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toxic gas Applications

  • Flares for Safe Disposal of Waste & Toxic Gases

    Our Flares are versatile in design & suitable for total destruction of waste gas/vapours. The waste gases/Vapours from petrochemical, WWTP, chemical plants have very high potential for environmental hazards. If allowed to released unburned into atmosphere. SIES offers flares and combustion systems for safe disposal of gases with high efficiency and reliability. System Designed to meet the API 521/537 norms High efficiency Burners with up to 99% thermal destruction Flares operable on fully automated, SCADA based solutions Customized & Cost effective project specific solutions Successful Installations of various types of flares at various locations.

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    Oxygen monitoring from aerobic and anaerobic for toxicity test

    Toxicity of pure chemicals is assessed using respirometers by adding increasing concentrations to an active culture. The concentration at which oxygen uptake or gas production begins to decrease is known as the “threshold toxicant concentration.”

    By Respirometer Systems and Applications, LLC based in Springdale, ARKANSAS (USA).

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    Gas monitoring instruments and systems for fumigation

    Sea cargo containers and wooden packing materials are fumigated to control the spreading of pest animals and micro-organisms. Fumigant gases are toxic and measurements are carried out as a health and safety precaution. Measurements are required by e.g. customs inspectors prior to opening containers, making the shipping companies responsible for carrying out measurements. Products shipped in containers may release VOCs from e.g. solvents and glues used in manufacturing process. The concentrations of vapors may be significant in the confined space of the container. While most containers originate in China and Southeast Asia, cargo container measurements are done in ports across the world, as the same gases are encountered in all ports.

    By Gasmet Technologies Oy based in Helsinki, FINLAND.

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    Gas Detection Solutions for Gold Refining

    Hydrogen Cyanide (HCN) is a highly toxic compound that is a byproduct of many industrial processes. Existing HCN point sensors are maintenance intensive, slow to respond and provide limited coverage. Many HCN sensors do not work reliably in hot or cold weather, or in humid environments. Our technology can be used for fixed monitoring applications or for temporary protection of workers during construction projects.

    By Boreal Laser Inc. based in Edmonton, ALBERTA (CANADA).

  • Gas detection for the steel industry

    Regarded by many as providing the backbone to modern society, the steel industry is one which continues to evolve. Whether it is geographic shifts in demand or production, or challenges brought by energy or raw material costs, companies continue to develop their processes and facilities to meet them. Alongside these changes companies have also realised the requirement to minimise downtime due to unplanned maintenance and protect workers from exposure to toxic or flammable gas hazards.

    By Crowcon Detection Instruments Ltd - a Halma company based in Milton Park, UNITED KINGDOM.

  • Waste gas treatment for the semiconductor industry

    In the early 1990s no appropriate and comprehensive technical solution had been available for waste gas treatment in the semiconductor industry. Back then as well as today many industrial and research production procedures use process gases and generate waste gases. These waste gases, considered greenhouse gases, are toxic and/or highly flammable and very often pose a significant risk to production facilities and the environment. The semiconductor industry, for instance, uses perfluorocarbons, whose global warming potential is extremely high and therefore requires an efficient waste gas treatment. Combining and transporting different gases into a fab’s central waste gas system might produce highly flammable and highly explosive gaseous mixtures, which in the past has occasionally caused the total loss of entire production facilities. Particles contained within gases may also cause exhaust blockages. To eliminate these risks, process waste gases need to be treated at the “Point-of-Use” (POU) where harmful exhausts are abated immediately.

    By DAS Environmental Expert GmbH based in Dresden, GERMANY.

  • Gas detection for the winery and brewery Industry

    Once an archetypal example of manual production, the winery and brewery industries now incorporate sophisticated processes to ensure high quality levels and efficient output. In some cases traditional approaches have simply been scaled up or put under more stringent monitoring, whilst in others innovations such as nitrogen-pressurised canning have been introduced. However, whichever approach has been followed there is also a growing realisation of the gas hazards that are associated with both new and old processes, and the need to protect workers from toxic gas exposure and asphyxiation risks.

    By Crowcon Detection Instruments Ltd - a Halma company based in Milton Park, UNITED KINGDOM.

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    Chemical water treatment for refinery

    Deposits and corrosion as well as undesired emulsion, foam and toxic gases impact the operation and the occupational safety in refineries. Kurita provides tailored treatment concepts to increase the operational and the occupational safety. Our product lines and technologies are based on decades of experience in process treatment and they contribute to reduce your total operating costs.

    By Kurita based in Ludwigshafen, GERMANY.

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    Gas monitoring instruments and systems for compressed breathing air

    Compressed breathing air is subject to strict limits of harmful contaminants defined in European standard EN 12021 and various defence standards such as DEF STAN 68-284 issue 3. The testing interval of breathing air compressors and associated equipment is 3 months and gases tested include carbon monoxide, carbon dioxide and oil vapour defined as hexane and heavier hydrocarbons. EN 12021 covers underwater applications including self-contained open circuit compressed gas breathing (SCUBA) and compressed gas line breathing (hard-helmet diving), respiratory equipment used on ground for escaping from toxic atmospheres and for working in contaminated atmospheres. It also covers breathing gas for hyperbaric operations and synthetic air. While EN 12021 does not cover aerospace applications, the British MOD publication DEF STAN 68-284 and its counterparts in other countries cover also the breathing gases used in aviation.

    By Gasmet Technologies Oy based in Helsinki, FINLAND.

