Modern production method of nitric acid production may lead to generation of several different gaseous emission components, such as nitrogen oxides (NOx), ammonia NH3 and nitrous oxide N2O. Nitrogen monoxide is an intermediate gaseous product in manufacturing of nitric acid HNO3. NO is formed in a catalytic reaction between ammonia and molecular oxygen O2. But undesirable side reactions may result in formation of nitrogen dioxide NO2 and nitrous oxide N2O. The NO and NO2 emissions can be reduced by use of Selective...
Control of emissions is often required due to the hazardous nature of the contaminant. Often, control or removal is necessary due to offensive odours. Ammonia, sulfur and other related compounds fall in these categories. Macrotek offers many control technologies to capture ammonia and other odour causing contaminants. Reagents are often used to neutralize and stabilize the by-product.
Use Ecosorb products to remove foundry smells naturally. Ecosorb odor control products by OMI Industries are extremely effective at breaking down and eliminating the many odorous gases produced by the metalcasting process. They chemically convert foul and potentially harmful gases into non-odorous byproducts. Within the metalcasting industry, Ecosorb products are effective on amines, sulfur dioxide, phenols, formaldehyde, ammonia, partially burnt hydrocarbons solvent odors and more.
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.
A modern production method of nitric acid may lead to a generation of several different gaseous emission components, such as nitrogen oxides (NOx), ammonia NH3 and nitrous oxide N2O. Nitrogen monoxide is an intermediate gaseous product in the manufacturing of nitric acid HNO3. NO is formed in a catalytic reaction between ammonia and molecular oxygen O2. But undesirable side reactions may result in a formation of nitrogen dioxide NO2 and nitrous oxide N2O.
Applying the right emission control equipment for the chemical and pharmaceutical industry requires a thorough knowledge and understanding of the process and system requirements, combined with the ability to provide custom solutions.
Anguil is intimately familiar with the emission capture, control and compliance hurdles that both composite and carbon fiber producers face. So much so that we have developed specific technologies that address the unique needs of our customers in both industries. Please visit our Carbon Fiber Page to explore Anguil`s proprietary oxidizer designs for furnace and oven emissions. On composite applications, firms continue to battle emission levels by lowering styrene content in the resins they utilize. However,...
The remediation division of Anguil Environmental Systems (formerly known as Global Technologies) is focused on treating emissions and water contaminants extracted from below the earths` surface. Formed shortly after the 1990 Clean Air Act targeted emissions associated with the extraction of polluted compounds from contaminated sites, Global subsurface remediation equipment has been successfully applied on contaminated sites in North and South America, Europe, Asia and Australia.
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.
Mechanical barriers that seal in odors, volatile organic compounds (VOCs), volatile nitrogen compounds (such as ammonia), volatile sulfur compounds (such as H2S) and, of course, fugitive dusts in municipal landfills.
By Rusmar Inc.
based in West Chester, PENNSYLVANIA (USA).
Anguil`s engineering expertise has led to numerous successful air pollution control and emission control installations in the automotive manufacturing industry. From painting vehicles to engine test stations and tire manufacturing, we have supplied oxidizers and heat recovery systems to both tier 1 and tier 2 automotive plants.
Petrochemicals, also called petroleum distillates, are chemical products derived from petroleum. Petrochemicals are used to produce industrial chemicals, plastics products, synthetic rubber, dyes, synthetic detergents, polyurethanes, synthetic fibers, ammonia, and methanol. Chemical handling and emissions abatement are critical processes with stringent environmental standards.
One-time, on-site final destruction of particulates. This is the key benefit gained from an Anguil solution to the emissions generated by the rubber curing process. Other advantages of an Anguil solution include the elimination of visible blue haze, guaranteed destruction efficiency compliance, and the elimination of costly mechanical filtration media and the lingering liability issue associated with filter disposal.
The recovery of fertilizers typically after drying tunnels or drum dryers is associated with a high load of particulates and very humid gas streams. The recovery of these products is commonly performed by dryer cyclones as they allow for a direct powder capture and avoid filter clogging due to condensation. Arrangements with cyclones and/or with bag filters are usual in the industry.
Anguil thermal and catalytic oxidizer systems are used on various applications throughout the chemical processing industry for emission abatement. Our experience includes applications on tank vents, amine tail gases, API separators, acid gases, inert streams and more. Regulatory Compliance Guaranteed, Seamless Process Integration, Efficient Destruction Technologies, Advanced System Controls.
Anguil customers in the Semiconductor and Electronics industries include chip manufacturers, printed circuit board makers, LCD (Liquid Crystal Display) manufacturers and probimer operations. Each of these processes have unique emission control challenges that all require a custom engineered system designed around the given process parameters. With Anguil`s product breadth our customers are ensured that the proper technology will be chosen.
For particulate matter (PM) emission control in high temperature exhaust streams, such as those from biomass or coal boilers and heaters, common dedusters such as cyclones and multicyclones are not able to comply with current emission limits. This is mainly due to their low efficiency, particularly for small particles (less than 10µm). In order to meet emission limits this usually requires an additional investment in a final stage deduster. Bag filters (BF) are very efficient dedusters. They can also be...
In most combustion process atmospheric nitrogen reacts with oxygen in high temperature conditions to produce nitrogen oxides (NOx). Total NOx production is the sum of nitrogen monoxide NO and nitrogen dioxide NO2. The emissions of these gases are controlled through setting of emission limit values (ELVs) for power plants.