3110: 0-10ppm to 10,000ppm with Micro-Fuel Cell

3110P: 0-1% to 0-25% with Micro-Fuel Cell

3110XL: 0-2ppm to 10,000ppm with Micro-Fuel Cell

Features

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Features

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TIGER OPTICS Prismatic 3 laser-based, multi-species trace gas analyzer

This compact, CRDS-based analyzer for the detection of H₂O, CO, CO₂ and CH₄ from parts-per-billion to parts-per-million levels to ensure purity requirements in line with SAE J2719 and ISO 14687:2019.

Prismatic 3 is easy to install and operate with integrated touchscreen and intuitive graphical user interface to allow efficient data trending and analysis. The cost of ownership is extremely low, with no calibration, spare parts or utility gases required.

The Prismatic 3 features:

• Simultaneous parts-per-billion detection of CO, CO₂, H₂O and CH₄
• Ideal analyzer to meet Hydrogen purity requirements of SAE J2719 and ISO 14687:2019
• Powerful Cavity Ring-Down Spectroscopy (CRDS) technology
• Low Cost of Ownership: no calibration or utility gas requirements
• Easy to install and use per ASTM Standard Test Method D7941

Applications

• Air Separation Units & Nitrogen Plants
• Gas Quality Control
• Gaseous CRMs & Calibration Gas Mixtures
• Greenhouse Gas Monitoring
• High-Purity Gases & Systems
• Hydrogen Fuel Cells
• Research & Development

Data Sheet

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4000 Series Gas Chromatograph

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• Easy-to-use front panel interface with red 5-digit LED display and a vacuum fluorescent display (VFD), driven by microprocessor electronics
• High resolution, accurate readings of concentration
• Versatile analysis with three user-definable analysis ranges
• Microprocessor based electronics
• Two adjustable concentration alarms and a system failure alarm
• Extensive self-diagnostic testing at startup and on demand
• RS-232 serial digital port for use with a computer or other digital communication device
• Analog outputs for concentration and range identification (0-1 VDC standard and isolated 4-20 mA dc)

Series 4000 Overview

All 4000 series units employ the same basic architecture and electronics; however, each analyzer has additional features:

Series 4000 Hydrocarbon Analysers range brochure

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Series 4000 Overview

All 4000 series units employ the same basic architecture and electronics; however, each analyzer has additional features:

Series 4000 Hydrocarbon Analysers range brochure

The post Model 4030 Total Hydrocarbon Analyzer appeared first on Thomson Environmental Systems.

Sensors for Oxygen Analyzers

  ​ ​Class ​Part Numbe​r ​Application ​Warranty ​ A-2C​​ ​C06689-A2C ​​Used for trace Oxygen (O2) measurements in Carbon Dioxide (CO2) containing backgrounds (0.1-100% CO2). CO2 must be present ​6 months ​ ​A-2CXL​ ​B74033-A2CXL ​Specially qualified A2C sensor to operate in XL model analyzers. Low range limit is 0-1 ppm ​6 months ​ A-5​​ ​C06689-A5 ​Intermittent or continuous monitoring of percent Oxygen (O2) in gas mixtures containing 0-100% Carbon Dioxide (CO2). 90% response time is 45 seconds 6 months ​ ​B-1​​ ​C06689-B1 ​General purpose percent oxygen analysis where fast response is desired (90% in less than 7 seconds) ​6 months ​B-1C ​C06689-B1C ​General purpose percent oxygen analysis where fast response is desired (90% in less than 7 seconds)​ ​6 months

  ​B-2C​​ ​​C06689-B2C ​​General purpose trace Oxygen (O2) analysis for use in inert gas and hydrocarbon streams. Low range limit is 0-10 ppm. ​6 months ​ ​B-2CXL​ ​C06689-B2CXL ​Specially qualified B-2C sensor to operate in XL model analyzers. Low range limit is 0-1 ppm. ​​6 months ​ ​B-3 ​C06689-B3 ​Percent Oxygen (O2) analysis, best compromise between long life and fast response ​12 months ​ E​-2​​ ​C57283-E2 ​Long life cell for use is the model 3290 (for use in unattended air liquefaction nitrogen skids) ​​24 months​ ​ ​InstaTrace​ ​B71875 ​​Special patented construction provides rapid recovery, during initial cell installation, to low ppm levels by reducing the recovery period from several hours to just minutes.​ ​6 months ​ ​InstaTrace-CO₂
​ ​B73016 ​​Special patented construction provides rapid recovery, during initial cell installation, to low ppm levels by reducing the recovery period from several hours to just minutes.​ ​6 months ​ ​Insta​Trace-XL​​
​ ​B73592 ​Special patented construction provides rapid recovery, during initial cell installation, to low ppm levels by reducing the recovery period from several hours to just minutes.​ ​​​6 months ​L-2C​ ​C06689-L2C ​Used for general purpose trace oxygen analysis in the 3000T analyzer series 12​ months

