Gas Generators for Laboratory Applications Source …...6 Air Generators Maximum Impurities Air Grade Particles in micron Moisture in pm Hydro- carbons in ppm Carbon Dioxide in ppm

SILVER - PMS 877BLUE - PMS 300

PMS 429 Gray can be substituted for SILVER - PMS 877

Gas Generators for Laboratory ApplicationsSource Book

Gas Generators for Laboratory Applications2

Gas Generators... The Easy Way! End users can generally determine the gas(es) required by any analytical equipment just by consulting the site preparation manual provided by the manufacturer. Not only are the gases listed but also their purity, flow and pressure.

Where it becomes more challenging is the selection of the best supply mode for each gas. End users and consulting engineers alike have to weigh in the pros and cons between high pressure gas cylinders, liquid cylinders and gas generators. What makes the decision a little more difficult with gas generators is that some of them require a source of compressed air to operate properly.

The purpose of this mini catalog is not about how to determine which mode of supply is best. This mini catalog is a collection of concise but detailed information about the complete product offering of BeaconMedaes gas generators for laboratories. We want this document to be very easy to consult so that you can determine if any of our gas generators are suitable for use with your analytical instruments.

This mini catalog does not replace the full specification sheets that are available for each of our gas generators. The specification sheets contain additional information about dimensions, power and air requirements, as well as inlet and outlet fittings just to name a few. The complete specification sheets are available on our website at www.beaconmedaes.com.

We hope you find this information useful and we look forward to helping you with all your gas generator needs.

Happy Reading!

Denis Hache Product Marketing Manager Laboratories and Non-Medical Applications

Gas Generators for Laboratory Applications 3

Contents

Air Generators

Hydrogen Generators

Nitrogen Generators

Oxygen Generators

Mini Generators

Gas Generators for Liquid Chromatography

Generators for Gas Chromatography

06

16

22

28

30

33

36

Quick Reference Application Guide 4

Air Generators 6AERO30L 7AERO40L 7AERO40L2 8AERO40LS 8AERO40R 9AERO50L 9AERO50L2 10AERO50LS 10AERO50R 11AERO STATION 50 RC 11AERO STATION 50 LC 12AERO STATION 50 RC 2 12AERO50LTOC 13AERO STATION 50LC TOC 13AERO50RTOC 14AERO STATION 50RC TOC 14AERO60LS 15

Hydrogen Generators 16HYDRO50L 17HYDRO50LS 17HYDRO50LS2 18HYDRO50R 18HYDRO65L 19HYDRO65LS 19HYDRO65LS2 20HYDRO65R 20HYDRO70R 21

Nitrogen Generators 22NITRO15L 23NITRO15LC 23NITRO20L ELSD 24NITRO40L ICP 24NITRO50L 25NITRO50LC 25NITRO50LS 26NITRO50R 26NITRO STATION ULTRA LC 27NITRO STATION ULTRA RC 27

Oxygen Generators 28OXY STATION 20LC 29OXY STATION 40LC 29

Mini Generators 30LISAS H2 31LISAS N2 31LISAS Air 32

Gas Generators for Liquid Chromatography 33

NITRO18LCMS 35NITRO20LCMS 35DUO20LCMS 36TRIO18LCMS 36

Generators for Gas Chromatography 37

FIDSTATION LC 38FIDSTATION RC 38FIDSTATION ULTRA LC 39FIDSTATION ULTRA RC 39GC STATION RC 40GC STATION LC 40GC STATION XL LC 41GC STATION ULTRA LC 41H2-N2 STATION RC 42H2-N2 STATION LC 42H2-N2 STATION ULTRA RC 43H2-N2 STATION ULTRA LC 43PID STATION RC 44PID STATION LC 44PID STATION ULTRA RC 45PID STATION ULTRA LC 45


Quick Reference Application Guide

Gas Generators for Gas Chromatography

GC-FID

Hydrogen (H2) as fuel gas 99.999% [5.0] 30-50 HYDRO50 FIDSTATION ; GCSTATION; H2-N2STATION

Air for flame Zero air 30-500 AERO40 FIDSTATION ; GCSTATION ; PIDSTATION

H2 as capillary carrier gas 99.99995% [6.5] up to 10 HYDRO65 FIDSTATION ULTRA ; GCSTATION ULTRA ; H2-N2STATION ULTRA

N2 as packed carrier gas 99.999% [5.0] 20-50 NITROSTATION ULTRA FIDSTATION ULTRA ; GCSTATION ULTRA ; PIDSTATION ULTRA

N2 as make-up gas 99.999% [5.0] 30-50 NITRO50 GCSTATION ; PIDSTATION ; H2-N2STATION

GC FPDHydrogen (H2) as fuel gas 99.999% [5.0] 60-90 HYDRO50 FIDSTATION ; GCSTATION; H2-N2STATION

Air for flame Zero air 90-120 AERO40 FIDSTATION ; GCSTATION ; PIDSTATION

GC NPDH2 as capillary carrier gas 99.99995% [6.5] up to 50 HYDRO65 FIDSTATION ULTRA ; GCSTATION ULTRA ; H2-N2STATION ULTRA

N2 as make-up gas 99.999% [5.0] up to 30 NITRO50 GCSTATION ; PIDSTATION ; H2-N2STATION

GC ECDN2 as carrier gas UHP-Zero Grade up to 60 NITROSTATION ULTRA FIDSTATION ULTRA ; GCSTATION ULTRA ; PIDSTATION ULTRA

N2 as make-up gas 99.999% [5.0] up to 100 NITRO50 GCSTATION ; PIDSTATION ; H2-N2STATION

GC TCD H2 as carrier gas 99.99995% [6.5] up to 50cc HYDRO65 FIDSTATION ULTRA ; GCSTATION ULTRA ; H2-N2STATION ULTRA

GC ATD Air for purge Dry Air < 2L/min AERO50 FIDSTATION ; GCSTATION ; PIDSTATION

GC AED N2 for carrier gas Ultra-Zero Grade < 1L/min NITROSTATION ULTRA FIDSTATION ULTRA ; GCSTATION ULTRA ; PIDSTATION ULTRA

GC ELSD,HALL Hydrogen (H2) as reaction gas 99.999% [5.0] 70-200 HYDRO50 FIDSTATION ; GCSTATION ; PIDSTATION

Gas Generators for Analyzers

TOCAir Dry air, CO2 free 100-500cc AERO50 TOC -

Nitrogen (N2) for carrier gas or combustion gas 99.999% [5.0] 50-700cc AERO50 TOC GCSTATION ; PIDSTATION ; H2-N2STATION

THAZero air for FID HC free 50-500cc AERO40 FIDSTATION ; GCSTATION ; PIDSTATION

Hydrogen (H2) for fuel gas 99.999% [5.0] 5-50cc 5-50cc HYDRO50 FIDSTATION ; GCSTATION; H2-N2STATION

