Mercury Analyzer RA-915M is a portable multifunctional atomic absorption spectrometer with Zeeman background correction, which eliminates the effect of interfering impurities. It is the only high sensitivity and selectivity instrument that does not require gold amalgam pre-concentration and subsequent regeneration steps.
This enables the user to conduct real time air monitoring and detection of mercury vapor. Being combined with pyrolysis or cold vapour attachments for liquid and solid sample testing, the instrument can determine mercury content in water, soil, food products, natural and stack gases, may be used for dental and toxicological applications, etc.
Use of RA-915M spectrometer with background correction and a two-chamber atomizer PYRO-915+ allows direct analysis of solid and liquid complex-matrix samples (oil, condensate, coal, foodstuff, etc.).
Atomic absorption spectrometry at 254 nm with Zeeman correction for background absorption for interference-free measurement.
RA-915M mercury analyzer with RP-92 attachment is used for determination of mercury concentration in liquid samples (water, blood, urine).
RP-92 attachment is intended to transfer bound Hg from ion to atomic form using “cold vapor” technique.
RA-915 Lab is the new direct fully automated laboratory mercury analyzer with 45 position autosampler. It provides accurate, reliable and cost-effective measurements in the broadest range of applications areas.
The instrument analyses solid, semisolid, and liquid samples with no pre-treatment, reagents and almost no wastes. RA-915 Lab can be supplied without autosampler.
Light-915 Mercury Analyzer is a compact instrument designed to address the problems of mercury pollution in a workplace environment and sanitary control.
Mercury Monitoring Toolkit is designed for efficient and cost-effective on-site determination of total and speciated mercury emissions in accordance with the US EPA’s method 30B.
The method has been widely used in power generation industry, cement production industry, metallurgy, waste incineration, etc.
Fossil Co2 emissions are the main cause of climate change. We are building the PmCTrace system, which according to EN/ISO 13833, proportional to the volume flow, collects Co2 in a cartridge for one month. The cartridges are evaluated in the C14 laboratory for the ratio of biogenic/fossil Co2.
The PmCTrace system is successfully used in cement plants and waste incineration plants to determine the fossil co2 content conveniently and accurately from the exhaust gas.
The advantages of the PmCTrace system at a glance:
Measurement technology against climate change
Renewable fuels are climate-neutral, recognizable by their content of the carbon isotope with a mass of 14. The radioactive isotope C14 is generated by cosmic rays in the Co2 of the atmosphere and is absorbed by plants and trees. If carbon is under the ground for a long time, the c14 isotope degrades with a half-life of 6000 years, in 120 years thus 1%. Coal, oil and natural gas have 0%.
Elegantly, this method, which is also used to determine age, determines the proportion of fossil carbon in complex fuel mixtures.
The PmCTrace is an effective measuring instrument for emissions trading. Co2 taxes are charged exactly and precisely to the polluter. The increase in the biomass content in the fuel mixture is detected immediately and leads to a reduction in Co2 taxes in the first month.
Emissions of metals are limited by official notices. For the year-round monitoring of hazardous substances, we have developed the AIO system – the all-in-one system – which reliably samples several exhaust gas streams.
Each chimney is equipped with a compact sampler, the control unit controls up to 4 samplers. Isokinetic sampling ensures the correct ratio of dust and gas phase. We have references in power plants and nuclear plants.
The advantages of the AIO system at a glance: