air particulate Applications

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PM2.5/PM10 particulate monitoring

by Opsis AB     based in Furulund, SWEDEN

OPSIS provides real-time, flexible monitoring of particulate matter in the ambient air. Particulate matter monitoring with OPSIS, is a cost-effective solution, is ideally suited for use in modern monitoring stations. It can be remote controlled and includes automatic calibration, features that frees time.  The SM200 meets the new regulation for automatic monitoring of PM10 and PM2.5. It also meets the new regulation for particulate matter sampling on filter membranes for further analysis of cadmium, nickel, PAH and other substances.

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.

Air and particule sampling for the oil and gas industries

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

Ormantine offers a wide range of products and services to meet the array of different needs that arise in the oil and gas industries. Volatile Organic Compounds (VOCs), benzene, and other compounds are released during drilling, hydraulic fracturing (fracking) and other extraction procedures. Monitor NOx emissions from heavy duty equipment, particulate matter, and ground level ozone, the formation of which is contributed to by VOCs from processing, transportation, and storage of oil and gas.

Air pollution control solution for the particulate matter

by Macrotek Inc.     based in Markham, ONTARIO (CANADA)

Regulations around the globe are becoming more and more stringent for particulate emissions. Macrotek offers some of the most efficient wet and dry technologies to meet the latest EPA, EU, and MOE standards. Often, particulate collection is combined with acid gas removal. Our most advanced wet-dry system meets and exceeds the most stringent regulations for both hazardous gases and particulate.

Waste to Energy

by Babcock & Wilcox MEGTEC     based in De Pere, WISCONSIN (USA)

We can treat the air streams from waste management plants, MBT (Mechanical Biological Treatment) reception and composting areas, Waste Water Treatment Plants (WWTP), Refuse Derived Fuel (RDF) Plants, gasification of waste, syngas, torrefaction, gas engines and biogas upgrading. In waste management plants and WWTP, we remove the odors that may be causing a nuisance to neighbors, with bioreactors using Biomass to degrade odorous components and where odors are particularly intractable or VOC emissions higher, thermal oxidizers to meet prescribed emission limits and odor levels. In RDF Plants, Syngas, Gasification, Gas Engine and Biogas Upgrading applications, we employ thermal oxidizers, particulate removal and DeNOX systems, for the control of VOC, NOx, CO and particulates to prescribed emission limits.

Ethanol and Biofuels

by Babcock & Wilcox MEGTEC     based in De Pere, WISCONSIN (USA)

Controlling the VOCs and CO emissions produced in the feed dryers (wet and dry milling), coupled with the particulate matter being introduced and the need for the reduction of NOx are just the start of having a successful abatement solution. The challenges of smooth pressure control that reduces dryer fluctuations and plug resistant media that lessen the frequency of bake-outs are also part of a successful abatement system and we have the solutions. Our engineered oxidation systems provide reliable performance with minimal maintenance requirements. Externally accessible valve bearings and other critical components are kept out of the corrosive moisture-laden streams extending the life of the equipment and facilitate maintenance intervals. Our simple oxidizer designs control your emissions with minimal facility intervention and allow us to provide you with reliable and dependable equipment.

Indoor Air Quality Monitoring

by Edinburgh Instruments Ltd     based in Livingston, UNITED KINGDOM

Accurate control of critical indoor environmental parameters is not only essential for the well-being and comfort of building occupants, but also has a major impact on energy efficiency. A multitude of parameters can affect indoor air quality (IAQ) from gases such as carbon dioxide (CO2), carbon monoxide (CO) and volatile organic compounds to particulates, humidity and bacteria such as legionella. CO2 is one of the greatest variables affecting indoor environmental quality since it is produced by people occupying the building. CO2 production is a function of the number, size and activity levels of the people present in the building. Local concentrations can therefore vary dramatically – for example when a meeting room is occupied, or while workers are on lunch or coffee breaks. Excess CO2 levels can lead to tiredness and a lack of concentration and can contribute to the symptoms of Sick Building Syndrome such as headaches, eye, nose and throat irritation, itchy skin and nausea.

Applications and Air Pollutants Removed in the Fertilizer Industry

by Bionomic Industries Inc.     based in Mahwah, NEW JERSEY (USA)

Wet Scrubbers, dry collectors, wet electrostatic precipitators and complete engineered systems for urea, MAP, DAP, TSP and AN Plant rotary dryers and coolers, reactors and ammoniation granulators, pug mills, rock acidulation, curing, storage and material handling operations to control emissions of: particulate, including phosphate rock dust, ammonium phosphate, ammonia, nitric acid, NOx, phosphoric acid, hydrogen fluoride, silicon tetrafluoride, sulfuric acid, removal. Complete systems for scrubbing and recovery/reconcentration of fluorosilicic acid up to 25% concentration.

Air monitoring for laboratories

by GE Healthcare UK Limited     based in Little Chalfont, UNITED KINGDOM

Many of the air quality analyses can be performed with standard laboratory consumables, such as traditional filter papers. However, some analyses require materials with specific features, for example filters with low metal levels.