DSC Air for shield Dry air 100cc AERO50 FIDSTATION ; GCSTATION ; PIDSTATION

TGAAir as furnace gas Dry air 100cc AERO50 FIDSTATION ; GCSTATION ; PIDSTATION

Nitrogen (N2) UHP-Zero Grade 100cc NITROSTATION ULTRA FIDSTATION ULTRA ; GCSTATION ULTRA ; PIDSTATION ULTRA

TOD Nitrogen (N2) for carrier gas UHP-Zero Grade 300cc NITROSTATION ULTRA FIDSTATION ULTRA ; GCSTATION ULTRA ; PIDSTATION ULTRA

CO2 Analyser Air for calibration CO2 & HC Free 550-1000 cc AERO60

Gas Generators for Liquid ChromatographyLCMS API/LCMS Air as nebulizing gas Zero air 18L.Min AERO50 DUO18LCMS

APCI Electrospray Nitrogen (N2) as curtain gas Nitrogen 95% [1.5] 5-35L/min NITRO20 -

LCMS/MS, TOF Nitrogen (N2) as sheath gas Nitrogen 99% [2.0] 20,35,60L/min NITRO18LCMS NITRO20LCMS ; DUO18LCMS ; TRIO18LCMS

Gas Generators for Spectroscopy

FT-IRPurge gas for sample

Compartment, optics, airbearing and microscope

CO2 free air 14-85 L/min AERO50 FTIR -

NMR Air for lifting spinning andejecting Dry air up to 300L/min AERO20 -

ICP Nitrogen (N2) for purge gas 99.995% [4.5+] up to 9L/min NITRO40 ICP -

AA Air for oxidant gas Dry air 28L to 200L/min AERO50 -

Application Gas Requirement Purity Flow Capacity[cc/min]

BeaconMedaes Recommendations

Single Gas Generator Combined Gases Generator


AA - Atomic Absorption

AED - Atomic Emission Detector

ATD - Automated Thermal Desorption

APCI - Atmospheric Pressure Chemical Ionization

CVD - Chemical Vapor Deposition

DID - Discharge Ionization Detector

DSC - Differential Scanning Calorimetric

DTA - Differential Thermal Analysis

ECD - Electron Capture Detector

ELSD - Evaporative Light Scattering Detector

FID - Flame Ionization Detector

FPD - Flame Photometric Detector

FTIR - Fourier Transform Infrared Detector

GC - Gas Chromatography

HID - Helium Ionization Detector

HPLC - High Performance Liquid Chromatography

HCD - Higher Energy Collisional Dissociation

Gas Generators for Other ApplicationsSample Preparation

Nitrogen (N2)for solvent evaporation

95-99%up to 130L/min NITRO15LS NITRO20LCMS ; DUO1-8LCMS ; TRIO18LCMS

AutoSamplers

Air for pneumatic controls Dry air 28L/min AERO50 -

Nitrogen (N2) for sample injector 99.999% [5.0] 550cc NITRO50 GCSTATION ; PIDSTATION ; H2-N2STATION

CircularDichroism Nitrogen (N2) 99.999% [5.0] - NITRO50 GCSTATION ; PIDSTATION ; H2-N2STATION

ELSD Detector Nitrogen (N2) 98% [1.8] 2-8L/min NITRO15 -

Particle sizing bylaser diffraction Air for nebulizing Dry air 45 L/min. AERO50 -

InorganicSpectroscopy Oxygen (O2) 99,995% [4.5] 3-6L/min OXY40 -

OrganicSpectroscopy Oxygen (O2) 99,995% [4.5] 7L/min OXY40 -

MOCVD Hydrogen (H2) 99.99995% [6.5] 250ml/min -2L/min HYDRO70 -

OpticalProtection

Air forprotection gas

Ultra Zero air,CO2 free, HC free 1-1.5 L/min AERO60 -

Application Gas Requirement Purity Flow CapacityBeaconMedaes Recommendations

Single Gas Generator Combined Gases Generator

API - Atmospheric Pressure Ionization

ICP - Inductively Coupled Plasma

LC - Liquid Chromatography

MP-AES - Microwave Plasma - Atomic Emission Spectrometer

MOCVD - Metal Organic Chemical Vapor Deposition

MS - Mass Spectrometer

MSD - Mass Selective Detector

NMR - Nuclear Magnetic Resonance

NPD - Nitrogen Phosphorous Detector

PDECD - Pulse Discharge Electron Capture Detector

PID - Photo-Ionization Detector

SFE - Supercritical Fluid Extraction

SFC - Supercritical Fluid Chromatography

TCD - Thermal Conductivity Detector

TGA - Thermal Gravimetric Analysis

TOC - Total Organic Carbon

TOD - Total Oxygen Demand

TOF - Time of Flight

Glossary


Air Generators

Maximum Impurities

Air Grade Particles in micron

Moisture in pm

Hydro- carbons in

ppm

Carbon Dioxide in

ppm

Dry Air 0.01 10 - -

Zero Air 0.01 - 0.05 -

Ultra Zero Air 0.01 10 0.05 10

TOC/FTIR 0.01 10 0.05 1

VOC 0.01 2 0.05 0.03

Introduction to Laboratory AirLike other types of gas generators, laboratory air generators are designed for specific analytical instruments. They control the amount of impurities, pressure and flow of air so that analysis can be done without interruptions.

The EnemiesLaboratory air generators are mounted with different components each responsible to remove specific impurities. The impurities that are removed from the air stream are primarily water, moisture, hydrocarbons, carbon dioxide and particulates. The flow diagram on this page illustrates the different steps of filtration and “scrubbing” the air stream must go through before being replaced leaving the generator.

The air quality requirements are not the same for all analytical instruments. That is why we offer several types of laboratory air generators as shown on the table below.

Typical Applications • Zero Air or Ultra Zero Air for the Flame Ionization Detector in Gas Chromatography

• FTIR Air with very low level of carbon dioxide for the Fourrier Transfer InfraRed

• Dry Air for the flame in an Atomic Absorption on Spectrometer

• VOC-Free Air for Volatile Organic Compounds Analysis

SS

P

Typical Flow Diagram for Ultra Zero Air Generators

SS

OUT

OUT

OUT

TO ANALYTICALEQUIPMENT

AirCompressor

CoalescingFilter

STATIC WATERSEPARATOR

Solenoid Valves

Molecular SieveBeds

Flow Restrictor

Check Valves

Flow Restrictor

Check Valves

CatCondensateSeparator

Cooling Coil

Receiver Tank

Sub-MicronP

PrValve

Removal ofHydrocarbons

DeliveryPressureControl

ComponentName

FlowDiagram

Compressed AirDryAir

Dry Air Dry AirWaste Air Waste Air

Dry Air Dry AirWaste Air Waste Air

Waste Air Waste Air

Waste Air

Waste Air

Waste Air

FAN

Removal of

Air for


Air Generators

PERFORMANCE

PERFORMANCE

Air Generators

Delivery Pressure Max CO2 Content (ppm)

Max Hydrocarbon Content (ppm)

Max H2O Content (ppm)

Max Particulate Size (µm)

