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exhaust monitor Applications

  • Exhaust Gas Emissions

    Hiden gas analysis systems provide for high sensitivity, wide dynamic range, real-time analysis of almost any gas/vapour. Hiden’s application specific gas analysis systems are tailored to meet the specific application requirements, & include a range of special sampling, vacuum pumping & vacuum accessories. Hot zone sampling accessories are included for evolved gas analysis from furnaces, & thermo gravimetric analysers, TGA, for example. Thermal analysis methods are vital for catalysis characterization. For thermal analysis including TPD/TPO/TPR studies, Hiden gas analysis systems include enhanced pumping for hydrogen and special close coupled sampling to the TPD/TPO/TPR reactor for optimum thermal analysis response. In Biogas applications the simultaneous analysis of H2S, CO2, water vapour & CH4 in the PPM to 100% concentration range provides vital ininformation for process development and process monitoring...

    By Hiden Analytical based in Warrington, UNITED KINGDOM.

  • Dust monitoring of exhaust gases from manufacturing processes

    DynOptic dust monitors use the innovative Dynamic Detection Principle (DDP) to measure dust and particulate within exhaust gases from various manufacturing processes. DDP, or optical scintillation as it sometimes referred to, measures the dynamic fluctuation in light transmission as dust particles move through a light beam. This dynamic fluctuation derives from temporal distributions of the dust particles which attenuate the light beam. The more dust present in the exhaust, the greater the amplitude of these fluctuations. DDP instruments calculate the dynamic response, or the ratio of light variation to light intensity, which for particular applications, is proportional to dust concentration and when calibrated against standard reference measurements, this can be presented as a reading in mg/m³.

    By DynOptic Systems Ltd based in Brackley, UNITED KINGDOM.

  • Stack Testing for Rod Mill Exhaust Stack

    STEEL INDUSTRY: Conducted particulate testing and continuous emission monitoring of a rod mill exhaust stack. In addition, testing was performed to determine emissions associated with a slow cooling pen associated with ball mill production.

    By AirSource Technologies, Inc. based in Shawnee, KANSAS (USA).

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    PTR-TOFMS systems for automotive real-time vehicle exhaust analysis

    Monitoring exhaust gas from combustion engines, emitting a large number of different compounds and with rapidly changing concentrations due to variations in operating conditions, necessitates an instrument that measures in real-time and with high sensitivity – an IONICON PTR-TOFMS.

    By Ionicon Analytik Ges.m.b.H. based in Innsbruck, AUSTRIA.

  • SO2 Monitoring in Air

    SO2 (sulfur dioxide) is measured in a number of applications. SO2 is used as a food grade preservative and must be regulated in accordance with government-set criteria to be safe for consumers. It is also measured in fuel exhaust to control for environmental pollution and in cement plants for process control.

    By Unisearch Associates Inc. based in Concord, ONTARIO (CANADA).

  • Opacity monitoring for continuous emissions

    The history of air pollution regulation dates back as far as the 13th century when in 1273, Edward I (Longshanks) of England prohibited the burning of sea coal in London. The smoke produced by its combustion was considered detrimental to human health. By the late 19th and early 20th centuries, regulations were being passed that sought to control air pollution predominantly for smoke and odour control. Traditionally, regulators were concerned with the visual impact of the discharge from a stack or chimney. Therefore, emission limits were expressed in terms of colour or opacity. Modern methods for opacity measurement still use the darkness of the stack gases to measure the amount of smoke or dust emitted within the exhaust gases.

    By DynOptic Systems Ltd based in Brackley, UNITED KINGDOM.

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    Radiation Monitoring for Emergency Preparedness / Radiation Monitoring for Homeland Security

    Nuclear and radiological risks are obviously a reality in today`s world, and anti-terrorism has become an absolute priority for homeland and border security. Alert and detection mechanisms are fundamental to current protection policies: we must be capable of preventing the illegal traffic of radioactive sources through border controls, and measuring gamma radiation in the environment if a malevolent act is committed. Saphymo meets homeland security and Emergency preparadness by proposing dosimeters and survey meters for both preventive and response purposes, enabling first responders to assess the character of radiological incidents. Border controls are performed using pedestrian and vehicle access control portals - Saphymo is a European leader in this field. Saphymo`s exhaustive range of reliable and high-performance products is fully adapted to the fight against CBRN terrorism and covers every conceivable situation.

