air pollution monitoring Applications

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Air Quality Monitoring Equipment for Industry

by Signal Group Ltd     based in Camberley, UNITED KINGDOM

Signal manufacture a wide range of Air Quality Monitoring equipment, from reference method integrated systems down to battery powered indicative units.

Continuous emissions monitoring for CO2 capture

by Opsis AB     based in Furulund, SWEDEN

The process control of a CO2 capture plant needs good and reliable detection of gas phase NH3 and CO2. Measuring NH3 is a challenge due to the corrosive environment and high concentrations of NH3. Several places in the process needs to be monitored and to transport the sample is difficult. A large dynamic range is needed as the NH3 concentration can vary between 15% volume and a few mg/m3.

Particulate monitoring for continuous emissions

by DynOptic Systems Ltd     based in Brackley, UNITED KINGDOM

With the advent of specific process emission limits being defined, continuous particulate monitoring has become a regulatory requirement for many industries. smoke stack #1Particulate monitoring requires the measurement of the mass concentration of particulate matter in stack emissions to atmosphere. There is no known method of continuously measuring particulate concentration by direct measurement and therefore, all continuous particulate measurement methods are inferential. Each method involves the measurement of a parameter related to particulate concentration and then requires a calibration to be determined to convert the measured value into one of particulate mass concentration.

Low concentrations monitoring of benzene and aromatic hydrocarbons (BTEX) for pollution control and environmental monitoring

by Environnement S.A     based in Poissy, FRANCE

With over 15 years of experience in the measurement of volatile organic compounds (VOC), Environment SA announces the VOC72M, a new generation analyzer for the measurement of BTEX compounds by gas chromatography with photo-ionization detector (PID). The VOC72M can handle up to 40 compounds and eight configurations for analysis. This compact and fully automated analyzer with wide voltage range specifications (90-240V) provides equivalent performance to the laboratory chromatographs and is particularly suited to fixe or mobile ambient air quality monitoring laboratories. The VOC72M is fitted with a PID detector new generation, much more sensitive, more stable and whose lamp does not need to be cleaned; the analyzer integrates flow control fittings a 3 levels security system built on and uses only one gas (nitrogen). This robust and low maintenance instrument performs all the functions (sampling, analysis and data management) in a simple and completely autonomous mode. It is a particular

Low level measurement of aromatic hydrocarbons (BTEX) for pollution control and environmental monitoring.

by MOCON - Baseline     based in Lyons, COLORADO (USA)

The Series 8900 BTEX Analyzer with a high-sensitivity PID provides direct low level measurement of Benzene, Toluene, Ethylbenzene, and Xylene`s in ambient air. This instrument is utilized in ambient air networks around metropolitan areas and fence-line monitoring at industrial sites.

Industrial solutions for air quality monitoring

by Advantic Sistemas y Servicios S.L     based in Alcobendas, SPAIN

To protect humans and the environment from damage by air pollution, it is of the utmost importance to measure the levels of pollutants in the air. Real time monitoring of dangerous gases is particularly interesting in hazardous areas, as the conditions can change dramatically very quickly, with serious consequences. ADVANTICSYS employs its knowledge in wireless sensor networks to develop customized solutions for our customers.

SO2 Monitoring in Air

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

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.

O2 Monitoring in Air

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

Oxygen (O2) is a colorless odorless gas, essential to all life on Earth but damaging in high concentrations. An O2 analyzer should thus be employed for safety management and air pollution prevention purposes. LasIR MP110 is perfect for continuous emission monitoring of O2. It is based on TDLAS technology and can be calibrated as an O2 analyzer, providing accurate and reliable measurements. It quickly responds to changes in compound concentration, thus providing continuous emission monitoring for the specified gas.

Pollutant monitoring for the manufacturing industries

by Ormantine USA Ltd., Inc.     based in Palm Bay, FLORIDA (USA)

Ormantine`s air monitoring equipment is widely used to monitor both indoor and outdoor air quality. Continuous development allows us to provide equipment for a broad range of applications, covering short-term and long-term monitoring. Pollutants can be detected even at very low levels – limits of detection are typically in the low parts per billion (ppb) range. Ormantine USA`s many solutions have applications from personal exposure monitoring to long term fence line monitoring studies.

Opacity monitoring for continuous emissions

by DynOptic Systems Ltd     based in Brackley, UNITED KINGDOM

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.

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

by Chromatotec Group     based in Val de Virvée, FRANCE

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.

Ambient air monitoring by FID detection – airmoVOC BTEX

by Chromatotec Group     based in Val de Virvée, FRANCE

Urban pollution is a problem that concerns more and more people in charge of public health. In large cities, car emissions are an important source of atmospheric pollution. This problem is growing as the traffic keeps on increasing. BTEX compounds are present in car emissions. It is therefore important to be able to analyze them with short analysis cycle duration and on a continuous and automatic way.

Ambient Stations for Ambient Air Quality Monitoring

by Opsis AB     based in Furulund, SWEDEN

Ambient air monitoring involves the measurement of `representative` air in urban, industrial and rural areas. These measurements are used to determine the human exposure to pollutants and can be combined with trace/background monitoring.

Air quality monitoring for traffic

by AQMesh     based in Stratford-upon-Avon, UNITED KINGDOM

Modern intelligent traffic systems are designed to move traffic in an efficient manner as well as reduce the environmental impact of traffic on nearby populations. This includes the effects of noise, particle pollution and gases.

Air monitoring equipments for laboratory analysis

by Gradko International Ltd     based in Winchester, UNITED KINGDOM

Our purpose built environmental laboratory provides accurate and efficient analysis, specialising in the determination of gaseous pollutant concentrations. Other processes can also be performed to meet the specific needs of our customers.

Ambient air quality monitoring for governments

by Teledyne Advanced Pollution Instrumentation (TAPI)     based in San Diego, CALIFORNIA (USA)

SO2 monitoring for the US NCore network, a multi pollutant network to measure  particles, pollutant gases and meteorology.

Multi-Metals CEMs

by Cooper Environmental     based in Beaverton, OREGON (USA)

Cooper Environmental's Xact 640 has the unique ability to generate high time resolution metals measurement in stacks. This unique capability has the potential to qualify as a substitution for the combination of a Hg/ PM CEMs application as well as the potential for a pollution control system feedback loop that could result in the reduction of pollution control consumables. Our systems have been site certified for compliance measurements at hazardous waste incinerator and secondary lead smelter sites.

Air monitoring equipments for outdoor & indoor air quality

by Gradko International Ltd     based in Winchester, UNITED KINGDOM

Gradko’s ambient air monitoring equipment is widely used to monitor both indoor and outdoor air quality. Continuous development allows us to provide equipment for a broad range of applications, covering short-term and long-term monitoring. Pollutants can be detected even at very low levels – limits of detection are typically in the low parts per billion (ppb) range.

Air quality monitoring for health protection

by AQMesh     based in Stratford-upon-Avon, UNITED KINGDOM

Vertical pollution monitoring at different levels of a high rise building can reveal exposure of inhabitants to pollution and inform guidance about ventilation.

Emissions Monitoring for Airports

by Opsis AB     based in Furulund, SWEDEN

Opsis systems provide high-performance monitoring of the emission activities within an airport. The rapid system allows on-line monitoring of the emissions from each aircraft at take-offs and landings, monitoring of fugitive emissions from stationary sources and differing of the airport sources from the surrounding pollution sources.

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