Exhaust Monitoring Applications available in Newfoundland
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Particle Measurement Instruments for Non-Road Engine Emissions
Dekati measurement solutions for determination of particulate emissions from engines include both particle detection and sample conditioning solutions. For non-road and off-road emission measurements, we have complete measurement solutions both upstream and downstream exhaust after-treatment devices. The exhaust sample conditions in marine and aircraft engine emission measurements may vary a lot depending on the type of engine, type of fuel and also measurement ...
By Dekati Ltd. based in Kangasala, FINLAND.
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Continuous emissions monitoring for real driving emissions
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 core ...
By OPSIS AB based in Furulund, SWEDEN.
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Marine monitoring solutions
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 ...
By OPSIS AB based in Furulund, SWEDEN.
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Particle Measurement Instruments for Engine Emissions
Engine emission measurements are typically made in very different environments and conditions depending on the purpose of the measurement. Standardized and regulated particle emission measurements are made in test cell environments, PTI stations and on board a moving vehicles according the details described in the regulations and standards. For various research purposes, engine emissions can be measured in different conditions and even pre-DPF conditions. The requirements for the measurement instrument in these ...
By Dekati Ltd. based in Kangasala, FINLAND.
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Opacity monitoring for continuous emissions
The history of air pollution regulation dates back as far as the 13th century when in 1273, Edward I (Longshanks) of England prohibited the burning of sea coal in London. The smoke produced by its combustion was considered detrimental to human health. By the late 19th and early 20th centuries, regulations were being passed that sought to control air pollution predominantly for smoke and odour control. Traditionally, regulators were concerned with the visual impact of the discharge from a stack or chimney. ...
By Dynoptic Systems Ltd - ACOEM Group based in Banbury, UNITED KINGDOM.
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Gas detection & hazardous gas monitoring equipments for parking/service garages
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 ...
By Armstrong Monitoring Corporation (AMC) based in Ottawa, ONTARIO (CANADA).
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Noise testing equipment for vehicle noise monitoring
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 ...
By Pulsar Instruments Plc based in Hunmanby, UNITED KINGDOM.
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PTR-MS systems for environmental research
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. ...
By Ionicon Analytik Ges.m.b.H. based in Innsbruck, AUSTRIA.
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Evaporative Emissions Testing (Ethanol, Automotive)
The automotive industry is a major air pollution contributor and thus one of the most regulated industries in the world. Several gas monitoring techniques are widely used in the automotive industry for measuring vehicle emissions. Typical applications include live on-board exhaust monitoring (CO, CO2, N2O, NOx, formaldehyde, acetaldehyde, oxygen and moisture), analysis of raw and dilute exhaust gas from the engine and tailpipe with gas-bags (CO2, N2O, NOx, CH4, EtOH, THC, H2S, SO2, NH3, formaldehyde and ...
By Gasera Ltd based in Turku, FINLAND.
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PTR-TOFMS systems for automotive real-time vehicle exhaust analysis
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. ...
By Ionicon Analytik Ges.m.b.H. based in Innsbruck, AUSTRIA.
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Dust monitoring of exhaust gases from manufacturing processes
DynOptic dust monitors use the innovative Dynamic Detection Principle (DDP) to measure dust and particulate within exhaust gases from various manufacturing processes. DDP, or optical scintillation as it sometimes referred to, measures the dynamic fluctuation in light transmission as dust particles move through a light beam. This dynamic fluctuation derives from temporal distributions of the dust particles which attenuate the light beam. The more dust present in the exhaust, the greater the amplitude of these ...
By Dynoptic Systems Ltd - ACOEM Group based in Banbury, UNITED KINGDOM.
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Laboratory Fume Hood Exhaust for Laboratories
At the Viral Immunology Center at Georgia State University (GSU), Atlanta, Georgia, Tri-Stack® laboratory fume hood ventilation systems solve a number of dynamic issues at Biosafety Level 4 laboratories, where sophisticated viral studies are conducted. These types of laboratories could use agents such as tuberculosis and anthrax, as well as disease-causing microorganisms (bacteria) that can be contractible by aerosol means. The 2000 sq.ft. Level 4 laboratory required a dedicated air supply and exhaust system ...
By Strobic Air Corporation based in Lansdale, PENNSYLVANIA (USA).
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