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TELEDYNE INSTRUMENTS TOC分析仪.pdf

1、 Introduction to the Fusion TOC Analyzer Application Note By:Stephen Lawson Sales/Support:800-874-2004 Main:513-229-7000 4736 Socialville Foster Rd.,Mason,OH 45040 Copyright 2007 Teledyne Tekmar Company.All Rights R Abstract Building on nearly 40 years of design and manufacturing experience,Teledyne

2、 Tekmar introduces its fifth generation Total Organic Carbon(TOC)UV/Persulfate analyzer,The Fusion.The Fusion offers increased flexibility,software intelligence and user-friendliness making this analyzer ideally suited for demanding laboratory needs.By implementing the patent-pending Static Pressure

3、 Concentration(SPC)technology,the Fusion is able to achieve unprecedented low-end sensitivity from a Non-Dispersive Infrared(NDIR)detector.The Fusion demonstrates excellent precision at low ppb(parts per billion)levels,along with the ability to minimize carryover.KEY WORDS:Fusion,Total Organic Carbo

4、n(TOC),Total Carbon(TC),Inorganic Carbon(IC),TOC analyzers,Non-Dispersive Infrared Detection(NDIR),pharmaceutical,drinking water,waste water Introduction Total Organic Carbon(TOC)in water is an important analytical parameter in evaluating water quality.Measurement of the TOC concentration plays a cr

5、itical role in a variety of industrial and environmental applications.The Fusion and TOC TekLinkTM Software combine to provide a wide range of user-friendly features and reliable data analysis.The TOC TekLinkTM software provides the user with unattended auto-calibration scheduling,automatic dilution

6、 capabilities using stock standards or samples,universal calibration and blank methods for all detector ranges.Automated self-diagnostic tools,21 CFR functionality-Electronic Records and Electronic Signatures(ERES),exportable reports in various formats,and simple sample scheduling with minimal metho

7、d development are also new features standard with the Fusion.Default analytical parameters are set for Total Carbon(TC),Total Organic Carbon(TOC),Inorganic Carbon(IC)and Total Organic Carbon by difference(TC-IC)analyses.The range of detection is from 0.2 g C/L-4,000 mg C/L with carryover of less tha

8、n one percent.Hardware Instrument Hallmarks Integrated High-Performance Autosampler Figure 1 Hallmarks of the TOC Fusion Rapid and Precise Sample Delivery with Ultra-low Carryover Enhanced UV Oxidation Reactor Proficient Inorganic(IC)Carbon Removal The Fusion is divided into four main compartments a

9、n integrated autosampler and needle housing;a visible wet chemistry section where all sample manipulations occur;the Mass Flow Controller(MFC),the valves needed to route gas flow,an internal water removal system Permeation Dryer,and the NDIR detector and the electronics needed to control the instrum

10、ent.Grouping like compartments allows for easier maintenance as well as separation of the electronics and valves preventing components from possible liquid exposure,which could cause damage,in the unlikely event of valve failure.There are three autosampler tray sizes:75 position;40mL vials 90 positi

11、on;55mL test tubes 120 position;20mL test tubes All tray sizes have four 125ml bottle positions in the center of the rack.Directly below the autosampler,a uniquely designed and improved automated syringe delivery system allows for remarkable precision and accuracy.The Fusion handles all liquid movem

12、ent through a redesigned seven-port valve that is capable of accurately delivering 0.5-25 mL volumes in 20 L increments.A dedicated IC chamber prepares samples for TOC analysis by adding phosphoric acid to the untreated sample and sparging away inorganic carbon.Between the Syringe Pumper and the IC

13、chamber is a highly efficient mist trap for removing moisture from the sample gas before it enters the NDIR Detector,protecting the detector as well as eliminating possible water interference from the sample.Sodium Persulfate is added to an enhanced UV reactor,located left of the Syringe Pumper,oxid

14、izing all of the carbon to CO2 with the aid of an ultraviolet light.This newly designed UV Reactor increases sample conservation and delivers better UV radiation interaction between samples and the oxidant.The Fusion utilizes an enhanced halogen scrubber that removes chloride contained within the sa