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Auto​motiv​​​e Sensors
​	​Class	Part Number	Applications	Warranty
​ ​	R-17A​​	​C43690-R17A	​The “R” series of sensors are used by most automotive emission equipment manufacturers worldwide.	12 months
​	​R-21A​​	​C43981-R21A	​The “R” series of sensors are used by most automotive emission equipment manufacturers worldwide.	12 months
​	​R-22A​​	​​C44611-R22A	​The “R” series of sensors are used by most automotive emission equipment manufacturers worldwide.​	12 months

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​ Diving Sensors​
​Class	Part Number	Applications	Warranty
R-1​7S​​	​C72144-R17S	​Cylinder blend checking for sports diving with minim phone jack connector	12 months
​R-22S​	​C72148-R22S	​Cylinder blend checking for sports diving with Molex 3-pin connector	​12 months
​R-33S​	​C74069-R33S	​High output for driving LCD directly in small, handheld instruments	​12 months
​R-33S-1​	​C74069-R33S1	​High output for driving LCD directly in small, handheld instruments	​12 months

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​

Oxygen Sensors range brochure

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Series 2000 Platform

To contend with the numerous and varied analyzer requirements among industrial users, Teledyne has developed a feature rich, user-friendly platform. The Series 2000 comes with a standard software program incorporating such flexible features as (3) user-programmable ranges, automatic calibration, and customer selectable gas constituents.

Thermal conductivity is a basic property of gases that relates to their ability to conduct heat. Good conductors of heat such as H2 and He, have a high thermal conductivity whereas poor conductors of heat, such as CO2 and Ar, have low values. This ability to conduct heat forms the basis of detecti​on. The Series 2000 analyzes gas compositions by continuously comparing the sample gas with a reference gas (sealed or flowing) of known thermal conductivity. This comparison is performed in a 2 chamber detector cell block. Reference gas occupies one chamber and sample gas the other.​

A pair of temperature-sensitive heated filaments is mounted in each chamber. These filaments are part of a Wheatstone Bridge circuit. Should the sample gas composition change, its thermal conductivity will also change, conducting different amounts of heat away from the sample gas filaments. Since the resistance of the filaments is a function of their temperature, the resistance changes when the sample gas changes.

Any such change results in an imbalance in the Wheatstone Bridge, resulting in an electrical signal proportional to the change. Since the temperature of the filaments is tightly temperature controlled, the Series 2000 provides an accurate measure of any change in the sample gas composition. Teledyne offers this cell design in a variety of wetted parts to contend with corrosive gas streams typically found within the hydrocarbon processing industry.

Sensor Operating Principle

The thermal conductivity sensor measures the concentration of a specific gas between a hot surface resistor and an ambient temperature reference resistor using the thermal conductivity coefficient of the gas itself.

Sensor Description

The sensor structure consists of an integrated heater located on a thin electrical and thermal insulating membrane. Two thin film resistors are used for heating and measuring the temperature of the membrane. Two resistors are integrated on the silicon beside the membrane for the compensation of the ambient temperature changes.

Gases which have a lower density than air (CH4) cause a decrease on the surface membrane temperature. On the other hand, gases with densities heavier than air (CO2) increase the temperature of the measuring resistor.

Options

​C – Integrally mounted auto-calibration valving

H – Stainless steel cell block with gold filaments (for gas streams with H2S)

K – 19″ rack mount for 2000A

L – Gas selector panel for sample and cal gas selection and flow control

N – 220 VAC operation

R – Sealed reference (for filament-based TCD)

2000 Series Thermal Conductivity Analysers

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Speed and Small footprint

With analytical cycles 10 to 50 times faster than traditional chromatographs, the Falcon Series Ultrafast Gas Chromatograph (GC) vastly increases responsiveness for the data consumer in a wide range of lab, process and field applications. Less time spent waiting on results means more productivity and timely control of measured processes. Product output, quality and profitability are increased while field analysis becomes more practical and reliable.​

The Falcon Series GC’s incredible speed inspired a new Ultrafast Simulated Distillation Method. The ASTM D7798 method can perform simulated distillation nearly 6 times faster than the previous method (D2887), with superior repeatability and reproducibility.

