The Importance of GAS Analytical Systems

Today, more companies than ever are deciding to “go green.” For many companies, green practices are obligatory rather than elective. These companies include ones which reside in non-emissions zones (LEZs), create emissions which contain non-organic particulates, release waste water into open drainage systems, and work with radioactive materials. To make sure their practices remain within national, state, municipal, or applicable regulations, these companies rely on analytical technologies to examine gas, soil, water and measure radiation. Below are examples of instruments that facilitate these jobs.

Depending on their needs, companies can use the following equipment to assess gas quality:

Ambient gas monitors that detect CO, NOx SO2, methane, ozone and other pollutants in the trace amount;
Supply gas monitors that monitor source emissions to maintain a facility within emissions regulations.
Particulate monitors that monitor PM-10 and PM-2.5 particulates for study or emissions functions; and
Gas analysis systems which monitor the existence of gasses in plant environments and processing facilities.
gas analytical systems is an important element of protecting the environment from particulates that contaminate soil and chemicals that cause acid rain.

Depending upon their needs, companies can utilize the following analytical instruments to examine soil quality:

Organic elemental analyzers (OEA) that quantify nitrogen, carbon, oxygen and other components to determine soil quality.
Liquid chromatography-mass spectrometry (LC/MS) systems which detect and identify low level to high-level analyses.
Gas chromatography systems which examine soil purity and identify and different compounds.
Soil analysis is an important component of growing healthy create and supporting natural plant life.

Depending on their requirements, companies can use the following thermal combustion equipment to assess water quality:
High precision electrodes that measure pH, ORP, and mV for sanitization functions;
Conductivity cells which examine conductivity, resistivity, total dissolved solids (TDS) and salinity using an array of cell counts;
Dissolved oxygen levels which measure water’s dissolved oxygen content to support aquatic life; and
LC/MS systems which display and examine water samples.
Water analysis is critical to protecting aquatic life in neighbouring and downstream locations.

Area radiation monitoring systems which measure radiation in critical function locations.
Radiation dosimeter readers who quantify actively and passively to evaluate the radioactive components emitted from radiation sources.
Radiation contamination monitoring systems which warn of alpha-emitting radionuclides and beta-emitting particulates; and
Isotope-ratio mass spectrometry systems which examine radioactive gases.
Radiation is one of the very damaging presences to the environment. The equipment above helps companies to contain it in the origin.

 

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