Air Monitoring Standards Applications

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  • Category: Air & Climate ×

  • Subcategory: Air Monitoring Standards ×

Particulates PM10 PM2.5 TSP monitoring

by Ecotech Pty Ltd     based in Knoxfield, AUSTRALIA

Sampling dust and particulate matter is important as dust and particulate matter can affect the health of human populations, as well as the natural environment. Dust and particulate matter can cause respiratory problems when breathed in by humans. Dust and particulates above 10 micrometer (PM10) are filtered and generally do not enter the lungs.

Air quality monitoring for regulatory purposes

by Ecotech Pty Ltd     based in Knoxfield, AUSTRALIA

Air quality monitoring for regulatory purposes requires instrumentation, systems and procedures that meet international standards such as those described by the USEPA, MCERTS or the European Union. Ecotech offers solutions that meet this criteria.

Production of high-accuracy ethanol calibration gas

by MKS Instruments, Inc.     based in Andover, MASSACHUSETTS (USA)

Fast and highly accurate analyzer system was needed for ethanol calibration gas standards. Precisive`s OXS-3100-HC configured for ethanol gas was selected due to its sub-ppm repeatability and high stability.

Combustion measurement for engines

by Dantec Dynamics     based in Skovlunde, DENMARK

Combustion processes occur in many modern technologies such as power production, heating, automotive and aircraft engines and even explosion research.

The application areas range from fuel injection and mixing and flow velocity information to measurements of combustion species and soot concentration.

Because of the impact on the global climate and the limited resources of fossil fuels, the importance of these applications is increasing, especially with respect to performance, fuel economy and CO2 emissions.

Marine And Offshore Emissions Monitoring & Analysis

by Procal - Parker Hannifin Corp     based in Peterborough, UNITED KINGDOM

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.

Extraction of many emission sources in extensive factory premises

by Chemisch Thermische Prozesstechnik GmbH / CTP Air Pollution Control     based in Graz, AUSTRIA

CTP achieved the continuous and individual ventilation of every work station and overall compliance with statutory limits, as well as the production of usable steam as a by-product of the excess heat.

Air cleaning system for the higher education areas

by Dynamic Air Quality Solutions     based in Princeton, NEW JERSEY (USA)

Dynamic Air Cleaners are an ideal indoor air quality solution for schools, colleges and universities. Without sacrificing budgets, higher education institutions can utilize these highly-versatile air cleaners to lower energy costs and establish greener, healthier learning environments for teachers and students. A report from The American Institute of Architects, The Redford Center, ICLEI USA – Local Governments for Sustainability and the U.S. Green Building Council (USGBC) estimates inefficiency costs the average school $100,000 each year. The report also states 14 million students attend schools considered below standard or dangerous, with more than 15,000 schools having air deemed unsafe to breathe. Generating a return on investment in three to five years, Dynamic Air Cleaners remove dangerous airborne particles that other air cleaning systems miss, including odors, smoke, bacteria, allergens, fine dust, mold and pollen, without producing any harmful ozone.

Fluoride emissions monitoring in aluminum smelters

by Gasmet Technologies Oy     based in Helsinki, FINLAND

Production of aluminum from its ores at aluminum smelters results in carbon dioxide CO2, carbon monoxide CO, sulfur dioxide SO2, and hydrogen fluoride HF gas emissions during the electrolytic process phase to the atmosphere. The gas emissions need to be monitored. Typically the smelters have emission limit values (ELVs) for sulfur dioxide and hydrogen fluoride emissions. These emissions should be measured accurately and with good precision, to ensure the smelter does not exceed its emission limit values. In addition several fluoride compounds may be produced in the electrolytic bath in the event of an oxygen shortage. These compounds include carbon tetrafluoride CF4, hexafluoroethane C2F6, sulfur hexafluoride SF6, and silicon tetrafluoride SiF4. These additional emission components are problematic, as they have high Global Warming Potential (GWP) values. The GWP is a relative measure designed to demonstrate how much heat a greenhouse gas (GHG) traps in the atmosphere. Emission of one kilogram of carbon tetrafluoride into the atmosphere today has the potential of heating the atmosphere as much as 7,000 kilograms of carbon dioxide over the next 100 years.

