory. There are also cost benefits as on-site nitrogen generator reduces the administrative burden of ordering cylinders (raising purchase orders and scheduling deliveries), paying delivery fees. On top of this, the price for gas which is delivered in cylinders can fluctuate from month to month, as the market price of nitrogen gas is subject to supply and demand volatility. It is also necessary to consider the environmental benefits of eliminating continuous deliveries of gas. The production of the gas itself must also be taken into account as producing gas at a nitrogen plant requires vast amounts of energy consumption.
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Nitrogen generators for the modern laboratory