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    Gas Detection Solutions for Hydrogen Fluoride (HF) Safety

    Hydrogen Fluoride (HF) is a very useful chemical used in a variety of industries. However, HF is highly toxic with potential fatal consequences with exposure to humans, so facilities that make or use HF should exercise great care. Nevertheless, there is always the risk of leaks from process elements such as valves, pump seals and storage vessels. Tanker loading, transporting and unloading operations also provide opportunity for HF releases. Industrial processes that make or use HF typically have arrays of point sensors distributed throughout the unit. However, these sensors are maintenance intensive and have relatively slow response times. In addition, a point sensor will not detect an HF release unless it is located directly in the area of that release. Electrochemical HF sensors also respond to chlorine, ammonia, and sulfur dioxide, resulting in false alarms.

    By Boreal Laser Inc. based in Edmonton, ALBERTA (CANADA).

  • Integrated real-time gas analysis solution for chemical weapon agents

    The nation has stockpiled thousands of cylinders and canisters of toxic and deadly chemical weapon agents, including mustard gas (HD), sarin (GB), tabun (GA), and V-agents. Most of these CWAs are stored at DOD facilities around the country and many have been in storage for years and years. As a consequence, DOD requirements specify that the stockpiles have to be monitored regularly for leakages to prevent release to the environment and exposure to personnel.

    By CIC Photonics, Inc. based in Albuquerque, NEW MEXICO (USA).

  • Integrated real-time gas analysis solution for emissions industry

    Pollutant emissions from industrial smoke stacks are a major national concern due to both health concerns and climate change. As a consequence, there are at least tens of gas analyzer manufacturers in the U.S. alone that compete in that market and have done so for years. What CIC Photonics brings to that competitive field is its expertise derived from its Combustion Efficiency Solution and its high performance IRGAS Systems. The IRGAS-CEM provides real-time and simultaneous measurements of the multitude of toxic combustion products, including CO, CO2, NOx, SOx, CH4, CxHy, H2S, etc. The EP-IRGAS-SPA is also applicable for fast time responses.

    By CIC Photonics, Inc. based in Albuquerque, NEW MEXICO (USA).

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    Testing Fume Hood Flow Dynamics using SF6 as a Tracer Gas

    A safe laboratory environment requires an effective method for clearing toxic material from fume hoods. Since all handling of toxic materials is completed in these hoods, it is critical to have a procedure to evaluate their operation to assure adequate protection for laboratory workers. The InfraRan Specific Vapor Analyzer, factory calibrated for SF6, is an ideal instrument for measuring fume hood efficiency in accordance with ASHRAE and other standards. Manufacturers identify the flow dynamics (factors that affect air flow in the hood and performance with air) using the ratings AM (as manufactured), AI (as installed), and AU (as used). A fume hood evaluation conducted under its operational environment is critical, as these tests will indicate any installation shortcomings as well as direct workers in proper laboratory hood techniques.

    By Spectro Scientific based in Chelmsford, MASSACHUSETTS (USA).

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    Portable Stack Monitoring

    Many industries are required to measure stack emissions of toxic gases periodically, but not continuously. Extractive wet chemical methods currently used are slow, labor intensive and expensive. A single GasFinderFC can perform stack monitoring requirements for a specific gas, quickly, easily and accurately.

    By Boreal Laser Inc. based in Edmonton, ALBERTA (CANADA).

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    Infrared sources for industrial and safety sector

    Axetris infrared sources are used in a variety of industrial applications: Combustible and Toxic Gas Detection, Refrigerant Monitoring, SF6 Monitoring, Fruit Ripening Monitoring, Flame Detection, Liquid Analysis using Attenuated Total Reflection ATR, Semiconductor Fabrication.

    By Axetris Ag based in Kaegiswil, SWITZERLAND.

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    Perimeter Monitoring and Area Monitoring

    GasFinder2 can be permanently installed to monitor chemical and petroleum plants for both combustible and toxic gases. GasFinder2 can be used to replace arrays of point sensors for perimeter monitoring. A single light path will replace many point sensors. With GasFinder2 perimeter monitoring, all gas dispersed from a facility is detected and logged.

    By Boreal Laser Inc. based in Edmonton, ALBERTA (CANADA).

  • Poultry Ozone

    Poultry Ozone - Disinfection of Drinking Water Advantages Increase DO Level in Water Improve taste in water Non toxic water Reduces waterborne pathogens Low maintenance cost Green Technology) Environmental Friendly Gas Faster Return Of Investment due to the below benefit factors No Harmful By-Products ( Improved Air Quality and Work Environment

    By Ozone Engineers based in Coimbatore, INDIA.

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    Bio-Hazard and Crime Scene Cleanup

    OmniAire HEPA air filtration machines can remove odors and toxic VOCs released into the air during the cleaning and removal process. OmniAire portable air filtration and purification equipment offers the most efficient and economical solution to reduce toxicity and improve safely for your Bio-Hazard projects. Typically, the standard 99.97% HEPA filter is sufficient, however, if you need the next level of airborne pollutant removal for more toxic applications, such as filtering out VOCs, viruses, smoke and gas molecules, add an OdorGuard Activated Carbon filter.

    By Omnitec Design, Inc. based in Mukilteo, WASHINGTON (USA).

  • Hydrogen Sulfide (H2S) monitoring

    Hydrogen sulfide is the chemical compound with the formula H2S. H2S is colorless, toxic and flammable and is responsible for the foul odour of rotten eggs and flatulence. Hydrogen sulfide often results from sulfur reducing bacteria in nonorganic matter (in the absence of oxygen), such as in swamps and sewers (anaerobic digestion). H2S also occurs in volcanic gases, natural gas and some well waters.

    By Ecotech Pty Ltd based in Knoxfield, AUSTRALIA.

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