7 - 116 psig [0.5 - 8 bar] Not Removed < 0.05 Not Removed < 0.01





7 - 102 psig [0.5 - 7 bar] Not measured Not Removed < 10 < 0.01

MODEL NUMBERS + FLOW RATEAERO40L-1.5 1.5 L/min 3.1 SCFH

AERO40L-3.0 3.0 L/min 6.3 SCFH


AERO40L-10 10 L/min 21.1 SCFH

PRODUCT SPECIFICATION SHEET REFERENCE• LDS-510-03

Zero Air Generators - BenchtopAERO40L

MODEL NUMBERS + FLOW RATEAERO30L-3 3 L/min 6.3 SCFH


Dry Air Generators - BenchtopAERO30L PURITY LEVEL

DA Dry Air


Air Generators

PERFORMANCE

PERFORMANCE

MODEL NUMBERS + FLOW RATE


Delivery Pressure Max O2 Content (ppm)




7 - 116 psig [0.5 - 8 bar] Not Measured < 0.05 Not Removed < 0.01






AERO40LS-40 40 L/min 84.7 SCFH




Zero Air Generators - Floor InstallationAERO40LS

AERO40L2-20 20 L/min 42.3 SCFH



AERO40L2Zero Air Generators - Tower Style


Air Generators

PERFORMANCE

PERFORMANCE







7 - 116 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01










Ultra Zero Air Generators - Tower StyleAERO50L

AERO40R-1.5 1.5 L/min 3.1 SCFH



AERO40R-10 10 L/min 21.1 SCFH


Zero Air Generators - Rack MountAERO40R

PURITY LEVEL

Ultra Zero Air

UZ


Air Generators

PERFORMANCE

PERFORMANCE







7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01





Ultra Zero Air Generators - Floor InstallationAERO50LS





7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01




Ultra Zero Air Generators (High Flow) - Tower StyleAERO50L2

PURITY LEVEL

Ultra Zero Air

UZ

PURITY LEVEL

Ultra Zero Air

UZ


Air Generators

PERFORMANCE

PERFORMANCE







7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01




Ultra Zero Air Generators - Rack MountAERO50R PURITY LEVEL

Ultra Zero Air

UZ





7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01

AERO50RC-3.0 3.0 L/min 6.3 SCFH

AERO50RC-5.0 5.0 L/min 10.5 SCFH


Ultra Zero Air Generators With On Board Compressor - Rack Mount

AERO STATION 50 RC

Built-In Compressor

PURITY LEVEL

Ultra Zero Air

UZ


Air Generators

PERFORMANCE

MODEL NUMBERS + FLOW RATEAERO50L - 1.5 1.5 L/min 3.1 SCFH

AERO50L - 3.0 3.0 L/min 6.3 SCFH

AERO50L - 6.0 6.0 L/min 12.7 SCFH


Ultra Zero Air Generators With On Board Compressor- Tower Style

AERO STATION 50 LC

Built-In Compressor

PURITY LEVEL

Ultra Zero Air

UZ





7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01

AERO50RC2-10 10 L/min 21.1 SCFH




Ultra Zero Air Generators (High Flow) With On Board Compressor - Rack Mount

AERO STATION 50 RC 2

Built-In Compressor

PURITY LEVEL

Ultra Zero Air

UZ





7-116 psig [ 0.5 - 8 bar] < 10 < 0.05 < 10 < 0.01

PERFORMANCE



Air Generators

PERFORMANCE

PERFORMANCE







7 - 72 psig [0.5 - 5 bar] < 1 < 0.05 < 10 < 0.01

AERO50LCTOC-1.5 1.5 L/min 3.1 SCFH




TOC/FTIR Air Generators With On Board Compressor - Tower Style

AERO STATION 50LC TOC

Built-In Compressor

PURITY LEVEL

FTIRFourierTransferInfraRed

PURITY LEVEL

TOCTotal

OrganicCompounds

PURITY LEVEL


PURITY LEVEL

TOCTotal

OrganicCompounds






7 - 72 psig [0.5 - 5 bar] < 1 < 0.05 < 10 < 0.01

AERO50LTOC-1.5 1.5 L/min 3.1 SCFH



TOC/FTIR Air Generators - Tower StyleAERO50LTOC


Air Generators

PERFORMANCE






7 - 72 psig [0.5 - 5 bar] < 1 < 0.05 < 10 < 0.01

AERO50RCTOC-2.0 2.0 L/min 4.2 SCFH

AERO50RCTOC-3.0 3.0 L/min 6.3 SCFH


TOC/FTIR Air Generators With On Board Compressor - Rack Mount

AERO STATION 50RC TOC

Built-In Compressor

PURITY LEVEL


PURITY LEVEL

TOCTotal

OrganicCompounds

PERFORMANCE






7 - 72 psig [0.5 - 5 bar < 1 0.05 < 10 < 0.01

AERO50RTOC-1.5 1.5 L/min 3.1 SCFH




TOC/FTIR Air Generators - Rack MountAERO50RTOC PURITY LEVEL


PURITY LEVEL

TOCTotal

OrganicCompounds


PERFORMANCE


Delivery Pressure Max. CO2 Content (ppm)




7 - 87 psig [0.5 - 6 bar] < 0.03 < 0.05 < 2 < 0.01






Air Generators for VOC Analyzers - Floor InstallationAERO60LS

Air Generators


Hydrogen Generators

Unbeatable PurityThe best selling feature of these generators is their capability of delivering extremely pure hydrogen on a constant basis. Whether you use hydrogen as a fuel gas or a carrier gas you can rely on these generators to keep contaminants very low while maintaining stable delivery pressure and flow.

There are numerous features to hydrogen generators:

− Space saving (most of them are bench top units) − Easy installation (plug and play type of equipment) − Very limited amount of piping to install (if any) − No gas cylinders management − Negligible amount of stored hydrogen in a facility

Proton Exchange MembraneHydrogen is produced by breaking down water molecules into their two basic elements; hydrogen and oxygen. This process is called electrolysis and it occurs inside a Proton Exchange Membrane located inside the hydrogen generator.

These generators produce very pure hydrogen streams as the electrolysis process involves no air and no components containing hydrocarbons. The key element to get quality hydrogen and keep your generator running for a long time is the water quality. Only ZERO WATER or water having a resistance of 1 micro Siemens of conductivity or 15 MegaOhm of resistivity or better must be used.

Water & Oxygen RemovalElectrolysis is a wet process. The secret in delivering “purer” hydrogen is to remove water molecules from the gas stream as well as removing oxygen atoms. The flow diagram shows how water is removed and recuperated from the hydrogen generation process. Oxygen atoms are essentially removed during the electrolysis of water inside the proton exchange membrane.

Greater flow is achieved by adding PEM cells inside the generator. Pressure is building up part of the hydrogen generation process.

