1. The BioTector COD TOC TN TP analyzer
and patented Two Stage Advanced Oxidation process

2. BioTector Analytical Systems Ltd.
Training Course
BioTector Analytical Systems Ltd.

3. BIOTECTOR SUMMARY
Complete oxidation of the sample with hydroxyl radicals.
Representative sample without any filtration (up to 2mm soft particulates).
Self cleaning technology.
High reliability: 86,000 measurements per annum and over 99% on-line time.
Low Maintenance: 6 month service intervals.
No calibration requirement between services.
No interference from salts or Calcium.
Automatic range selection and multi-streaming.
Programmable Analysis Modes: TIC & TOC, TC, VOC, TC-TIC, TN and in addition TPR, TP modules are available.
Analyse wide range of effluents containing fats, oils, salts, de-icing chemicals, particulates, fibrous materials.

4. Compliance with European Norm EN 1484
BioTector Series 4
Compliance with European Norm EN 1484
Section 4: Principle states:
“Oxidation of organic carbon in water to carbon dioxide by combustion, by the addition of an appropriate oxidant, by UV radiation or any other high energy radiation.”
“The final determination of CO2 is carried out by a number of different procedures, for example infrared spectrometry, titration, thermal conductivity, conductometry, coulometry, CO2 sensitive sensors and flame ionization detection.”

5. BioTector Series 4 Compliance with US EPA 415.1
Section 2.0: Summary of Method states:
“Organic carbon in a sample is converted to carbon dioxide (CO2) by catalytic combustion or wet chemical oxidation. The CO2 formed can be measured directly by an infrared detector or converted to methane (CH4) and measured by a flame ionization detector. The amount of CO2 or CH4 is directly proportional to the concentration of carbonaceous material in the sample.”

6. Compliance with ASTM D5173-97
BioTector Series 4
Compliance with ASTM D
Standard Test Method for:
“On-Line Monitoring of Carbon Compounds in Water by Chemical Oxidation, by UV Light Oxidation, by Both, or by High Temperature Combustion Followed by Gas Phase NDIR or by Electrolytic Conductivity (of the released CO2 gas).”

7. THE PATENTED TWO STAGE ADVANCED OXIDATION PROCESS:
SUMMARY OF THE ON-LINE OPERATION
SAMPLING: A representative unfiltered sample is taken containing fats, salts, particulates, suspended fibres and colloidal material.
TIC PHASE: The inorganic carbon content is removed by an acid reagent. The CO2 gas is sparged by oxygen and measured by an infrared CO2 analyser.
BASE OXIDATION: Ozone generated by the corona-discharge method is applied to a high pH reagent to promote the production of hydroxyl radicals which results in the effective and complete oxidation of the sample.
TOC PHASE: An acid reagent is added to remove the total organic carbon content of the oxidized sample as CO2 gas, and this is measured by an infrared CO2 analyser.
RANGE SELECTION: Automatic selection of the optimum sample volume for the TOC range.

8. Operation of the COD TOC TN TP analyzer: TOC or Oxidation (OXP) phase.

9. GENERAL LAYOUT TOC – TN TP
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN

10. GAS FLOW (ANALYZER ZERO)
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The gas flows through the MFC, ozone generator, reactor and cooler to purge the CO2 analyzer. The BioTector sets its zero for the next reaction.

11. SAMPLE BYPASS P2 Circulation Pump Glass beads
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The sample pump runs, transporting the into the BioTector and through the ARS Sample In valve. This flushes any old sample from the sample line, and ensures a fresh sample for analysis.

12. SAMPLE INJECTION <2000mg TOC
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The ARS Sample-In valve turns 90’ (M-V setting in the software),

13. SAMPLE INJECTION <2000mg TOC
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The sample pump runs, and injects the sample into the reactor. The sample volume injected depends on the TOC range, a low range requires a large, 8ml sample.

14. SAMPLE INJECTION <2000mg TOC
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The ARS Sample-In valve turns 90’ (M-V setting in the software),

15. TIC ACID INJECTION <2000mg TOC
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The acid pump and injection valve flush the sample into the reactor with acid. The circulation pump mixes the acid with the sample. The pH in the reactor is <1.

16. SAMPLE INJECTION >2000mg TOC
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The ARS Sample-In valve turns 180’ (M-F180 setting in the software), and the sample injected by the TIC acid is the sample contained within the valve when it turns. Several fixed volumes are available, from 0.12ml (10,000mg TOC) to 0.02ml (up to 100,000mg TOC with extended oxidation).

17. TIC ACID INJECTION >2000mg TOC
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The acid pump and injection valve flush the sample into the reactor with acid. The circulation pump mixes the acid with the sample. The pH in the reactor is <1.