    By Saphymo based in Montigny Le Bretonneux, FRANCE.

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    Radiation Monitoring for Nuclear Military Sites

    Deterrence is the cornerstone of Defense, reflected in today`s nuclear military vehicles (submarines, aircraft carriers, aircraft, etc.) and sensitive sites. Defense calls on Saphymo`s exhaustive product range to secure its personnel and equipment and shoulder the emergency services in case of a CBRN threat. All military units are required to be fitted out with detection and decontamination devices, and possess the special expertise needed to manage exceptional events. Nuclear military sites must also be equipped with specialist monitoring devices. Dosimetry, survey meters, access control, Radiation Monitoring Systems, environmental monitoring networks and numerous other solutions offer valuable decision-aid tools, providing fast and accurate information and easier situation assessment.

    By Saphymo based in Montigny Le Bretonneux, FRANCE.

  • NDIR Carbon Dioxide (CO2) Monitoring

    Carbon dioxide has a wide range of commercial uses, from the production of lasers to the carbonation of soft drinks. This gas has become a topic of interest because it is classified among the greenhouse gases, gases which impact the Earth's environment when they reach high concentrations in the atmosphere. We propose solutions for medical diagnostics (out-breath control) and for ecological monitoring (control of carbon dioxide, exhaust gases in the atmosphere).

    By LED Microsensor NT based in Saint-Petersburg, RUSSIA.

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    Ambient air and emissions monitoring of Polycyclic Aromatic Hydrocarbons – airmoC10-C20+

    Polycyclic Aromatic Hydrocarbons (PAHs) are a group of over 100 different chemicals that are known to be formed typically during incomplete combustion of organic matter at high temperature. Their major sources in the atmosphere include industrial processes, vehicle exhausts, waste incinerations, and domestic heating emissions. Due to their carcinogenic/mutagenic effects, 16 PAHs are currently listed as priority air pollutants.

    By Chromatotec Group based in Val de Virvée, FRANCE.

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    Gas monitoring instruments and systems for semiconductor manufacturing

    In the semiconductor manufacturing industry, various perfluorinated compounds (PFCs) are used. The emissions of the PFC compounds into the ambient air are reduced by scrubbing of the exhaust gases from the process. In this process, the Gasmet™ FTIR Gas Analyzers can be used to measure the emissions into the atmosphere and also monitor the efficiency of the scrubbers. Typically monitored PFCs in the exhaust gas include carbon tetrafluoride CF4, trifluoromethane CHF3, and hexafluoroethane C2F6.

    By Gasmet Technologies Oy based in Helsinki, FINLAND.

  • Marine And Offshore Emissions Monitoring & Analysis

    The need to demonstrate environmental responsibility is key for today’s marine and offshore industries. Fuels and exhaust gas emissions are subject to international, regional and national controls and Charterers, as well as the public, demand high standards of performance and reliability.

    By Procal - Parker Hannifin Corp based in Peterborough, UNITED KINGDOM.

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    Gas monitoring instruments and systems for engine emissions measurements

    The exhaust gas from combustion engines is a complex mixture of gases and particulate matter. The composition of the gas may change rapidly. Multicomponent analysis of exhaust gases can be performed with a Gasmet™ FTIR Gas Analyzer with a response time (T90) of one second. The winning combination is the result using of a small volume gas sample cell, a powerful sample pump and a fast detector with liquid nitrogen cooling. The analyzer, sampling system and computer can be assembled on a cart for use in a dynamometer laboratory, or the portable version can be used for roadside tests.

    By Gasmet Technologies Oy based in Helsinki, FINLAND.

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    High quality gas sensor solutions for mining

    Fast, accurate and reliable measurement of CH4. The extraction of coal releases methane gas, which can mix with the air in a mine to form a hazard due to its flammability. Ventilation with fresh air from the surface is used to dilute the methane and reduce the risk of explosion. Monitoring of the methane content of the stale air exiting the mine allows the amount of ventilation to be controlled. Although our sensors are not ATEX approved for use in potentially explosive atmospheres they are suitable for monitoring air containing methane concentrations below the lower explosive limit. Our OEM products can be built into equipment which is approved for use in the monitoring of mine exhaust gas and similar applications.

    By Edinburgh Instruments Ltd based in Livingston, UNITED KINGDOM.

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