What Are The Advantages Of LC/MS Nitrogen Generator?
The nitrogen generator produces a continuous flow of high-purity nitrogen at the selected pressure. LC/MS nitrogen generator can analyze chemical molecule movement and characteristics.
Advantage of LC/MS nitrogen generator
Small footprint- Easy to meet footprint requirement
Extensive Operation- Custom-designed skids
Remote Operation- Require minimal attention and fully automated systems
Simple Solution- Require Minimal Maintenance
No Chemicals- Environmentally Friendly
Minimal Losses- Low HC losses
Uses of nitrogen in Mass Spec
To keep sample solvents from getting to necessary LC/MS components,
nitrogen is typically used in the removal process. Before solvents may affect
the quality of the assay and spectroscopic detectors, nitrogen will destroy
them. How nitrogen is employed within an LC/MS are:
·
Electrospray Ionization Detectors
·
Atmospheric Pressure Ionization Detectors
·
Curtain Gas
Reasons to use nitrogen generator for LC/MS
One of the best choices for analytical processes is the decision to
incorporate an onsite nitrogen generator for operators using LC/MS equipment.
The nitrogen generator confers various benefits such as reduced cost of
production, ease of use and convenience, increased operational safety, and
reduction in overall energy costs.
Increased Operational Safety
The risk involved with handling and storing nitrogen cylinders is removed
by using an on-site nitrogen generator. When nitrogen is created on-site,
accidental leaks resulting from defective storage containers or gas tubing can
be efficiently prevented because just the necessary amount is produced. Having LC/MS
nitrogen generator safety on-site protects workers from the negative
consequences of storing nitrogen cylinders, which improves the entire working
environment.
·
Easy To Use
The simplicity of energizing the nitrogen needed for LC/MS systems only
when necessary is a definite benefit. Transporting and using storage cylinders
is no longer necessary thanks to nitrogen generators. Also, on-site generation
reduces the need for valuable floor space that would have been set aside for
the storage of large gas cylinders.
·
Cheaper operational cost
An on-site nitrogen generator has operating costs that are much lower than
those of provided nitrogen cylinders after the first installation. Nitrogen
cylinder replacement and recalibration increase equipment downtime in addition
to delivery expenses, ongoing maintenance costs, and safety checks—all of which
are unaffected by the usage of nitrogen generators.
·
Capillary columns
Capillary columns are gas chromatography columns with a stationary
phase-coated inner surface rather than packed into the cavity. It is used to
analyze samples for individual chemical compounds they contain. As compared to
the packed column the capillary GC column has more efficient separation of the
sample.
How to choose Capillary columns?
A common kind of capillary column for gas chromatography has a coating of
the stationary phase on the interior of the column. Because they require less
sample for the chromatography process, these columns are generally favored over
the packed variants. When it comes to the column's dimensions, it has a
diameter that is only a few tenths of a millimeter in size.
Your choice should be based on the general considerations:
·
Sample Size
There is no longer a need for big sample injections because modern
detectors are highly sensitive. Capillary
columns should be the first option in such circumstances. Nonetheless,
packed columns can be taken into consideration if the detector sensitivity is
poor because they have higher sample load capacities.
·
Ruggedness
Although metallic columns are tough and can withstand any handling, caution
should be taken to avoid dropping them as this could upset the packing inside
and reduce separation power.
·
Sample Polarity
Most packed columns are composed of glass or stainless steel. Glass columns
are more suited for polar compound separations than stainless steel columns and
are typically beneficial for non-polar compound separations.
GC Consumables
To separate and identify components in a volatile sample Gas chromatography
is an analytical technique. It is used on compounds that have passed boiling
point at room temperature and have a molecular weight of less than 1250 Da. GC
consumables provide you with the best possible separation. Quadrexcorp understands your
chromatography analysis does not end with the selection of the GC column.
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