18. TIC SPARGING P2 Circulation Pump Glass beads
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The ARS Sample-In valve turns 180’. Any TIC in the sample reacts with the acid liberating CO2 gas. This is sparged from the liquid with the sparge gas, and is measured in the CO2 analyser.

19. TOTAL INORGANIC CARBON
REACTION GRAPH
The reaction graph screen on the BioTector records the CO2 gas as it is sparged from the acidic liquid in the reactor and measured in the CO2 analyzer. The accurate Mass Flow Controller provides a stable gas flow for the sparging process, and the microprocessor in the BioTector calculates the total quantity of CO2 gas released from the liquid to provide an accurate result. If the BioTector detects an unexpected high TIC reading, it automatically extends the TIC time until all the TIC is sparged.

20. SELF CLEANING TECHNOLOGY
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
While the TIC is sparging, the cleaning valve operates and the sample pump runs in reverse. The spent acid from the previous reaction is used to clean the sample line back to the sample inlet point.

21. BASE INJECTION Glass beads
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
Sodium hydroxide is injected into the reactor with the base pump, and the pH is increased to >13.

22. BASE OXIDATION P2 Circulation Pump Glass beads
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The ozone generator is switched on, and this converts the oxygen into ozone. At pH>13, the ozone reacts with the hydroxide ions and forms hydroxyl radicals. These oxidise the organic carbon into carbonate or oxalate. This oxidation process completely cleans the reactor of organic material.

23. TOC ACID INJECTION Glass beads
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
After oxidation is complete, the acid valve and acid pump operates, and acid is injected into the reactor. The pH is reduced to <1.

24. TOC 2nd STAGE OXIDATION P2 Circulation Pump Glass beads
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
At pH<1, two reactions take place. In the first, the ozone generator remains on and ozone oxidizes the manganese in the acid. The oxidized manganese reacts with the oxalate to produce CO2 gas, which is sparged and measured as TOC. The oxidized manganese produces the pink colour in the liquid in the reactor.

25. TOC SPARGING P2 Circulation Pump Glass beads
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
In the second simultaneous reaction, the acid reacts with carbonate to produce CO2 gas, which is sparged and measured as TOC. Ozone is not required for this process.

26. TOTAL ORGANIC CARBON REACTION GRAPH
The reaction graph screen on the BioTector records the gas as it is sparged from the acidic liquid in the reactor and measured in the CO2 analyzer. The TOC result is the total quantity of CO2 gas released from the liquid, from both the simultaneous oxalate and carbonate reactions. If the BioTector detects an unexpected high TOC reading, it automatically extends the TOC time until all the CO2 is sparged.

27. REACTOR PURGE Mass Flow Controller SAMPLE OUT P2 Circulation Pump
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The MFC increases the gas flow to 80 LPH, the exhaust valve is closed and the sample out valve opened. The acidic, oxidized fluid in the reactor is purged, and collected in the oxidized fluid catch-pot, where its characteristic pink colour generated by the oxidized manganese should be visible.

28. ANALYZER PURGE P2 Circulation Pump Glass beads
MFC
Mass Flow Controller
MV51 Purge
OXYGEN
O2 Regulator
MV7 Injection
EXHAUST
MV1 Exhaust
CO2 Analyzer
Ozone Destructor
MV4 Sample In
SAMPLE OUT
Cooler
Ozone Generator
Oxidized
Fluid
Catch-pot
TN TP Module
MCR
Reactor
P2 Circulation Pump
Glass beads
Cleaning
DRAIN
P4 Base Pump
BASE
MV6 Acid
P3 Acid Pump
ACID
MV5 Sample Out
Zero
Manual
P1 Sample
ZERO
MANUAL
SAMPLE IN
The gas flows through the MFC, ozone generator, reactor and cooler to purge the CO2 analyzer.

29. Operation of the COD TOC TN TP analyzer: Liquid Phase Analysis (LQP) phase.

30. Operational sequencing between Oxidation (OXP) and Liquid Phase (LQP) reactions.
TN/TP
TN/TP
TN/TP
TN/TP
TN/TP
The basic operational sequence is shown above.
At the end of each OXP reaction, when the reactor purge is complete, Total Nitrogen (TN) and Total Phosphorus (TP) are measured.

31. Phosphorus heated mixer
GENERAL LAYOUT
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
The primary components required to measure Total Nitrogen and Total Phosphorus is the Phosphorus Reagent, Phosphorus Heated Mixer, HCl reagent, Phosphorus boiler and the Photometer with two measuring cells and appropriate filter sets.
To OXP Sample out valve

32. Phosphorus heated mixer
OXIDATION FLUID CATCH-POT FILL
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
At the end of the OXP reaction, the acidic oxidized fluid from the OXP reactor is purged, and collected in the oxidized fluid catch-pot.
This liquid contains all forms of nitrogen oxidised by the BioTector to NO3.
Any organic phosphorus in the sample has also been broken down to PO4.
To OXP Sample out valve

33. Phosphorus heated mixer
TN MEASURING CELL FILL
HCl REAGENT FILL
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Nitrogen analysis: The N pump runs, pumping the oxidized fluid from the catch-pot into the cell.
Phosphorus analysis: The HCl reagent pump runs, pumping HCl to the Phosphorus heated mixer.
Configuration Option: If the configuration does not include a nitrogen module, the N pump runs to fill the loop between the sample in valve and sample loop valve.
To OXP Sample out valve

34. Phosphorus heated mixer
TN MEASURE
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Nitrogen analysis: The Flash Lamp is activated, and the TN in the form of NO3- is measured.
The measuring frequency is 217nm, the through-cell reference is 265nm and this data is used with the cell zero readings to calculate the TN result.
Typically, three separate measurements are carried out, with the N pump running for 1 seconds between each measurement.
To OXP Sample out valve

35. Phosphorus heated mixer
PUMP PHOSPHORUS SAMPLE TO MIXER
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Phosphorus analysis: The P pump runs, and the phosphorus sample which was in the loop between the sample in and sample loop valves is taken into the Phosphorus heated mixer, where it is mixed with the HCl.
To OXP Sample out valve

36. Phosphorus heated mixer
EMPTY TN TUBES, FILL BOILER
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
Nitrogen analysis: The N pump runs in reverse, returning the oxidized fluid from the cell to the catch-pot. The OXP sample pump then uses the oxidized fluid in its reverse cleaning process, emptying the oxidized fluid catch pot.
Note: If the OXP sample pump reverse time is not set, for example if a span calibration is run, then the oxidized fluid is pumped to drain by the N pump, not into the oxidized fluid catch pot (not shown on presentation).
Phosphorus analysis: The P pump runs, and the HCl / phosphorus sample which was in the mixer is pumped into the boiler.
To OXP Cleaning valve
To OXP Sample out valve

37. Phosphorus heated mixer
BOIL ACIDIFIED SAMPLE
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
The HCl / Phosphorus sample is centred and sealed in the boiler, and boiled (hydrolyzed) typically for 6 minutes as 100ºC. This converts the poly phosphates to ortho phosphate, PO4.
While the sample is boiling, the BioTector can continue with other measurements.
To OXP Sample out valve

38. Phosphorus heated mixer
FOR THE TP MEASUREMENT, P REAGENT FILL
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
After boiling (hydrolysis) the TP measurement starts.
The P reagent pump runs, and pumps the P reagent into the heated mixer.
To OXP Sample out valve

39. Phosphorus heated mixer
PUMP FLUID IN BOILER TO MIXER
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Phosphorus analysis: The P pump runs, and the HCl / phosphorus sample which was hydrolyzed in the boiler is pumped into the mixer.
To OXP Sample out valve

40. Phosphorus heated mixer
HEAT/MIX HYDROLYZED PHOSPHORUS SAMPLE
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
DRAIN
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Phosphorus analysis: The P pump runs, mixing the hydrolyzed phosphorus sample and reagent in the Phosphorus heated mixer at 45º.
To OXP Sample out valve

41. Phosphorus heated mixer
P MEASURING CELL FILL
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Phosphorus analysis: The P pump runs, pumping the coloured phosphorus sample into the measuring cell.
To OXP Sample out valve

42. Phosphorus heated mixer
TP MEASURE
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Phosphorus analysis: The Flash Lamp is activated, and the Total Phosphorus in the form of PO4 is measured.
The measuring frequency is 405nm, the through-cell reference is 485nm and this data is used with the cell zero readings to calculate the Phosphorus result.
Typically, three separate measurements are carried out, with the P pump running for 1 seconds between each measurement.
To OXP Sample out valve

43. Phosphorus heated mixer
P MEASURING CELL EMPTY
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Phosphorus analysis: The P pump runs, and returns the coloured phosphorus sample to the heated mixer
To OXP Sample out valve

44. Phosphorus heated mixer
HEATED MIXER EMPTY
N Pump
DRAIN
DRAIN
HCl
HCl
HCl
HCl
P Pump
P Pump
405nm detector
217nm detector
485nm detector
265nm detector
Phosphorus heated mixer
DRAIN
Detector module.
Cleaning
Cell
CLEANING
DIW
P Reagent
DIW
P REAGENT
NP Sample
Diversion
P Reagent
Sample loop
Boiler
Boiler
DRAIN
Oxidized
Fluid
Catch-pot
SAMPLE OUT
DRAIN
Boiler Drain
Phosphorus Boiler
To OXP Cleaning valve
Phosphorus analysis: The P pump runs, and the mixer is emptied to drain.
To OXP Sample out valve

45. This completes the operation of the BioTector COD TOC TN TP analyzer