The elimination of the air bath column ovens, required for traditional gas chromatography, reduces the Falcon Series GC footprint. Yet the Falcon Series delivers all the functionality of much larger, higher thermal mass, traditional GCs. At 43 cm wide, 22 cm deep, 28 cm high and 11 kg, the Falcon Series offers advanced analytical chemistry in a highly compact, versatile package.​

The smaller size of the Falcon Series GC means more efficient utilization of space and, ultimately, bigger profits for the user. The small Falcon Series footprint allows for higher installation density in the laboratory and enables process installation schemes that place the analyzer much closer to its sampling point in the plant. Closer proximity means less sample lag time as well as more representative measurements for process control. This also makes hand carried and vehicular transport applications far more feasible.​

Smarter

Using modern computing with standard operating systems and software, the Falcon Series GC frees valuable technical resources from the daily grind of interpreting and validating chromatographic results. State-of-the-art Chromperfect® GC operating software is built in and LineUp software virtually eliminates misidentification of components and drastically reduces the need for expensive calibration sample runs. Less time spent calibrating the analyzer means more time spent on more economically valuable diagnostics, most notably measured process deviations from the set-point. In addition to Chromperfect®, Infometrix Pirouette® is an optional software that may be added to enable interface with process automation.​

Easier

Teledyne’s patented direct heating of the temperature-programmed column modules allow the Falcon Series GC to avoid the complicated and troublesome valve schemes used in isothermal process analyzers and many lab gas chromatographs. The Falcon Series GC’s patented overall modular design also makes diverse application engineering and maintenance easier, as column and detector modules are readily changed out as needed.​

Correlation between laboratory systems and online process control systems become realistically possible with the Falcon Series system, because both physical packages use the same measurement principle, hardware and methodology. Applying the Falcon Series GC in-lab and online means less time spent reconciling lab and process measurements and validating which result is correct. More time can be spent working on valuable, direct process optimization.

Greener

Whether in the control laboratory, online in the processing plant, near line in the pilot plant or when transported for field measurements, by consuming less than 300 Watts in operation, the Falcon Series GC uses about 1/10th of the power of traditional GCs.​

With analytical cycles that are many times faster and the low electrical load needed for operation, the Falcon Series GC’s power consumption per analysis is 1% or less of the energy required by traditional gas chromatography. Combine these savings with the reduction in workload for air conditioning systems and the Falcon Series solution is greener still. The Falcon Series product life cycle environmental impact from manufacturing throughout its useful lifetime to disposal is far less than traditional GCs.

The Result​

Faster, Smaller, Smarter, Easier, Greener = better quality, increased productivity, profitability and versatility, with far less hassle and environmental impact. That summarizes the business concept for the ultrafast, compact, ultra-user friendly, energy efficient, highly durable, practical, reliable and economical Falcon Series Ultrafast Gas Chromatograph.​

Falcon GC Brochure

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The IRmadillo – High Temperature model is ATEX, IECEx & UKEx certifications for use in high-temperature liquid processes up to 220°C (428°F).

This is a requirement for industries such as chemicals and petrochemicals where the manufacturing processes frequently involve highly volatile and flammable components.

The certified temperature range of the IRmadillo up to 220°C enables certain companies, chemical and petrochemical companies in particular, the option of in-line, real-time analysis of manufacturing processes that run at high temperatures in hazardous atmospheres.

Some of the key features are:

• Real-time reaction analysis without the hassle: no fibre-optic cables between probe and the analyser,  nor any remote sampling required.
• Vibration tolerant: a solid-state design resulting in extreme vibration tolerance.
• Mid-infrared spectrum analysis providing continuous process monitoring of liquids.
• Low costs of ownership: minimum to no recalibration or maintenance required.
• Long-term stability.
• Compact size: mounts directly onto – or in line with – manufacturing vessels and process lines.

Choice of ATR and dip probe materials compatible for a wide range of operating environments

Download Specifications

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