Maximum Impurities

Hydrogen Grade

Particles in micron

Moisture in ppm

Hydrocarbons in ppm

Oxygen in ppm

Carbon Dioxide in ppm

5.0(99.999%) 0.01 100 0.1 1 -

6.5(99.99995%) 0.01 2 0.1 1 -

7.0(99.99999%) 0.01 1 0.03 0.2 0.03

Proton Exchange Membrane

Proton Exchange Membrane

e-e-e- e-

e-

e-

e-e- e- e-

e-

e-

e-e-

e-

e-

e-e-e-e-

e-

e-

e-

OH H

e-OO

O

OO

OO

OO

O OO OO O

O O

OH HOH H

HH

HH H H H H H H H H

OH

H

OH HOH HOH H

H+

H+

HH

HHHH

HH

OxygenVent

PureWater

Anod

e (+

)

Cath

ode

(-)

Hydrogento Dryer

MEMBRANE

OH H

e-O

H+

H+

HH

e-e-

e-e-

e-

e-

H H

H H

OH

H

OH

H

OH H

OH

H

OH

H

OH

H

OO

OO

O OO OO OO OO O

Gas

/Liq

uid

Sepa

rato

r

InternalTank

CirculaPump

WaterPump

External5L

Zero WaterTank

Proton ExchangeMembrane

OxygenOutlet

S

HydrogenOutlet

StaDryer


PERFORMANCE

PERFORMANCE



PURITY LEVEL

599.999%

PURITY LEVEL

599.999%

Hydrogen Generators


Max CO2 Content (ppm)




7 - 102 psig [0.5 - 7 bar] > 1* Not Measured < 0.1 < 100 < 0.01

HYDRO50LS-1 1 L/min 2.1 SCFH




High Purity, High Flow Hydrogen Generators - Tower Style

HYDRO50LS






7 - 102 psig [0.5 - 7 bar] > 1 * Not Measured < 0.1 < 100 < 0.01

HYDRO50L-100 100 ml/min 0.21 SCFH






High Purity Hydrogen Generators - BenchtopHYDRO50L

(* Typically around 30 ppm)

(*Typically around 30 ppm)

Hydrogen Generators


PERFORMANCE

PERFORMANCE



PURITY LEVEL

599.999%

PURITY LEVEL

599.999%

Hydrogen Generators







HYDRO50R-100 100 ml/min 0.21 SCFH






High Purity Hydrogen Generators - Rack MountHYDRO50R







HYDRO50LS2-5 5 L/min 10.5 SCFH




High Purity, High Flow Hydrogen Generators - Floor Installation

HYDRO50LS2


(*Typically around 30 ppm)


PERFORMANCE

PERFORMANCE



PURITY LEVEL

6.599.99995%

PURITY LEVEL

6.599.99995%

Hydrogen Generators






7 - 102 psig [0.5 - 7 bar] < 1 Not Measured < 0.1 < 2 < 0.01





Ultra High Purity, High Flow Hydrogen Generators - Tower Style

HYDRO65LS













Ultra High Purity Hydrogen Generators - BenchtopHYDRO65L


PERFORMANCE

PERFORMANCE



PURITY LEVEL

6.599.99995%

PURITY LEVEL

6.599.99995%

Hydrogen Generators













Ultra High Purity Hydrogen Generators - Rack MountHYDRO65R











Ultra High Purity, High Flow Hydrogen Generators - Floor Installation

HYDRO65LS2


PERFORMANCE


Hydrogen Generators






7 - 102 psig [0.5 - 7 bar] < 0.2 < 0.03 < 0.03 < 1 0.01

HYDRO70R-1 1 L/min 2.1 SCFH




Research Grade Hydrogen Generators - Rack MountHYDRO70R PURITY LEVEL

799.99999%


Nitrogen Generators

Carbon Molecular Sieve Beds (CMS)All of our nitrogen generators use carbon molecular sieves (CMS) to separate nitrogen from other air constituents. In fact, CMS act as a trap to oxygen molecules via a process called adsorption which occurs at high pressure. When a CMS bed is saturated with oxygen, the pressure is then decreased in the CMS bed which allows the oxygen molecules to “escape” (desorb) from the CMS bed.

Pressure Swing Adsorption (PSA)In order to keep nitrogen to flow at a constant rate, our nitrogen generators use two beds (columns) of CMS. The adsorption and desorption of oxygen molecules is done by a process called Pressure Swing Adsorption (PSA). This process consists of depressurizing the CMS bed saturated with oxygen (aka re-generation mode) while the other bed in service adsorbs oxygen molecules (aka generation mode). When the in-service CMS bed becomes saturated with oxygen, it is depressurized to desorb oxygen molecules. At the same time, the second regenerated CMS bed is put into service (generation mode) to remove oxygen from the air stream which allow nitrogen to flow out of the generator.

CMS for a Better Nitrogen PurityAll of our nitrogen generators use carbon molecular sieves (CMS) beds to separate nitrogen from other air constituents. Unlike nitrogen membranes, CMS beds are regenerated several times per hour to provide the highest purity of nitrogen.

O2

O2

O2

O2

O2

O2O2

O2

O2

O2

N2N2

N2N2

N2

N2

N2

N2

N2

CMS

CMS Pore Size:

O₂ Molecule Size:

N₂ Molecule Size: N2

O2

3.0 Angstrom

2.9 Angstrom

3.1 Angstrom

Maximum Impurities

Nitrogen Purity

Particles in micron

Moisture in pm

Oxygen in ppm

Hydrocarbons in ppm

1.5 (95%) 0.01 25 5% -

2.0(99%) 0.01 25 1% -

4.0(99.99%) 0.01 10 100 -

5.0(99.999%) 0.01 10 10 0.05

6.0(99.9999%) 0.01 1 1 0.05

5.0 (99.999%) Nitrogen Genera

Water(Liquid)

HydrocarbonsCarbon Monoxide

MethaneMoistureOxygen P

ISO 8573-10.1 µ P-40 Dewpoint0.008 ppm Oil

7-72 psig[0.5 to 5 bar]*

PURITY LEVEL

599.999%

AirCompressor

CoalescingFilter

CMS Beds(PSA)

CatOven

BufferTank

PFilter

CoolingFan

* Typical Pressure Stated. Other Delivery Pressures Available

Nitrogento Process

Oxygento Vent

A ri

RE-

GEN

ERAT

ION

MO

DE

(Des

orbi

ng)

GEN

ERATIO

N M

OD

E(A

dsorbing)

CM

S BE

D N

O. 1

CM

S BED N

O. 2

Nitrogento Process

A ri

RE-G

ENER

ATION

MO

DE

(Desorbing)

GEN

ERAT

ION

MO

DE

(Ads

orbi

ng)

CM

S BE

D N

O. 1

CM

S BED N

O. 2

Oxygento Vent

0USE NO OIL

PSI 0USE NO OIL

PSI 0USE NO OIL

PSI 0USE NO OIL

PSI


PERFORMANCE

PERFORMANCE



PURITY LEVEL

1.595%

Nitrogen Generators





7 - 72 psig [0.5 - 5 bar] < 50,000 (5%) Not Removed < 25 < 0.01

NITRO15L-1 1 L/min 2.1 SCFH




General Purpose Nitrogen Generators - Tower StyleNITRO15L






NITRO15LC-1 1 L/min 2.1 SCFH







General Purpose Nitrogen Generators With On Board Compressor - Tower Style or Floor Installation