Common air monitoring applications include:

  • Air quality testing of ambient environment and emissions. Includes particulate monitoring methods such as PM2.5 and PM10, and chemical analysis such as heavy metals determination.
  • Asbestos sampling and analysis

Low level measurement of VOCs and Terpenes close to the sea and the Landes Forest

by Chromatotec Group     based in Val de Virvée, FRANCE

It has been established that organic aerosol (OA) makes up for a major fraction of fine particulate matter in all region of the atmosphere. This fraction accounts approximately for half of the total PM2.5 dry mass.1,2 Primary OA is directly emitted in the troposphere from anthropological and natural sources whereas secondary OA (SOA) is formed in-situ in the atmosphere from the oxidation of biogenic or anthropogenic gas-phase precursors and subsequent partitioning of the less volatile products into the particle phase. The current number is that, on a global scale, SOA would represent around 60% of the overall OA.3 However, recent global mass-balance estimations for the removal of volatile organic compounds (VOC) suggest that this number could under-predicts SOA production.4 Recent field measurements in urban locations are also in support of a larger share, indicating that SOA is the dominant fraction of OA, with amounts considerably 20 greater than models predictions.

Carbon Dioxide Monitoring for Indoor Air Quality

by Edinburgh Instruments Ltd     based in Livingston, UNITED KINGDOM

Introduction: Accurate control of critical indoor environmental parameters is not only essential for the well-being and comfort of building occupants, but also has a major impact on energy efficiency. A multitude of parameters can affect indoor air quality (IAQ) from gases such as carbon dioxide, carbon monoxide and volatile organic compounds to particulates, humidity and bacteria such as legionella. Carbon dioxide is one of the greatest variables affecting indoor environmental quality since it is produced by people occupying the building. Carbon dioxide production is a function of the number, size and activity levels of the people present in the building. Local concentrations can therefore vary dramatically – for example when a meeting room is occupied, or while workers are on lunch or coffee breaks.

Air pollution control for the food and bakery industry

by Anguil Environmental Systems, Inc.     based in Milwaukee, WISCONSIN (USA)

Anguil`s Food and Bakery industry experience provides reliable solutions for your emission control challenges. We have worked on a wide range of applications: achieving a high destruction level of ethanol from bakery ovens, chaff and particulate from coffee roasting, efficiently destroying grease from frying and rendering operations, handling smoke house emissions, and maintaining required opacity and odor levels from confectionery and gum manufacturing.

Applications and Air Pollutants Removed for Mineral Products Industry

by Bionomic Industries Inc.     based in Mahwah, NEW JERSEY (USA)

Removal of acid gases and particulate from cement, brick and other product kilns. Mineral product dryers including coal. Hot mix asphalt plant particulate control. Sulfur dioxide and hydrochloric acid gas removal.

Air pollution control for the paint and paint spray industry

by Anguil Environmental Systems, Inc.     based in Milwaukee, WISCONSIN (USA)

In addition to tightened government regulations, paint manufacturers and paint booth owners face several unique challenges when controlling their emissions. These challenges include airflow reduction, fugitive emissions, particulate control and reducing operating costs.

Applications and Air Pollutants Removed in the Ceramics and Glass Industry

by Bionomic Industries Inc.     based in Mahwah, NEW JERSEY (USA)

Removal of particulate, acid gases and NOx emissions from glass furnaces. Particulate control on glass and ceramic material dryers and furnaces.

Applications and Air Pollutants Removed in the Fiberglass Industry

by Bionomic Industries Inc.     based in Mahwah, NEW JERSEY (USA)

Removal of urea and phenol formaldehyde resin and fibers from sizing dye operations, particulate and blue haze emissions from fiberglass mat ovens. Removal of styrene emissions from fiberglass composite manufacturing operations.

Agitation and mixing solutions for flue gas desulfurization

by National Oilwell Varco     based in Dayton, OHIO (USA)

FGD (Flue Gas Desulfurization) involves the treatment of flue gas from coal fired power plants.  The main goal is to remove sulfur, particulates, and other chemicals such as mercury from the flue gas prior to environmental release.  Governmental regulations by the EPA put limits on the amount of impurities which can be released into the air.   The use of mixers to clean and scrub the flue gas is utilized to help power companies meet permitted limits on the release of controlled substances.

Air pollution control for the ethanol/biodesel industry

by Anguil Environmental Systems, Inc.     based in Milwaukee, WISCONSIN (USA)

Renewable energy plants are expanding and developing at a significant rate in North America and throughout the world. In the United States, the Clean Air Act for reformulated gasoline (RFG) mandates a 2wt.% oxygen requirement, driving the demand for more production. Ethanol is the most viable additive because it is a clean-burning fuel produced from renewable, domestic biomass sources. However, the production of these fuels can result in unacceptable levels of volatile organic compounds (VOCs), carbon monoxide (CO), nitrogen oxides (NOx), particulate matter (PM) and hazardous air pollutants (HAPs), all regulated by environmental agencies.

Applications and Air Pollutants Removed in the Metal Mining Industry

by Bionomic Industries Inc.     based in Mahwah, NEW JERSEY (USA)

Complete line of wet scrubbers for all metals mining applications. Scrubbers for removal of acid gases, particulate and mists from acidulation, reaction tanks and dryers. Sulfuric acid, sulfur dioxide, ammonia and hydrogen cyanide removal. Control of micron and submicron size particulate metal fumes from rotary furnaces.   

Applications and Air Pollutants Removed for Marine Power Plants

by Bionomic Industries Inc.     based in Mahwah, NEW JERSEY (USA)

Control of ship diesel engine emissions to meet MARPOL requirements for particulate ash and soot, sulfur dioxide and NOx. Special compact inline stack mounted space saving designs. Both open loop arrangements using sea water or closed loop using a range of chemical solutions.  Complete system offerings.

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