Showing results: 1 - 15 of 91 items found.
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682T-HP -
Ametek Process Instruments
Using x-ray-transmission analysis techniques, the 682T-HP has been developed as a fast, sensitive and compact solution for on-line monitoring of the sulfur content in highly viscous hydrocarbons.
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ELAn-4a -
MRC ltd.
A super wide uniform temperature zone (90mm)ensures complete combustion of coal samples.Dilated and thickened platimum electrode plates with bigger interface, make the interation more accurate and complete. With CAN bus, several sulfur analyzers can be controlled by a single PC, balances could be connected and data could be transmitted by real-time network transmission.
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XOS
XOS offers a variety of sulfur analyzers suitable for a wide range of analysis, throughput requirements, and operating environments. Imagine a smarter analysis solution free of compromise: hassle-free sample prep, easy operation, rapid testing, compliance flexibility, and industry-leading precision. These analyzers range from monochromatic wavelength dispersive XRF (MWDXRF) to high definition XRF (HDXRF) systems, delivering direct measurement without the need for consumable gasses or sample conversion.
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Shimadzu Corp.
Some sulfur compounds are known to be not only hazardous but also catalytic poisons. ppb sulfur analysis is conducted by gas chromatography. The Nexis SCD-2030 is a next-generation sulfur chemiluminescence detection system. The dramatically enhanced sensitivity and reliability, the excellent maintainability, and the automation functions, a first for the industry, will improve laboratory productivity.
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FGA-1000 -
Atom Instrument
ATOM Instrument offers the most versatile total sulfur analyzers available. The ATOM FGA-1000 is an online process analyzer utilizing patented Excimer UV Fluorescence (EUVF) Technology to measure Total Sulfur in a variety of applications such as monitoring refinery flare gas and subsequent sulfur dioxide (SO2) emissions as mandated by the EPA Rule 40 CFR 60, Subpart Ja.
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Model T108 -
Teledyne Advanced Pollution Instrumentation
The Model T108 Total Sulfur analyzer is designed to measure mixed sulfur impurities, collectively referred to as Total Sulfides, in air or carbon dioxide gas. Since there is no scrubber in the system, the instrument reading is the sum of the oxidized sulfur compounds and SO2.The Model T108 consists of a modified Model T100 SO2 analyzer with special software and a Model 501TS high temperature thermal oxidizer. Sulfur compounds are heated as they pass through the converter and oxidized into SO2. When analyzing CO2, which generally contains no oxygen, approximately 6% O2 is added to the sample before entering the converter. This dilution is corrected in the calibration procedure.
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ELEMENTRAC CS‑d -
ELTRA GmbH
ELTRA's ELEMENTRAC CS-d is the only analyzer in the market for determination of carbon and sulfur in organic as well as inorganic samples. For this purpose, the ELEMENTRAC CS-d is equipped with both an induction and a resistance furnace (ELTRA Dual Furnace Technology), covering the full range of carbon and sulfur analysis.
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Model 6200T -
Teledyne Analytical Instruments
The Model 6200T Total Sulfur Analyzer utilizes proven UV fluorescent technology to continuously detect sulfur found in inert gas streams. An internal, quartz catalytic converter is employed to convert the sulfur, when mixed with scrubbed ambient air, into SO2 via higher temperature oxidation. An internal vacuum pump is employed to draw both the sample and the ambient air into the converter. The converted sample gas is fed to the fluorescence chamber where it is then exposed to ultraviolet radiation.
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SOLA iQ -
Thermo Fisher Scientific Inc.
The SOLA iQ On-line Sulfur Analyzer replaces expensive and time consuming laboratory sampling for measuring total sulfur in refinery products including gasoline, diesel, kerosene, and jet fuel as well as many process gas samples such as Natural Gas, NGL and SynGas. The SOLA iQ analyzer offers an online adaption of ASTM D5453, D6313, D6222 & ISO 20846.
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ELEMENTRAC CS‑r -
ELTRA GmbH
The ELEMENTRAC CS-r analyzer determines the elements carbon and sulfur by combustion of the sample in an oxygen stream and subsequent measurement of the combustion gases CO2, SO2 and H2O in selective infrared measuring cells. A high sample weight of up to 500 mg ensures excellent reproducibility of the elemental analysis results, even for heterogeneous samples.
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ELEMENTRAC CHS‑r -
ELTRA GmbH
The ELEMENTRAC CHS-r elemental analyzer determines the elements carbon, sulfur and hydrogen by combustion of the sample in an oxygen stream and subsequent measurement of the combustion gases CO2, SO2 and H2O in selective infrared measuring cells. A high sample weight of up to 500 mg ensures excellent reproducibility of the measurement results, even for heterogeneous samples.
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Model 6400TSG -
Teledyne Analytical Instruments
The 6400TSG series utilizes our field-proven ultraviolet (UV) fluorescence technology to continuously monitor the total sulfur content found in process gas and liquid feeds. UV-Fluorescence is a non-consuming method of detection, eliminating the hassles associated with replacing tape cartridges, and enables detection as low as 10 ppb, depending on application, with stable, reproducible results.
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Model 6400TH -
Teledyne Analytical Instruments
The 6400T Series analyzers uses a proven UV fluorescence principle coupled with state-of-the-art microprocessor technology to provide accurate and dependable measurements of low level SO2. The 6400T-H2S measures hydrogen sulfide (H2S) by incorporating a catalytic converter set at 600°F (315°C) to oxidize H2S into SO2 while leaving other more difficult to oxidize sulfurs unconverted. A switching mode allows analysis of both H2S and SO2 concurrently.
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Model 6400T -
Teledyne Analytical Instruments
The 6400T Series analyzers uses a proven UV fluorescence principle coupled with state-of-the-art microprocessor technology to provide accurate and dependable measurements of low level SO2. The 6400T-H2S measures hydrogen sulfide (H2S) by incorporating a catalytic converter set at 600°F (315°C) to oxidize H2S into SO2 while leaving other more difficult to oxidize sulfurs unconverted. A switching mode allows analysis of both H2S and SO2 concurrently.