NITRO15LC PURITY LEVEL

1.595%

Built-In Compressor

Nitrogen Generators


PERFORMANCE

PERFORMANCE



Nitrogen Generators

PURITY LEVEL

299%








Nitrogen Generator for ELSDs - Tower StyleNITRO20L ELSD

PURITY LEVEL

499.99%





7 - 72 psig [0.5 - 7 bar] < 100 Not Removed < 10 < 0.01

NITRO40L ICP-10 10 L/min 21.1 SCFH


Nitrogen Generator for ICP - Tower Style NITRO40L ICP


PERFORMANCE

PERFORMANCE



Nitrogen Generators





7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01

NITRO50LC-500 0.5 L/min 1.0 SCFH


NITRO50LC-1500 1.5 L/min 3.1 SCFH






High Purity Nitrogen Generators With On Board Compressor - Tower Style or Floor Installation

NITRO50LC PURITY LEVEL

599.999%

Built-In Compressor

PURITY LEVEL

599.999%





7 - 72 psig [0.5 - 7 bar] < 10 < 0.05 < 10 < 0.01

NITRO50L-200 0.20 L/min 0.42 SCFH




High Purity Nitrogen Generators - Tower StyleNITRO50L


PERFORMANCE

PERFORMANCE



Nitrogen Generators





15 - 72 psig [1 - 7 bar] < 10 < 0.05 < 10 < 0.01

NITRO50LS-10 10 L/min 21.1 SCFH




High Purity, High Flow Nitrogen Generators - Floor Installation

NITRO50LS PURITY LEVEL

599.999%





7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01

NITRO50R-200 0.20 L/min 0.4 SCFH




Ultra High Purity Nitrogen Generators - Rack MountNITRO50R PURITY LEVEL

599.999%


PERFORMANCE

PERFORMANCE



Nitrogen Generators

NITROSTATION ULTRA RC-250 250 ml/min 0.53 SCFH

NITROSTATION ULTRA RC-500 500 ml/min 1.05 SCFH


Ultra High Purity Nitrogen Generators With On Board Compressor - Rack Mount

NITROSTATION ULTRA RC





7 - 72 psig [0.5 - 5 bar] < 1 < 0.05 < 1 < 0.01

NITROSTATION ULTRA LC-250 250 ml/min 0.53 SCFH

NITROSTATION ULTRA LC-500 500 ml/min 1.05 SCFH


Ultra High Purity Nitrogen Generators With On Board Compressor - Tower Style

NITROSTATION ULTRA LC PURITY LEVEL

699.9999%

PURITY LEVEL

699.9999%

Built-In Compressor

Built-In Compressor

Outlet & GasDelivery Pressure Max O2 Content (ppm)




7 - 72 psig [0.5 - 5 bar] < 1 < 0.05 < 1 < 0.01


Oxygen Generators

O2 GOOD

85%

4.74.8Set pressure

bar OK

IREM

130 days

0

1

2

3

4

0

1

2

3

4

5 3HT FUSEFAILURE COMPUTER

OZONE LEVELOXYGEN

ON OFF

MEDIUMLOW MEDIUM

POWER OZONE

F1 F2 F3 F4 F5

F6 F7 F8 F9 F10

BackMainDel

Enter

Oxygen Generators forNOx Testers

NO₂ Converter Tester

NO₂ / NO Analyzer

NOx Analyzers have several applica

- Personal Safety

- Combus

- Vehicle Emission Tes

- Scrubber Efficiency Tes

- Process Gas Analysis- Turbine/Generator Feedback Control

- Ammonia Slip

- Con

This type of analyzerchemiluminescence for analyzing the NO or NO₂ concentrachemiluminescent r ₃) and nitric oxide (NO) which produces nitrogen dioxide (NO₂) and oxygen (O₂). This rmeasured as the light intensity is directly prmass flow rate of NO into the rslightly different, the presence of NO₂ is also measuring the chemiluminescent r ₂ converter located inside the NOx Analyzers

- Fuel Cell Analysis

NO₂ / NO Analyzers

- Power Plant De-Nitrifica

NO₂ Converter TesterLike anrequire regular maintenance (primarily the Carbon converter) and calibraand European emissions regulaprove the efficiency of the NO₂ to NO converter. NO₂ Converter Testers have been designed specially for this purpose.

Several Agencies around the world regulate and control NOx emissions via different air quality programs. Hence the requirements for companies and the general populareduce NOx emissions.

The term “NOx” is generally related nitrogen oxides namely Nitric Oxide (NO) and Nitrogen Dioxide (NO₂). NO and NO₂ are the combinatemperature combusare known atmospheric pollutants causing smog (rwith VOCs) and acid rain (Nitric Acid). Their effects on human health (primarily brwell documented.

Intr

The role of oxygen generators is to produce high quality oxygen required by NOx Analyzers to operate properly. Oxygen is also required by another piece of equipment called NO₂ Converter Tester. So, let’s take a look at each of these tw

Oxygen Generators

OXYSTATION40LC

Oxygen

Oxygen PrOxygen generators are very similar to Nitrogen generators (pressure Sthe two generators is the adsorbant (Zeolite vs CMS).

IntroductionThe term “NOx” is generally related to nitrogen oxides, namely Nitric Oxide (NO) and Nitrogen Dioxide (NO2). NO and NO2 are the combination of Nitrogen and Oxygen during high temperature combustion of fossil fuel. NOx (brownish gas) are known atmospheric pollutants causing smog (reaction with VOCs) and acid rain (Nitric Acid). Their effects on human health (primarily bronchitis and emphysema) are well documented.

Several Agencies around the world regulate and control NOx emissions via different air quality programs, hence the requirements for companies and the general population to reduce NOx emissions.

Oxygen GeneratorsThe role of oxygen generators is to produce high quality oxygen required by NOx Analyzers to operate properly. Oxygen is required by another piece of equipment called NO2 Converter Tester.

Oxygen ProductionOxygen generators are very similar to Nitrogen generators (Pressure Swing Adsorption). The main difference between the two generators is the adsorbent (Zeolite vs CMS).

NO2 / NO AnalyzersThis type of analyzers utilize the principle of chemiluminescence for analyzing the NO or NO2 concentration in a gas sample. In the NO mode, the chemiluminescent reaction occurs between ozone (O3) and nitric oxide (NO) which produces nitrogen dioxide (NO2) and oxygen (O2). This reaction produces light. The light is measured as the light intensity is directly proportional to the mass flow rate of NO into the reaction chamber. Although slightly different, the presence of NO2 is also measuring the chemiluminescent reaction. This reaction occurs in the NO2 converter located inside the NOx Analyzers.

NOx Analyzers have several applications: - Continuous Emission Monitoring Systems (CEMS)- Scrubber Efficiency Testing- Combustion Efficiency Testing- Turbine/Generator Feedback Control- Process Gas Analysis- Personal Safety- Power Plant De-Nitrification- Fuel Cell Analysis- Vehicle Emission Testing- Ammonia Slip

About Oxygen Generators for NOx Testers

NO2 Converter TesterLike any analytical measurement devices, the NOx analyzers require regular maintenance (primarily the converter) and calibration. To comply with the EPA and European emissions regulations, you must be able to prove the efficiency of the NO2 to NO converter. NO2 Converter Testers have been designed specifically for this purpose.


