- Sievers Portable 5310 C Total Organic Carbon Analyzer Joins Family of 5310 C TOC Analysis Instruments to Help Operators Monitor Drinking Water Supplies
- GE Also Introduces Enhanced Inorganic Carbon Remover, Offering Longer Consumable Life, Lower Operating Costs
GE recently announced it has introduced a portable Sievers 5310 C Total Organic Carbon (TOC) Analyzer as the company expands its technologies to help municipal water system operators more closely monitor and protect drinking water supplies.
The Sievers 5310 C Portable TOC Analyzer is the first to be specifically designed for the municipal water market. The technology enables in-field, continuous monitoring of raw and finished water TOC levels for optimization of plant processes such as coagulant addition, finished drinking water monitoring for disinfection byproducts control and distribution security monitoring.
The portable instrument is the third in a series of GE's Sievers 5310 C TOC Analyzers, joining separate laboratory and online models that also were developed by GE's water and process technologies/analytics instruments division in Boulder, Colo., for more information, visit www.geinstruments.com.
TOC monitoring is required by the Environmental Protection Agency as part of the "Stage 1 Disinfectants/Disinfection Byproducts (DBP) Rule" since DBPs form from the interaction of TOC and a disinfectant in water. DBPs in water have been shown to cause cancer over many years of exposure.
The new unit has the flexibility to run online in a municipal plant or with an autosampler in a laboratory. It was designed specifically for municipal water plants, engineering companies, universities and research facilities. The Sievers 5310 C Portable TOC Analyzer offers excellent accuracy and precision; automated features to improve productivity; the portability to measure TOC anywhere in a facility; ease of operation and maintenance and a lower cost of ownership since it does not require the use of external reagents or gas supplies.
"Our new Sievers 5310 C Portable TOC Analyzer gives operators yet another important tool in their arsenal to help meet Environmental Protection Agency and other requirements for monitoring global drinking water supplies," said Michael Routh, general manager, analytical instruments—water and process technologies for GE Power & Water.
Offering superior accuracy and precision across a dynamic operating range (between four parts per billion and 50 parts per million TOC), GE's portable analyzer uses accurate, reliable Sievers membrane conductometric technology for measuring TOC.
New ICR Introduced
GE also is offering a newly enhanced inorganic carbon remover (ICR) system for use with its 900 and 5310 C series of TOC analyzers. The ICR reduces inorganic carbon levels in sample streams with high inorganic carbon/total organic carbon (or "IC/TOC") ratios to produce more accurate TOC results. Designed to offer a longer consumable life and lower operating costs, GE's new ICR uses approximately 50 percent less acid than its predecessor.
GE is an advanced technology, services and finance company taking on the world's toughest challenges. Dedicated to innovation in energy, health, transportation and infrastructure, GE operates in more than 100 countries and employs about 300,000 people worldwide. For more information, visit www.ge.com.
GE also serves the energy sector by providing technology and service solutions that are based on a commient to quality and innovation. The company continues to invest in new technology solutions and grow through strategic acquisitions to strengthen its local presence and better serve customers around the world. The businesses that comprise GE Energy www.ge.com/energy—GE Power & Water, GE Energy Services and GE Oil & Gas—work together with more than 90,000 global employees and 2010 revenues of $38B, to provide integrated product and service solutions in all areas of the energy industry including coal, oil, natural gas and nuclear energy; renewable resources such as water, wind, solar and biogas; as well as other alternative fuels and new grid modernization technologies to meet 21st century energy needs.