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Infors INFORS HT Gas analyser 02 (0 - 25%) & C02 (0 - 10%) complete, Per Unit Item ID: INF68760

INFORS HT - Exit Gas Analysis
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Product Description Gas Analyser

The O2 or CO2 analysis can be seamlessly integrated into your bioreactor, thus enabling you to make direct deductions as to the condition of the culture during the actual bioprocess. eve® allows the calculation of parameters such as the carbon evolution rate (CER), the oxygen uptake rate (OUR) and the resulting respiratory quotient (RQ).

This in turn makes it possible to adopt a systematic approach to bioprocess control, to maintain specific metabolic states and to prevent O2 limitations or substrate limitations.
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  INFORS HT Gas Analyser BlueSens gas sensors
Range O2 0.1 – 25% 0.1 – 25% or 1 – 50%
Range CO2 0 – 10% 0 – 10% or 0 – 25%
Accuracy O2: +/- 2% f.s.* (eq. +/- 0.5% absolute)
CO2: +/- 0.5% f.s.* (eq. +/- 0.05% absolute)		 +/- 0.2% f.s.* +/- 3% reading
Flow rate > 0.5 L/min independent of flow rate
Setup independent box, can be used
also with other reactors		 independent box, can be used
also with other reactors
Multiplexer Yes Yes
Service 1 x/year 1 x/year
Configuration always complete, O2 & CO2 individual

* f.s. = full scale, i.e. errors relative to the maximum measurement range


Applications

  • CO2 analysis
  • O2 analysis
  • Metabolic analysis and bioprocess control
  
  • Calculation of growth rate (µ)
  • Calculation of CO2 evolution rate (CER)
  • Calculation of O2 uptake rate (OUR)
  
  • Calculation of O2 transfer rate (OTR)
  • Calculation of CO2 transfer rate (CTR)
  • Monitoring of decomposition rate (bioremediation)
2016 © by Infors AG | Imprint
INFORS HT - Exit Gas Analysis
home

Product Description Gas Analyser

The O2 or CO2 analysis can be seamlessly integrated into your bioreactor, thus enabling you to make direct deductions as to the condition of the culture during the actual bioprocess. eve® allows the calculation of parameters such as the carbon evolution rate (CER), the oxygen uptake rate (OUR) and the resulting respiratory quotient (RQ).

This in turn makes it possible to adopt a systematic approach to bioprocess control, to maintain specific metabolic states and to prevent O2 limitations or substrate limitations.
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  INFORS HT Gas Analyser BlueSens gas sensors
Range O2 0.1 – 25% 0.1 – 25% or 1 – 50%
Range CO2 0 – 10% 0 – 10% or 0 – 25%
Accuracy O2: +/- 2% f.s.* (eq. +/- 0.5% absolute)
CO2: +/- 0.5% f.s.* (eq. +/- 0.05% absolute)		 +/- 0.2% f.s.* +/- 3% reading
Flow rate > 0.5 L/min independent of flow rate
Setup independent box, can be used
also with other reactors		 independent box, can be used
also with other reactors
Multiplexer Yes Yes
Service 1 x/year 1 x/year
Configuration always complete, O2 & CO2 individual

* f.s. = full scale, i.e. errors relative to the maximum measurement range


Applications

  • CO2 analysis
  • O2 analysis
  • Metabolic analysis and bioprocess control
  
  • Calculation of growth rate (µ)
  • Calculation of CO2 evolution rate (CER)
  • Calculation of O2 uptake rate (OUR)
  
  • Calculation of O2 transfer rate (OTR)
  • Calculation of CO2 transfer rate (CTR)
  • Monitoring of decomposition rate (bioremediation)
2016 © by Infors AG | Imprint
INFORS HT - Exit Gas Analysis
home

Product Description Gas Analyser

The O2 or CO2 analysis can be seamlessly integrated into your bioreactor, thus enabling you to make direct deductions as to the condition of the culture during the actual bioprocess. eve® allows the calculation of parameters such as the carbon evolution rate (CER), the oxygen uptake rate (OUR) and the resulting respiratory quotient (RQ).

This in turn makes it possible to adopt a systematic approach to bioprocess control, to maintain specific metabolic states and to prevent O2 limitations or substrate limitations.
border=0


  INFORS HT Gas Analyser BlueSens gas sensors
Range O2 0.1 – 25% 0.1 – 25% or 1 – 50%
Range CO2 0 – 10% 0 – 10% or 0 – 25%
Accuracy O2: +/- 2% f.s.* (eq. +/- 0.5% absolute)
CO2: +/- 0.5% f.s.* (eq. +/- 0.05% absolute)		 +/- 0.2% f.s.* +/- 3% reading
Flow rate > 0.5 L/min independent of flow rate
Setup independent box, can be used
also with other reactors		 independent box, can be used
also with other reactors
Multiplexer Yes Yes
Service 1 x/year 1 x/year
Configuration always complete, O2 & CO2 individual

* f.s. = full scale, i.e. errors relative to the maximum measurement range


Applications

  • CO2 analysis
  • O2 analysis
  • Metabolic analysis and bioprocess control
  
  • Calculation of growth rate (µ)
  • Calculation of CO2 evolution rate (CER)
  • Calculation of O2 uptake rate (OUR)
  
  • Calculation of O2 transfer rate (OTR)
  • Calculation of CO2 transfer rate (CTR)
  • Monitoring of decomposition rate (bioremediation)
2016 © by Infors AG | Imprint
Applications
The O2 or CO2 analysis can be seamlessly integrated into your , thus enabling you to make direct deductions as to the condition of the culture during the actual bioprocess. eve® allows the calculation of parameters such as the carbon evolution rate (CER), the oxygen uptake rate (OUR) and the resulting respiratory quotient (RQ).
This in turn makes it possible to adopt a systematic approach to bioprocess control, to maintain specific metabolic states and to prevent O2 limitations or substrate limitations.

  INFORS HT Gas Analyser BlueSens gas sensors
Range O2 0.1 – 25% 0.1 – 25% or 1 – 50%
Range CO2 0 – 10% 0 – 10% or 0 – 25%
Accuracy O2: +/- 2% f.s.* (eq. +/- 0.5% absolute)CO2: +/- 0.5% f.s.* (eq. +/- 0.05% absolute) +/- 0.2% f.s.* +/- 3% reading
Flow rate > 0.5 L/min independent of flow rate
Setup independent box, can be used
also with other reactors		 independent box, can be used also with other reactors
Multiplexer Yes Yes
Service 1 x/year 1 x/year
Configuration always complete, O2 & CO2 individual

* f.s. = full scale, i.e. errors relative to the maximum measurement range
  • CO2 analysis
  • O2 analysis
  • Metabolic analysis and bioprocess control
  
  • Calculation of growth rate (µ)
  • Calculation of CO2 evolution rate (CER)
  • Calculation of O2 uptake rate (OUR)
  
  • Calculation of O2 transfer rate (OTR)
  • Calculation of CO2 transfer rate (CTR)
  • Monitoring of decomposition rate (bioremediation)

Contact Us

E: care@invitro.com.au
P: 1300 552 003