PERFORMANCE

PERFORMANCE



Oxygen Generators





7 - 72 psig [0.5 - 5 bar] < 0.05 < 0.05 < 10 < 0.01

OXYSTATION40LC-250 250 ml/min 0.53 SCFH




High Purity Oxygen Generators With On Board Compressor - Tower Style

OXYSTATION40LC





7 - 72 psig [0.5 - 5 bar] Not Removed Not Removed < 25 < 0.01





General Purpose Oxygen Generators With On Board Compressor - Tower Style

OXYSTATION20LC PURITY LEVEL

299%

PURITY LEVEL

599.999%

Built-In Compressor

Built-In Compressor

Oxygen Generators

O2

O2


Mini Generators

Small is BeautifulThis phrase is from economy teacher Leopold Kohr. It has been made popular by British economist E.F. Schumacher. “Small is beautiful” relates to small things, primarily adequate technology, that are often better adapted to specific situations. The Lisas Series gas generators can definitely apply to this principle/philosophy as they are designed to supply one point of use (about exclusively GC) at a time.

For Tight SpaceEach Lisas Series gas generator is about the size of a shoe box. Since the work surface is often at a premium in several laboratories, it is hard to find any smaller generators without compromising on quality. To save even more on work surfaces, the generators can be stacked on top of each other. The front of the enclosure is inclined which allows the operator to easily read the front display.

Save MoneyWe have designed our small gas generators so that the money is spent on premium quality internal components and less on the enclosure. Not only the Lisa units will save you money when you’ll buy them (low cost to purchase) but they are low in operating costs (low cost to own).

Single-Application Gas Generator

High ReliabilityThe Lisas units are mounted with the same state of the art gas generation technologies of larger units. They are simple to operate, reliable and durable. You will get the exact purity your gas chromatograph demands.


PERFORMANCE

PERFORMANCE



Mini Generators





7 - 72 psig [0.5 - 5 bar] < 10 0.05 < 10 < 0.01

LISAS N2-500 500 ml/min 1.05 SCFH


High Purity Nitrogen Mini GeneratorsLISAS N2





7 - 145 psig [0.5 - 10 bar] < 1 < 0.1 < 100 < 0.01

LISAS H2-250 250 ml/min 0.53 SCFH


High Purity Hydrogen Mini GeneratorsLISAS H2 PURITY LEVEL

599.999%

PURITY LEVEL

599.999%

Mini Generators


PERFORMANCE


Mini Generators





7 - 145 psig [0.5 - 10 bar] Not Removed < 0.05 Not Removed < 0.01

LISAS ZA-6 6 L/min 12.7 SCFH


Zero Air Mini GeneratorsLISAS Air



What’s LC/MSA liquid chromatograph (LC) separates the components (also known as “analytes”) of a sample. The liquid chromatograph is often known as High-Performance Liquid Chromatograph (HPLC). You get the best analytical results when the LC is coupled with a detector such as a mass spectrometer (MS). The detector creates and detects charged ions. This section focuses exclusively on the mass spectrometer (MS). The combination LC/MS is a very powerful instrument capable of providing information about molecular weight, structure, identity and quantity of specific sample analytes.

Typical LC/MS Workflow

Typical LC/MS Setup with Combo Gas Generator

Liquid Chromatograph/Mass Spectrometer

Ioniza MassAnalysis Det

Quadrupole

Time-of-Flight

Ion Trap

ESI

APCI

SampleSepara

Column

Injector

HPLC Pump

Solvent

DataAnalysis

SamplePrepara

Evapora

Extr

Chemist orTechnician

HPLC MassSpectrometer

MassSpectrometer

MassSpectrometer

Computer

Typical LC/MS Workflow

LC-MS w/ HCD NITRO20LCMSOutput 1: N₂ @ 99% Pure

Output 2: N₂ @ 99.999% Pure

HPLC

Com

pres

sed

Air -

Qua

lity:

ISO

-857

3-1

N2

99%

N2

99.999%

OK

I

N2 GOOD

85%

7.58.0Set pressure

bar

REM

130 days



Gases Used with LC/MSGases play important roles in the proper operation of LC/MSs. Gas generators are often used with LC/MSs as they are capable of delivering the right purity in quantities large enough for these gas-hungry analytical equipment. The following schematics are provided for the sole purpose of understanding why and where gases are used for in LC/MSs.

It is very important for the reader to understand that we are providing “CONCEPTUAL SCHEMATICS” only and do NOT necessarily represent actual equipment. Different brands and different models use various components, geometries and configurations that vary over time and improve as technologies evolve.

Sheath GasGas that isolates the analyte stream from the wall of the nozzle by mean of producing a laminar flow which reduces analyte deposition in the nozzle tip.

Curtain GasGas that helps to repel water, neutrals and other potential contaminants such as dirt and buffer salts.

Drying GasGas used to remove solvent from analyte droplets.

Collision GasA collision gas (often Nitrogen) is used to induce fragmentation of the analyte.

Sampling

Dielectric Capilary

Curtain Gas - Nitrogen(5-35 Lpm)

Analyte w/o Solvent Drying Gas + Contaminants

to MSFrom

Interface Plate

Curtain Gas (Nitrogen)

Plate

(Heated Tube)

Nozzle

Drying Gas - Nitrogen(5-50 Lpm)

Nozzle

Analyte w/ Solvent Analyte w/o Solvent Drying Gas (Nitrogen)

to MSFrom LC

SkimmerCone

Analyte Droplet Nebulizing Gas (Air)Liquid Analyte w/ Solvent

From LCFrom Air

Generator(18 Lpm)

Nozzle

Collision Cell

Analyte w/o Solvent Analyte Fragments Collision Gas (Nitrogen)

Guide (Typical)

FLOW

Collision Betweenthe Analyte and the

Collision Gas

Sampling

Dielectric Capilary



to MSFrom

Interface Plate


Plate

(Heated Tube)

Nozzle


Nozzle


to MSFrom LC

SkimmerCone


From LCFrom Air

Generator(18 Lpm)

Nozzle

Collision Cell


Guide (Typical)

FLOW


Collision Gas

Sampling

Dielectric Capilary



to MSFrom

Interface Plate


Plate

(Heated Tube)

Nozzle


Nozzle


to MSFrom LC

SkimmerCone


From LCFrom Air

Generator(18 Lpm)

Nozzle

Collision Cell


Guide (Typical)

FLOW


Collision Gas

Sampling

Dielectric Capilary



to MSFrom

Interface Plate


Plate

(Heated Tube)

Nozzle


Nozzle


to MSFrom LC

SkimmerCone


From LCFrom Air

Generator(18 Lpm)

Nozzle

Collision Cell


Guide (Typical)

FLOW


Collision Gas

Analyte Droplets Nebulizing Gas (Air)Liquid Analyte w/ Solvent

From LCFrom Air

Generator(18 Lpm)

From N2Generator

Sheath Gas (Nitrogen)

Nozzle

Nebulizing GasGas that pneumatically assists the formation of the analyte droplets from liquid analyte.