15、mple gas as it passes through on its way to the NDIR detector.Introduction of the Fusion TOC Analyzer Sales/Support:800-874-2004 Main:513-229-7000 4736 Socialville Foster Rd.,Mason,OH 45040 Seven valves direct the gas flow controlled by the MFC.The combination of valves and the MFC allows for mode-t

16、o-mode changes to the flow rate,and the user to optimize the sparge flow of the sample,resulting in lower gas usage since flow rates can be set instantly.Higher flow rates sweep the flow path between samples decreasing the time of analysis.Along with CO2 gas,an inert carrier gas from the UV oxidatio

17、n chamber carries water vapor through the mist trap to the improved permeation dryer.The permeation dryer has a smaller internal diameter that permits more surface area exposure to the carrier gas stream,which improves its capacity to remove water vapor Inside the right partition of the Fusion is th

18、e detector designed to tolerate higher concentrations of S02/SO3,moisture and halogens.This newly designed detector uses Static Pressure Concentration(SPC)combined with NDIR technology to achieve unrivaled performance at lower concentrations.With traditional flow through cell detectors like the Phoe

19、nix 8000,UV/Persulfate oxidation liberates carbon to create CO2 gas.The detector measures the adsorption of the infrared light over time as the CO2 passes through(figure 2).The resulting measurement correlates to a peak.Integration of the peak height correlates to the concentration of carbon in the

20、sample.Figure 2 Typical flow-through cell detector gas peak Anatomy of a flow through cell NDIR detector:Introduction of the Fusion TOC Analyzer Sales/Support:800-874-2004 Main:513-229-7000 4736 Socialville Foster Rd.,Mason,OH 45040 Inside the detector are two detector cells,one front and one rear.I

21、nfrared energy traverses through the sample chamber then on to both detector cells.A rotating chopper blade interrupts the infrared energy beam at regular intervals causing changes in the energy levels reaching the detector cell.The pulsing of the infrared energy results a pulsed pressure flow throu

22、gh a mass flow sensor between the detector cells.The mass flow sensor emits an electrical signal proportional to the magnitude of the flow.When there is no carbon dioxide in the sample cell,the maximum amount of infrared energy enters the detector cell.Carbon dioxide displays a unique absorption spe

23、ctrum when infrared energy passes through it,which allows the NDIR detector to distinguish it from other gases(see figure 5).As the sample cell receives the carbon dioxide gas,it absorbs some of the infrared energy normally sent to the front detector.The reduction of energy entering the forward dete

24、ctor cell causes a decline in its pressure.This results in a flow change between the front and rear detector cells.As the mass flow sensor,located between the front and rear detectors,emits an electrical signal,proportional to the magnitude of the flow between the detectors,there is a corresponding

25、peak displayed usually in millivolts(mV)on the instrument.Once carrier gas purges out carbon dioxide in the sample cell,the detector output signal decreases to its previous level because the flow between the detectors has returned to equilibrium.The mV-seconds area of this peak is the raw data for t

26、he Figure 3 Phoenix 8000 flow through detector cell Figure 4 TOC Fusion detector cell Anatomy of a SPC NDIR detector:In contrast to an analyzer using a flow-through cell detector,the Fusion utilizes pressurized detection,or static read(figure 4).In this technique,oxidation of the specific carbon com

27、ponent and its movement,using a non-interfering carrier gas,into the detector is identical.However,the static read detector pressurizes the detector cell by closing the outlet valve and takes a single measurement to determine the amount of CO2 inside the detector cell.This single reading correlates

28、directly to the concentration of the carbon contribution from the sample.The static read detector(figure 6)uses no moving parts to measure carbon dioxide.Inside the detector,a miniature lamp produces an electronically pulsed infrared beam.A mirror reflects the beam and re-focuses it back to an IR de

29、tector.Behind a silicon-based Fabry-Perot Interferometer(FPI)is the IR detector.The tuning of the electronics of the miniature FPI is so that its measured wavelength converts between the absorption bandwidth of CO2 gas and a reference bandwidth.When the FPI passband coincides with the absorption wav

30、elength of the CO2 gas,the IR detector experiences a decrease in the light transmission.The measured wavelength of the FPI changes to the reference band(that has no Introduction of the Fusion TOC Analyzer Sales/Support:800-874-2004 Main:513-229-7000 4736 Socialville Foster Rd.,Mason,OH 45040 absorpt