Measurement solution for formaldehyde FTIR measurement

by Protea Limited     based in Middlewich, UNITED KINGDOM

Reciprocating internal combustion engines burning natural gas are a source of formaldehyde emissions. There are strict tolerances imposed on operators of engines to ensure that formaldehyde is removed effectively and that formaldehyde emissions are below published limits. The only instrumental method for formaldehyde monitoring is FTIR, following procedures such as US EPA Method 320 and Environment Agency TGN M22. Protea’s FTIR gas analysers have been specifically designed to follow these methods and our FTIR analyser have been proven in formaldehyde emission measurements over many years.

Determine Saybolt Color #3067

by Guided Wave Inc,     based in Rancho Cordova, CALIFORNIA (USA)

Accurate online saybolt measurements from zero to +36. - Quantify yellowness for manufacturing control and product uniformity. - Ensure your product meets customer expectations - Detect potential cross-over contamination in fill or supply lines in real-time - Take the guess work our of product appearance standards - Application Note #3067

Capabilities of the Adsorbent Tube Injector System (ATIS™)

by Sigma-Aldrich Co., LLC     based in Bellefonte, PENNSYLVANIA (USA)

The Adsorbent Tube Injector System (ATIS) was developed at Supelco® by R&D Scientists, as a tool to assist in our comprehensive adsorbent research for thermal desorption tubes. The ATIS provides an efficient means of transferring calibration standards in either the gas or liquid phase onto the adsorbent packed tubes. The ATIS employs the technique of flash vaporization to vaporize the sample in a continuous flow of inert gas; the inert gas carries the sample to the tube. The sample pathway of the ATIS is constructed of glass and stainless steel. The calibration standard is injected by a syringe through a replaceable septum in the center of the injection glassware, which is heated. After enough time has elapsed, typically less than five minutes, the tube is removed from the ATIS and analyzed using the appropriate analytical technique for that adsorbent tube.

Integrated real-time gas analysis solution for specialty gases industry

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

CIC Photonics’ extensive experience with gas analysis has also included what the industry refers to as Specialty Gases, as distinguished from Semi Gases, Electronic Specialty Gases, and Industrial Gases. Specialty Gases are high purity gases used across many applications by researchers, by government agencies, and by commercial businesses. Included among these users and applications are: hospitals for medical gases; environmental labs and testing companies for blends of protocol gas mixtures; calibration gases; spectroscopy standards; gas composition measurements and confirmations; and others.

Flaring Solutions for Gas Processing Facilities

by ABUTEC LLC     based in Kennesaw, GEORGIA (US) (USA)

ABUTEC’s proprietary technology was designed to provide cost-competitive solutions and the industry’s lowest operating costs and cost of ownership. Our uniquely engineered burner system offers a significant reduction in make-up fuel over premixed surface combustion systems, thermal oxidizers or traditional pipe flares. In addition, we meet EPA requirements for 40 CFR 60.18 and local BACT (Best Available Control Technology) and MACT (Maximum Achievable Control Technology) at the state and local levels. We will perform a complete return-on-investment analysis for you while showing you your total cost of ownership.

Flaring Solutions for the Mine Gas Industry

by ABUTEC LLC     based in Kennesaw, GEORGIA (US) (USA)

ABUTEC manufactures and services low emission, low NOx mine gas incinerators (i.e. enclosed flares) for the mine gas industry. We specialize in offering compact solutions and price competitive equipment, whether you are upgrading due to new regulations, evaluating a gas-to-energy project or looking for a green technology to take advantage of tax credits. We specifically size and design for your unique mine gas needs with flares ranging in size from 10 SCFM up to 6,000 SCFM. All ABUTEC flares and solutions meet or exceed EPA regulations and are BACT-approved. ABUTEC installed the first mine gas incinerator in the U.S. and is the only company to provide proven carbon credit solutions.