PERFORMANCE

PERFORMANCE



Gas Generators for LC/MSs





Outlet 1: Nitrogen 60 - 109 psig [4 - 7.5 Bar] < 30,000 ppm (3%) Not removed < 25ppm < 0.01µm

Outlet 2: Nitrogen 7 - 72 psig [0.5 - 5 bar] < 10ppm Not removed < 10ppm < 0.01µm

Outlet 1: Nitrogen 99% Outlet 2: Nitrogen 99.999%

NITRO20LCMS-18 18 L/min 38.1 SCFH 1 L/min 2.1 SCFH




Nitrogen Combo-2 Generators - Floor Installation

NITRO20LCMS





60 - 109 psig [4 - 7.5 bar] < 3% Not Removed < 25 < 0.01

NITRO18LCMS-20 20 L/min 42.3 SCFH

NITRO18LCMS-35 35 L/min 74.1 SCFH


Nitrogen Generators for LC/MS - Tower Style NITRO18LCMS PURITY LEVEL

1.595%

PURITY LEVEL

299%

PURITY LEVEL

599.999%

TARGET APPLICATION• These combo generators have been developed to supply gas to

Agilent Series 6400 LC/MSs.

Outlet & Gas



PERFORMANCE



Gas Generators for LC/MSs

TRIO18LCMS-24/12/8

Outlet 1: Zero Air 24 L/min 50.8 SCFH

Outlet 2: Nitrogen 99.999% 12 L/min 25.4 SCFH

Outlet 3: Dry Air 8 L/min 16.9 SCFH


Nitrogen and Air Combo-3 Generators - Floor Installation

TRIO18LCMS

Outlet 1: Zero Air Outlet 2: Nitrogen 99%

DUO20LCMS-32-50 50 L/min 105.9 SCFH 32 L/min 67.8 SCFH


Nitrogen and Air Combo-2 Generator - Floor Installation

DUO20LCMS





Outlet 1: 60 - 109 psig[4 - 7.5 bar] Outlet 1: <3% Outlet 1: Not removed Outlet 1: <0.01 micron 0.01

Outlet 2: 7 - 72 psig[0.5 - 5 bar] Outlet 2: Not removed Outlet 2: Not removed Outlet 2: <0.01 micron 0.01

PURITY LEVEL

299%


Brucker EVOQ TQ LC/MS.





Outlet 1: Zero Air 8 - 80 psig [0.8 - 5.5 Bar] Not removed < 0.05 Not removed 0.01

Outlet 2: Nitrogen 8 - 80 psig [0.8 - 5.5 bar] < 10,000 (1%) Not removed < 25 micron 0.01

Outlet & Gas

PURITY LEVEL

599.999%

PURITY LEVEL

DA Dry Air

PERFORMANCE





Outlet 1: Zero Air 60 -109 psig [4 - 7.5 Bar] Not removed < 0.05 Not removed 0.01

Outlet 2: Nitrogen 36 -65 psig [2.5 - 4.5 bar] < 10 < 0.05 < 10 0.01

Outlet 3: Dry Air 36 -65 psig [2.5 - 4.5 bar] Not removed < 0.05 < 10 0.01

Outlet & Gas


AB Sciex Series 5500 LC/MS


Generators for Gas Chromatography

Gas ChromatographGas Chromatograph A gas chromatograph is an analytical instrument in which a mixture of species is injected and then vaporized into a gas stream called carrier gas. The vaporized mixture of species travel into a column (called the stationary phase) which separates and groups the different species together. From there, the species leave the chromatograph to enter the detector.

Carrier Gas The carrier gas is normally an inert gas such as Helium, Nitrogen and sometimes Argon. A carrier gas that is becoming more popular is Hydrogen.

H₂Air

N₂He Carrier Gas Make Up GasOxidizing GasFuel Gas

Species FID

Gas Chromatograph (GC)

COLUMN(Sta

GC-FID

ZeroWater

H₂99.999%

AirZero

OK

I

AirGOOD

85%

4.74.8Set pressure

bar

REM

130 days

H2 GOOD

85%

4.74.8Set pressure

bar

REM

130 days

N2 GOOD

85%

4.74.8Set pressure

bar

REM

130 days

N₂99.999%

Chromatograms &Data Analysis

GCSTATION-LCOutput 1: H₂ @99.999%

Output 2: Air ZeroOutput 3: N₂ @ 99.999%

GC-FID with GCSTATION-LC

DetectorThe detector is the piece of equipment determining the type and the quantity of species that have been separated in the gas chromatograph. Several types of detectors can be used in gas chromatography. The detector selection depends upon its sensitivity to the species to be analyzed. Most detectors use one or several gases each having different purposes.

Detector Gases Fuel Gas - The most popular detector used in gas chromatography is the Flame Ionization Detector (aka FID). The fuel used for the flame of the FID is always Hydrogen.

Oxidizer Gas - The second gas used by the FID is Air to help support the hydrogen (and the species) combustion.

Make-Up Gas - This is a gas used to “push” or “sweep” the species through a detector to achieve greater accuracy by preventing band broadening. The make-up gas (an inert gas) is invisible to the detector. The make -up gas is very pure so that it does not interfere with the analysis or damage the detector. If we take the FID as an example, it is very common to use the carrier gas as the make-up gas (Helium in those cases). Another very popular make-up gas is Nitrogen.

Gas Generators for Gas ChromatographsBeaconMedaes offers several application-specific combo generators delivering different two or three gases based on the gas chromatograph/detector tandem. You should consult the very useful Quick Reference Application Guide at the beginning of this mini-catalog to ease the gas generator selection. The following pages give you an overview of each combo generators made specifically for gas chromatographs. You may also get the full specifications of each unit on our website www.beaconmedaes.com.


PERFORMANCE

PERFORMANCE



Gas Generators for GCs

Outlet 1: Hydrogen 99.999% Outlet 2: Zero Air

FIDSTATIONLC-70/500 70 ml/min 0.14 SCFH 500 ml/min 1.0 SCFH






High Purity H2 & ZA Combo-2 Generators With On Board Compressor - Rack Mount

FIDSTATION RC








High Purity H2 & ZA Combo-2 Generators With On Board Compressor - Tower Style

FIDSTATION LC PURITY LEVEL

599.999%

PURITY LEVEL

599.999%

Built-In Compressor

Built-In Compressor

ZA





Outlet 1: Hydrogen 7 - 100 psig [0.5 - 7 Bar] > 1* < 0.1 < 100 < 0.01

Outlet 2: Zero Air 7 - 72 psig [0.5 - 5 bar] - < 0.05 Not removed < 0.01

Outlet & Gas








Outlet & Gas



PERFORMANCE











Ultra High Purity H2 & ZA Combo-2 Generators With On Board Compressor - Rack Mount

FIDSTATION ULTRA RC








Ultra High Purity H2 & ZA Combo-2 Generators With On Board Compressor - Tower Style

