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41. FCI MT Series 12/7/2017

    FCI’s MT Series Multipoint Mass Flowmeters are ideal for today's most challenging industrial air or gas handling applications and continuous emissions monitoring systems (CEMS)

42. Quantitative Optical Gas Imaging (qOGI) Technology With FLIR GF-Series Cameras: QL320™ 11/30/2017

    The FLIR QL320™ is a quantitative optical gas imaging (qOGI) system that works solely with FLIR GF620, GFx320, and GF320 OGI cameras. With this technology, surveyors can measure mass leak rates or volumetric leak rates for most hydrocarbons. With usage capabilities at a variety of distances, operators can monitor hard to reach areas and storage tanks from a safe location.

43. Integrated Water And Wastewater Treatment Solutions To Support Chemical Manufacturing Challenges 11/27/2017

    SUEZ worked with Sasol Chemicals in Lake Charles, Louisiana and their EPC, Fluor, to custom design and supply integrated water and wastewater systems.

44. Gas Detection: The Professional Guide 11/8/2017

    Optical Gas Imaging (OGI) infrared cameras offer a fast, non-contact means of detecting fugitive gas emissions on worksites from a safe distance. This guide book discusses OGI camera operation, the types of gases they can visualize, and the variety of industries and applications where these cameras may be of use. Additional topics include the comparison of longwave and midwave gas detection cameras, OGI detector operation, gases detected, tips and techniques, as well as survey safety.

45. Thermal Imaging Camera For Continuous Gas Leak Detection: FLIR A6604 11/8/2017

    The FLIR A6604 optical gas infrared imaging camera is designed for continuously scanning installations in remote areas or zones that are difficult to access. These cameras are widely used in industrial settings, such as oil refineries, natural gas processing plants, offshore platforms, chemical/petrochemical complexes, and biogas, and power generation plants. They are also able to detect harmful greenhouse gases that can seriously harm the environment.

46. Optical Gas Imaging Camera For Continuous Gas Leak Detection: G300 a 11/8/2017

    The FLIR G300 a optical gas infrared imaging camera is designed for continuously scanning installations in remote areas or zones that are difficult to access. These cameras are widely used in industrial settings, such as oil refineries, natural gas processing plants, offshore platforms, chemical/petrochemical complexes, and biogas, and power generation plants.

47. Infrared Camera For CO2 Leak Detection: FLIR GF343 11/7/2017

    The GF343 is an infrared optical gas imaging camera designed to quickly and easily detect CO2 leaks from a safe distance. This non-contact CO2 detection technology helps prevent unplanned outages by permitting the inspection of equipment while it is still online in the course of normal operations.

48. Infrared Camera For SF6 Detection And Electrical Inspections: FLIR GF306 11/6/2017

    FLIR offers the GF306 optical gas imaging camera designed to visualize and pinpoint SF₆ and other gas emissions without the need to shut down operations. With the ability to quickly scan wide areas for leaks at safe distances, these cameras enable quicker repairs, and reduce revenue costs and safety concerns involved with gas-insulated substation and circuit breakers.

49. Infrared Cameras For Gas Leak Detection And Electrical Inspections: FLIR GF300/GF320 11/6/2017

    The FLIR GF300/GF320 cameras are designed for the detection of methane and Volatile Organic Compound (VOC) fugitive emissions that come from the production, transportation, and use of oil and natural gas. These cameras operate by scanning large-scale areas and visualize potential gas leaks in real-time. They are ideal for monitoring plants that are difficult to reach with contact measurement tools.

50. FiltraFast™ Extreme-Rate Compressible Media Filter 9/15/2017

    FiltraFast™ is a high-rate downflow gravity or pressure filter that uses a unique compressible media. The filter only uses hydraulic loading to create the required media porosity without any mechanical compressing devices. A proprietary backwash sequence enables maximum recovery, extends media life, and limits energy consumption. This process 1) significantly reduces the footprint compared to sand filters, and 2) reduces maintenance and replacement costs required by disc filters, and other compressible media filters.