Solutions for power and energy analysis

Petrochemical analysis can be challenging due to difficult matrices, a wide range of contaminants, and sensitivity requirements. We offer a range of products including Ion Chromatography (IC), Gas Chromatography (GC), GC-MS and ICP; which will enhance your analytical capabilities and improve your processes.

Nuclear power plants (NPP) generate nearly 20% of the total electricity in the U.S. and nearly 30% in the E.U. In NPPs, water in secondary and cooling systems controls the heat created from the fission of radioactive isotopes, to produce steam, which is used to generate electricity. NPP water chemistry is important for the maintenance of nuclear safety, major component reliability, and the overall economic viability of plant operation. Each nuclear power plant has a set of water chemistry matrices that are often specific for that plant and usually based on the water chemistry history and metallurgy of the plant. 

Power & energy features

Application note

Morpholine and ammonium are used as additives in power plant waters. Morpholine acts as a corrosion inhibitor, whereas ammonium is used to control pH. In this matrix, it is critical to determine the presence of inorganic cation contaminants. 


Power & Energy Information subtopics

Oil & Gas Information

Petrochemical analysis can be challenging due to difficult matrices, a wide range of contaminants, and sensitivity requirements.

Nuclear Energy Information

Nuclear power plants (NPP) generate nearly 20% of the total electricity in the U.S. and nearly 30% in the E.U. In NPPs, water in secondary and cooling systems controls the heat created from the fission of radioactive isotopes, to produce steam, which is used to generate electricity.


Manufacturing and Processing Resource Library

Access a targeted collection of scientific application notes, case studies, videos, webinars and white papers for chemical, electronic, power and energy, plastics and polymers, and paints and pigments analysis.

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