ANALYTICAL GAS: H2S ANALYZERS
5100 TDLAS
The feature-rich 5100 TDLAS offers high-sensitivity, analyte-specific, fast-response measurements for critical industrial applications. It features a single absorption cell and integrated sample system in a compact, cost-effective package.
5100HD TDLAS
Using tunable diode laser absorption spectroscopy (TDLAS) technology, the 5100HD can be configured with one or two absorption cells, providing dual stream analysis and/or the measurement of multiple analytes at the same time.
5100P TDLAS TRANSPORTABLE
The 5100P is a transportable, easy-to-use analyzer optimized to measure either water vapor (H2O) or carbon dioxide (CO2) in select gas streams. It offers the fast-response, high-accuracy benefits of TDLAS technology in a lightweight, durable and mobile platform that is certified for use in hazardous areas
ULTIMA X5000 GAS MONITOR
The ULTIMA® X5000 Gas Monitor is the future of gas detection for oxygen, toxic and combustible gases. MSA XCell® gas sensors with TruCal® technology offer calibration cycles up to 18 months (local calibration respected). The gas transmitter’s advanced, multi-lingual OLED display is easy to read and the unique touch-screen interface makes it simple to navigate.
This H2S gas analyzer is accurate, dependable and low-maintenance. All of which are greatly needed in the the petrochemical, gas processing, and gas pipeline industry for quality and process control purposes. With over thirty years of experience in developing and manufacturing H2S analyzers and associated parts and supplies, KECO has met these requirements with their proven microprocessor based natural gas H2S analyzer. This hydrogen sulfide (H2S) analyzer or monitor provides continuous on-line process analysis based on the specific and interference free ASTM approved tape principle of operation.
The petrochemical, gas processing, biogas, landfill and gas pipeline industries have for many years needed an accurate, dependable, efficient, and cost-effective trend H2S and CO2 analyzer for quality and process control purposes. Now, KECO has met these requirements with a proven microprocessor based technology which provides continuous on-line analysis based on the electrochemical and NDIR principal of operation. The gas being analyzed for H2S and CO2 is regulated to 10 PSI, then a flowmeter regulates the flow to approximately 1.5 SCFH.
H2S + TOTAL SULFUR ANALYZER (2 IN 1)
The Model 1700-150 System measures total sulfur and H2S by hydrogenation similar to that as described in ASTM Method D3031, D4084-82, D4468-85 and 4045-81. The sulfur sample is precisely metered into a continuous flowing stream of hydrogen gas. The sample and hydrogen are heated in the furnace up to 1,315°C resulting in thermal cracking of the sulfur that are reduced to short chain hydrocarbons.
The petrochemical, gas processing, biogas, landfill and gas pipeline industries has for many years needed an accurate, dependable, efficient, and cost-effective trend H2S analyzer for quality and process control purposes. Now, KECO has met these requirements with a proven microprocessor based technology which provides continuous on-line analysis based on the electrochemical principal of operation. The gas being analyzed for H2S is regulated to approximately 10 PSI, then a flowmeter regulates the flow to 1.5 SCFH.
The Series 150 Portable H2S Analyzer Monitor is a completely portable gas analyzer. The analyzer features a cost-effective continuous analysis method for process control, air quality, laboratory, atmospheric monitoring and product quality purposes. In addition, the gas analyzer is accurate, dependable, and low maintenance. Maximum versatility is offered with its compact, lightweight, and wide range ability. The analyzer includes a rechargeable battery pack for completely portable operation in the field. An optional internal sample pump is available if sampling of the atmospheric air or similar is required.
The 933 is a unique ultraviolet (UV) photometric analyzer system designed for the low-level measurement of hydrogen sulfide (H2S), carbonyl sulfide (COS), and methyl mercaptan (CH3SH) in natural gas applications.
PROUDLY REPRESENTING: