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Smart NE
ISO9001, CE
Laboratory, University, Hospital
315x525x570mm
Typical scientific applications:
ICP-MS(Inductively Coupled Plasma Mass Spectrometry)
Molecular biology techniques
Ultra trace analysis
Electrochemistry
Electrophoresis
GFAAS(Graphite Furnace Atomic Absorption Spectrophotometry)
HPLC
IC(Ion Chromatography)
ICP-AES(Inductively Coupled Plasma Atomic
Emission Spectrometry)
Mammalian and bacterial cell culture
Molecular biology
Plant tissue culture
Qualitative analysis
Online TOC for prevention of organic breakthrough
Constant real-time Total Organic Carbon(TOC) monitoring* allows you to verify that the system's organic contaminants removal process is operating within specifications.
Several benefits:
Oxidation and conductivity measurements occur in the same cell. As a result, the monitor checks that all organics have been oxidized in order to deliver an accurate and reproducible TOC value.
The design allows performance of the TOC suitability test as required by USP 643 and EP (European Pharmacopoeia).
Premium water delivery
Dispenser units are placed on a recirculation loop, and can be located up to 3 meters from the main unit or from the previous dispenser on the loop.
Easy operation that allows users to select either manual or automatic delivery to save valuable time.
Dispensers are designed to accommodate all commonly used glassware.
For hands-free water delivery, an optional footswitch can be connected to the system. Press once to start and once to stop.
EDI know-how
Adoption of Electrodeionization (EDI) module brings benefits including lower energy consumption; lower maintenance cost; better ion exchange and no particulates or organic contamination
The Smart NE models incorporates state-of-the-art Electrodeionization (EDI) technology to purify the water instead of only using conventional ion exchange.
EDI is an electrically-driven water purification process which involves the use of Ion Exchange Resins and Ion Permeable Membranes. Resins are continuously regenerated by the electrical current and are never exhausted.
What benefits you can get
Constant high efficient removal of ions and small MW charged organic
No exchange of spent resins
No regeneration chemicals
Low energy consumption
Typical <10 watt light bulb
Low operating cost and low maintenance
Typical scientific applications:
ICP-MS(Inductively Coupled Plasma Mass Spectrometry)
Molecular biology techniques
Ultra trace analysis
Electrochemistry
Electrophoresis
GFAAS(Graphite Furnace Atomic Absorption Spectrophotometry)
HPLC
IC(Ion Chromatography)
ICP-AES(Inductively Coupled Plasma Atomic
Emission Spectrometry)
Mammalian and bacterial cell culture
Molecular biology
Plant tissue culture
Qualitative analysis
Online TOC for prevention of organic breakthrough
Constant real-time Total Organic Carbon(TOC) monitoring* allows you to verify that the system's organic contaminants removal process is operating within specifications.
Several benefits:
Oxidation and conductivity measurements occur in the same cell. As a result, the monitor checks that all organics have been oxidized in order to deliver an accurate and reproducible TOC value.
The design allows performance of the TOC suitability test as required by USP 643 and EP (European Pharmacopoeia).
Premium water delivery
Dispenser units are placed on a recirculation loop, and can be located up to 3 meters from the main unit or from the previous dispenser on the loop.
Easy operation that allows users to select either manual or automatic delivery to save valuable time.
Dispensers are designed to accommodate all commonly used glassware.
For hands-free water delivery, an optional footswitch can be connected to the system. Press once to start and once to stop.
EDI know-how
Adoption of Electrodeionization (EDI) module brings benefits including lower energy consumption; lower maintenance cost; better ion exchange and no particulates or organic contamination
The Smart NE models incorporates state-of-the-art Electrodeionization (EDI) technology to purify the water instead of only using conventional ion exchange.
EDI is an electrically-driven water purification process which involves the use of Ion Exchange Resins and Ion Permeable Membranes. Resins are continuously regenerated by the electrical current and are never exhausted.
What benefits you can get
Constant high efficient removal of ions and small MW charged organic
No exchange of spent resins
No regeneration chemicals
Low energy consumption
Typical <10 watt light bulb
Low operating cost and low maintenance