Flaring Solutions for the Petrochemical & Refinery Industry

by ABUTEC LLC     based in Kennesaw, GEORGIA (US) (USA)

ABUTEC’s goal in the petrochemical and refinery industry is to save you money. ABUTEC’s vapor combustor and enclosed flare line offers flexible and resilient burner technology to handle heavy hydrocarbon gases down to low quality or inert gases. We will save you money on capital costs and we will offer you a very fast payback (as low as 2 months) based on reducing the amount of make-up fuel and pilot gas required. This revolutionary technology is designed for you!

Measurement of C1-C5 with carbon dioxide for oil & gas exploration.

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

The PetroAlert Model 8900 combines the selectivity of gas chromatography with the sensitivity, broad dynamic range, and hydrocarbon selectivity of a flame ionization detector (FID) providing fast analysis of C1-C5 hydrocarbons and Carbon Dioxide required in Mud Logging for Oil & Gas exploration. The PetroAlert Model 8900 uses a dual column configuration with timed backflush to vent which is used to strip off moisture and C6+ hydrocarbons. A pre-cut column is used in series with the analytical column. At sample injection a fixed sample volume is carried to the pre-cut column. Backflush of the pre-cut column is timed from sample injection so that only C1-C5 hydrocarbons are eluted from the pre-cut column to the analytical column. C6+ hydrocarbons on the pre-cut column are then vented. Then a third column is used in conjunction with a second 10-port valve for individual analysis of methane. C1-C5 hydrocarbons are separated on the analytical column and elute to the flame ionization detector (FID) for analysis.

OpenTAS TFM (Tank Farm Management)

by Implico Group     based in Hamburg, GERMANY

OpenTAS® is a highly integrated standard software solution that is able to provide the most complete solution to cover the Oil & Gas Downstream logistics processes.

Rugged Mobile Technology for Oil and Gas Industry

by Handheld UK and Ireland Ltd     based in Leamington Spa, UNITED KINGDOM

Oil and gas personnel spend a large amount of time in remote pipeline locations and on oil rigs — environments that aren’t exactly gentle on technology. Our handhelds are tested to military standards for ruggedness, yet they’re also extremely compact, ergonomic and user-friendly. Handheld products allow you to easily capture data associated with resource-monitoring and transport tasks, and keep all your important information secure while you focus on doing your job efficiently and safely.

RTO (Chemical) Industries Waste, Paint, Wood chip and

by Honeycombs Ceramics BV     based in Sassenheim, NETHERLANDS

Our company Honeycombs Ceramics B.V. supports installations used for RTO (Regenerative Thermal Oxidizer). These gas (waste) installations use ceramic beds of blocks to cool released hot gasses. This is one of the most important processes within the installation. Honeycombs Ceramics B.V. is established in Europe and China. This global connection makes us unique, it takes one contact to make RTO business a low-cost and durable business. Our lines are short, we are always available, and both countries have sales offices and warehousing. Core feature: Efficiency. The way you do business with RTO providers can be converted to a more simple, safe and secure way. By giving you the opportunity to choose how, when and where. Our companies in the Netherlands and China have professional sales teams. And their goal is to assist you. You can decide which office to contact. 24/7. Our production in China is under strict policy of quality control. We have inspectors in China and the Netherlands who both follow strict instructions to meet our high standards. These standards are measured and recorded by SGS every year. Pricewise we offer high quality for low pricing. Next to quality, there is warehousing. Our warehousing is extensive, with supervision of quality- and logistic managers. Also, there is the opportunity to keep stock in both countries. We understand the importance of availability when needed. Whether this is emergency, temporary, or for quantities based on a turn around. Based on all input from customers and opportunities in RTO business, we innovate and make possibilities work. In short; no fuss, that's us.

Measurement solution for HF emissions from brickworks

by Protea Limited     based in Middlewich, UNITED KINGDOM

Brick kilns, as well as other plants such as ceramics manufacturers and fertiliser producers, are a major producer of hydrogen fluoride (HF) emissions. HF is highly reactive gas and seriously damaging to human health, so has strict emissions limits imposed by legislation. In addition to the effects to humans, emissions have been found to damage crops and fruit trees, as well as the general environment. The brick industry strives to reduce the amount of HF emissions and numerous projects have been carried out into the research and development of proposed process modifications that introduce ways to reduce hydrogen fluoride emissions via the latest technology such as filters and scrubbers.

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