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.
As is the case for many industrial manufacturing processes, emissions are best destroyed through the use of thermal and catalytic oxidation technologies. Volatile Organic Compounds (VOCs) and Hazardous Air Pollutants (HAPs) are destroyed through the use of high temperature combustion with direct heat recovery. The harmful air pollutants are converted to heat, water vapor and carbon dioxide, creating a destruction efficiency greater than 99%.
There are many options when choosing a type of system to control Industrial Air Pollution, in particular VOC (volatile organic compound emissions). While thermal oxidation is a method used quite often, catalytic oxidation remains amongst the lowest total cost of ownership methodology for abating VOC’s. Applied Catalysts manufactures a full portfolio of catalysts, trademarked Abate VOC, on varied supports. Depending on the application or style of catalytic oxidizer to be employed, ceramic or metal monolith,...
The engineered wood products industry relies on Dürr Megtec for regenerative thermal oxidizer (RTO), regenerative catalytic oxidizer (RCO), wet electrostatic precipitator (WESP), dry electrostatic precipitator (DESP), and wet scrubber technologies for effective emissions control of volatile organic compounds (VOCs), hazardous air pollutants (HAPs), particulate matter (PM), and blue haze from wood dryers and press vents. As an industry leader, we offer a comprehensive suite of advanced air pollution control...
Hydrogen Sulfide is lethal if released. Macrotek is a leader in developing advanced technologies for optimum removal and treatment. Our experience includes many installations using caustic, oxidizing reagents, catalytic and forced oxidation combination, and biofilters. Each application is unique and requires custom solutions.
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.
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.
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.
From pill coating and mixing operations to Ethylene Oxide (ETO) sterilization, Anguil has had great success solving a wide range of emission control applications in the pharmaceutical industry. As companies struggle to comply with the EPA`s MACT (Maximum Achievable Control Technology) standards or international regulations, it is comforting to know that Anguil thoroughly understands your process. Over three decades of experience treating halogenated, VOC and HAP process streams enable us to efficiently solve your...
X-ray photoelectron spectroscopy is used to characterise materials and surfaces used as catalysts for numerous chemical reactions with great success. Surface studies of catalysts range from fundamental research into core level shifts induced by adsorbed species as a model of reaction intermediates to applied research on used industrially relevant catalysts. Here we present a number of recent papers which include data acquired using Kratos AXIS spectrometers.