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.
Focuses on high NOx, NOx-related and multigas-concentrations up to 10’000 ppm. Parameters included are NO, NO2, NOx, NH3, NOx-amines, O2 and CO2. The applications are characterized by demanding sample gas conditions, such as in automotive, aviation, naval, or combustive engine emissions, as well as in catalyst production.
The exhaust gas from combustion engines is a complex mixture of gases and particulate matter. The composition of the gas may change rapidly. Multicomponent analysis of exhaust gases can be performed with a Gasmet™ FTIR Gas Analyzer with a response time (T90) of one second. The winning combination is the result using of a small volume gas sample cell, a powerful sample pump and a fast detector with liquid nitrogen cooling. The analyzer, sampling system and computer can be assembled on a cart for use in a...
Titanium dioxide is the most important white pigment used in the polymer industry. It is widely used, because it efficiently scatters visible light, thereby imparting whiteness, brightness, and opacity when incorporated into a plastic product.
Most large coal fired plants have a flue gas desulphurisation (FGD) plant to lower SO2 levels to below emission limit levels. The CODEL GCEM 40 series is used to monitor SO2 levels after the FGD to ensure they are below required levels and to ensure that the process is not too efficient and using too much sorbent. In addition, many plants monitor pre and post the FGD to ascertain the efficiency of the plant.
Focuses on medium NOx, NOx-related and multigas-concentrations up to 5’000 ppm where flexibility is a central requirement. Parameters included are NO, NO2, NOx, NH3, NOx-amines, O2 and CO2. Typical supported applications are industrial emission monitoring and gas manufacturing control.
In the semiconductor manufacturing industry, various perfluorinated compounds (PFCs) are used. The emissions of the PFC compounds into the ambient air are reduced by scrubbing of the exhaust gases from the process. In this process, the Gasmet™ FTIR Gas Analyzers can be used to measure the emissions into the atmosphere and also monitor the efficiency of the scrubbers. Typically monitored PFCs in the exhaust gas include carbon tetrafluoride CF4, trifluoromethane CHF3, and hexafluoroethane C2F6.
There are many cars that have a large impact on the environment in many places around the world. The emissions from fossil fuel cars are too high, and previous test methods have not given the full picture. Tests in a laboratory has, so far, been made indoors, in laboratories, and they do not match the reality, as they do not take into account the real driving conditions. Therefore, we have developed an accurate and reliable monitoring system that can measure the emissions in real life conditions. Based on our...
Marine monitoring is a variant of OPSIS general offers for continuous emissions monitoring (CEM) and process control. The special operating conditions on-board vessels call for special measures to comply with regulations and expectations. However, OPSIS has mastered this environment and has for many years successfully delivered systems for marine applications.
Monitoring exhaust gas from combustion engines, emitting a large number of different compounds and with rapidly changing concentrations due to variations in operating conditions, necessitates an instrument that measures in real-time and with high sensitivity – an IONICON PTR-TOFMS.
PTR-MS for ultra-sensitive real-time monitoring of air pollutants. IONICON PTR-MS systems are well established tools in environmental research. Their fast response-times and ultra-low detection limits help researchers all over the planet to better understand the world we live in.
Combustion is a chemical process that involves the rapid reaction of a fuel substance with oxygen and heat. During this reaction new chemical substances, such as exhaust fumes, heat and light are created. There are many types of combustion including; complete, incomplete, smouldering, rapid and turbulent. Each process can differ due to the heat source and amounts of fuel or oxygen available.
In a world where there is a drive for everything to be quieter, vehicle noise measurement and control is a growing application. If measurements need to be made to ISO 5130:2007, which is an internationally recognised standard for vehicle exhaust noise testing, a more detailed measurement needs to be made. ISO 5130:2007 requires three consecutive measurements to ensure repeatability. These measurements are taken at a specified engine speed, or RPM, and the maximum sound level produced during the test is taken.
As exhaust emissions from engine tailpipe have been decreasing in recent years through development of engines and exhaust after-treatment systems, non-exhaust emissions have become a major contributor to total particle emissions from vehicles. Dekati provides complete measurement solutions for brake wear and blow-by gas emission measurements and we can cover the complete particle size using only one measurement method – 6 nm – 10 µm with one measurement method.
CIC Photonics has made its mark with several R&D institutes where research is underway to determine the optimum thermodynamic performance of new turbine engine designs combined with new diesel fuel formulations. This sophisticated IRGAS technology has included not only a basic FTIR gas analyzer but also analyzers for H2, O2, THC, and a powder meter all integrated into a comprehensive IRGAS Solution.
Exhaust fumes emanating from fuel burning vehicles are highly toxic and can result in sickness and even death, if not ventilated properly. By monitoring the concentration of these fumes and ventilating based on their concentration, a safe environment can be ensured.
Fast, accurate and reliable measurement of CH4. Mining is the extraction of valuable minerals or other geological materials from the Earth. Coal mining refers to the process of extracting coal from the ground. Since the 1880s, coal has been extracted due to its energy content has been widely used to generate electricity. For example, steel and cement industries use coal as a fuel for extraction of iron and for cement production. Coal mining has seen many developments in recent years, from the early days of men...
McHewel’s Aerospace & Defense (A&D) Practice brings direct experience and deep expertise to commercial and government organizations grappling with significant shifts in demand and funding for aircraft, equipment and defense-related services. Our experience extends from strategy and R&D to product development and logistics performance. We serve more than 25 percent of the top 15 aerospace and defense companies in the world, and support numerous defense agencies in both mature and emerging markets.
The real-time monitoring of odorous gases or more classical pollutants emitted by industrial sites (wastewater treatment plants, refineries, landfills, etc.) appears nowadays as a requirement, in order to optimize the site process and operations, or communicate towards the neighborhoods and local public bodies.
While emissions can be measured directly at the source (in the stack, exhaust, etc.), ambient air measurement all around the sites provides a better accuracy and anticipate pollution episodes. This is why...