FIDSTATION ULTRA LC

PURITY LEVEL

6.599.99995%

Built-In Compressor

Built-In Compressor

ZA







Outlet & Gas


PERFORMANCE

PURITY LEVEL

6.599.99995%







Outlet & Gas


H2 - ZA


PERFORMANCE

PERFORMANCE




Outlet 1: Hydrogen 99.999% Outlet 2 : Zero Air Outlet 3: Nitrogen 99.999%

GC STATION LC - 70/500/70 70 ml/min 0.14 SCFH 500 ml/min 1.0 SCFH 70 ml/min 0.14 SCFH





High Purity H2, N2, & Zero Air Combo-3 Generators With On Board Compressor - Tower Style

GC STATION LC


GC STATION RC - 70/500/70 70 ml/min 0.14 SCFH 500 ml/min 1.0 SCFH 70 ml/min 0.14 SCFH





High Purity H2, N2, & Zero Air Combo-3 Generators With On Board Compressor - Rack Mount

GC STATION RC PURITY LEVEL

599.999%

Built-In Compressor

Built-In Compressor






Outlet 2: Zero Air 7 - 72 psig [0.5 - 5 bar] Not removed < 0.05 Not removed < 0.01

Outlet 3: Nitrogen 7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 10 < 0.01

Outlet & Gas


PURITY LEVEL

599.999%








Outlet & Gas



PERFORMANCE

PERFORMANCE





GC STATION U LC - 70/500/70 70 ml/min 0.14 SCFH 700 ml/min 1.4 SCFH 70 ml/min 0.14 SCFH





High Purity H2, N2, & Zero Air Combo-3 Generators With On Board Compressor - Tower Style

GC STATION ULTRA LC


GCSTATION XL LC 1 l/min 2.11 SCFH 5 l/min 10.5 SCFH 1 LPM 2.11 SCFH


High Purity H2, N2, & Zero Air Combo-3 Generator With On Board Compressor - Floor Installation

GC STATION XL LC

PURITY LEVEL

6.599.99995%

Built-In Compressor

Built-In Compressor

PURITY LEVEL

599.999%







Outlet 3: Nitrogen 7 - 72 psig [0.5 - 5 bar] < 10 < 0.05 < 1 0 < 0.01

Outlet & Gas

PURITY LEVEL

599.999%





Outlet 1: Hydrogen 7 - 100 psig [0.5 - 7 Bar] > 1 < 0.1 < 100 < 0.01



Outlet & Gas



PERFORMANCE




Outlet 1: Hydrogen 99.999% Outlet 2: Nitrogen 99.999%

H2-N2 STATIONLC-200/1000 200 ml/min 0.53 SCFH 1000 ml/min 2.12 SCFH


High Purity H2 & N2 Combo-2 Generator With On Board Compressor - Tower Style

H2-N2 STATION LC





Outlet 1: Hydrogen 7 to 100 psig [0.5 to 7 bar] > 1* < 0.1 < 10 < 0.01

Outlet 2: Nitrogen 7 to 72 psig [ 0.5 to 5 bar] < 10 < 0.05 < 10 < 0.01


H2-N2 STATIONRC-160/500 160 ml/min 0.33 SCFH 500 ml/min 1.06 SCFH


High Purity H2 & N2 Combo-2 Generator With On Board Compressor - Rack Mount

H2-N2 STATION RC PURITY LEVEL

599.999%

PURITY LEVEL

599.999%

Built-In Compressor

Built-In Compressor

Outlet & Gas


PERFORMANCE





Outlet 1: Hydrogen 7 to 100 psig [0.5 to 7 bar] > 1* < 0.1 < 10 < 0.01


Outlet & Gas






Outlet 1: Hydrogen 99.9999% Outlet 2: Nitrogren 99.9999%

H2-N2 STATIONLC-200/1000 200 ml/min 0.42 SCFH 1000 ml/min 2.1 SCFH


Ultra High Purity H2 & N2 Combo-2 Generator With On Board Compressor - Tower Style

H2-N2 STATION ULTRA LC


H2-N2 STATIONULTRARC-160/500 160 ml/min 0.33 SCFH 500 ml/min 1.06 SCFH


Ultra High Purity H2 & N2 Combo-2 Generator With On Board Compressor - Rack Mount

H2-N2 STATION ULTRA RC PURITY LEVEL

699.9999%

PURITY LEVEL

699.9999%

Built-In Compressor

Built-In Compressor

PERFORMANCE





Outlet 1: Hydrogen 7 to 100 psig [0.5 to 7 bar] < 1 < 0.1 < 2 < 0.01


Outlet & Gas

PERFORMANCE





Outlet 1: Hydrogen 7 to 100 psig [0.5 to 7 bar] < 1 < 0.1 < 2 < 0.01


Outlet & Gas





Outlet 1: Nitrogen 99.999% Outlet 2: Zero Air

PIDSTATION50LC-250/2000 250 ml/min 0.53 SCFH 2000 ml/min 4.2 SCFH


High Purity N2 & Zero Air Combo-2 Generator With On Board Compressor - Tower Style

PID STATION LC


PIDSTATION50RC-160/1500 160 ml/min 0.33 SCFH 1500 ml/min 3.1 SCFH


High Purity N2 & Zero Air Combo-2 Generator With On Board Compressor - Rack Mount

PID STATION RC PURITY LEVEL

599.999%

PURITY LEVEL

599.999%

Built-In Compressor

Built-In Compressor

PERFORMANCE





Outlet 1: Nitrogen 7 - 72 psig [0.5 - 5 Bar] < 10 < 0.05 < 10 < 0.01


Outlet & Gas

PERFORMANCE







Outlet & Gas

ZAN2

ZAN2


PERFORMANCE

PERFORMANCE





PIDSTATIONULTRALC-250/2000 250 ml/min 0.53 SCFH 2000 ml/min 4.2 SCFH


Ultra High Purity N2 & Zero Air Combo-2 Generator With On Board Compressor - Tower Style

PID STATION ULTRA LC


PIDSTATIONULTRARC-160/1500 160 ml/min 0.33 SCFH 1500 ml/min 3.1 SCFH


Ultra High Purity N2 & Zero Air Combo-2 Generator With On Board Compressor - Rack Mount

PID STATION ULTRA RC PURITY LEVEL

699.9999%

PURITY LEVEL

699.9999%

Built-In Compressor

Built-In Compressor







Outlet & Gas







Outlet & Gas

ZA

ZA


Notes:


Notes:

BeaconMedæs • Part of the Atlas Copco Group www.beaconmedaes.com • © BeaconMedæs October 2019

TM

The information contained in this document is offered ONLY as guidelines for the design of high purity gas delivery systems. System designers and end users are cautioned to review the information found in this document and carefully determine the applicability of such information. All statements, technical information and recommendations contained in this design guideline manual are based on tests and data which we believe to be reliable. The accuracy, completeness, and applicability of such information is not guaranteed and no warranty of any kind is made or implied with respect thereto.

Documents

Gas Generators for Laboratory Applications Source …...6 Air Generators Maximum Impurities Air Grade Particles in micron Moisture in pm Hydro- carbons in ppm Carbon Dioxide in ppm