31、ion lines)and the IR detector experiences a full light transmission.The degree of light absorption in the gas,indicated by the ratio of these two signals,is proportional to the gas concentration.As stated earlier,carbon dioxide shows a unique adsorption spectrum when infrared energy passes through i

32、t,allowing any NDIR detector to distinguish it from other gases(figure 5).CO2,CO,CH4,NH3,H2O,N2O,SO2 1 23 4 5 6 Wavelength(um)7 89100 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1 SO2N2ONH3CH4 NH3 CO N2O CO2 CH4 Transmission Figure 5 Absorption spectra for selected gases The tungsten light source sends a si

33、ngle beam through the CO2 gas.This beam reflects off a gold plated mirror to the detector.The Fabry-Perot Interferometer filters the light beam at an absorbance wavelength of 4.3 microns,which is specific for CO2.A second beam is then sent and filtered at an absorbance wavelength of 3.9 microns,whic

34、h is non-specific for CO2.The difference between the absorbance readings is The Fabry-Perot Interferometer is silicon-based micro-machine(semi-conductor).They apply an electrical current to the semi-conductor and are able to tune(select)different absorbance wavelengths.The detector is a Thermopile(a

35、 thermocouple),which measures the heat potential and turns it into an electrical signal.Introduction of the Fusion TOC Analyzer Sales/Support:800-874-2004 Main:513-229-7000 4736 Socialville Foster Rd.,Mason,OH 45040 Introduction of the Fusion TOC Analyzer Sales/Support:800-874-2004 Main:513-229-7000

36、 4736 Socialville Foster Rd.,Mason,OH 45040 IR detector An inherent advantage of this technique is that all of the CO2 is in the cell at the same time for the detector to measure.This allows the sensitivity of the analysis to be significantly increased.In addition,static read detection does not have

37、 inherent error associated with integration inaccuracy(figure 6).The elimination of this error allows for lower detection limits and increased precision.Figure 6 Typical Static Pressure Concentration(SPC)read display Instrument Software Software is in a user-friendly Windows format design.From the m

38、ain instrument setup screen,access to nearly every function of TOC TekLinkTM is available.The main window appears initially as a grey box.Five main dialogue boxes can toggle ON/OFF into the main window according to user preference.There is also the Unit Status window,an Event Dialogue window,and a S

39、tatus bar at the bottom,which shows the mode and the connection status.On the Unit Status window are various details of the analytical mode,instrument status,and zones,including flow rates,pressures and error messages.A Sample Information window,a real time NDIR signal chart,and a recent history of

40、results are all displays within the Run screen.Sample Setup allows the user to enter relevant information about the sample ID,type of analysis(sample,calibration,blank,etc.),method of analysis(TOC,TC,IC,TC-IC)and the number of repetitions performed per sample.The Tools menu contains many useful comp

41、onents.From the Tools dropdown box the Maintenance Tasks,Blank Editor,Standard Editor,Diagnostics,Update Firmware,System Properties,User Manager,and Change Password functions are available.One of the most helpful maintenance tasks is the Leak Check function.This permits pressurization of the flow pa

42、th and ensures flow path integrity when the system is under pressure.Unlike the Phoenix 8000,the Fusion performs a single system blank.The CO2 Hermetically Sealed Cap FPI detector Light source Sample cell with reflector Tunable FPI filter instrument blank screen displays the latest blank version and

43、 a View History button of the previous system blanks.The Standard Editor accesses the list of standard sets previously created and controls the addition of new standard sets or the editing of existing ones.System suitability criteria can be set here as well.When creating or modifying a standard set,

44、the user may choose to use the center autosampler positions for the stock standards or traditional 40mL vials.Using the same calibration file for multiple ranges or modes with TOC TekLinkTM software is allowable.The Diagnostics submenu permits manual control of the instrument valves,seven port valve

45、 and syringe drive,autosampler diagnostics,instrument benchmark,software debug,and Mass Flow Controller.Chemistry of Oxidation and Analysis Flow ChartFlow ChartTotal Carbon(TC)Inorganic Carbon(IC)Organic Carbon(TOC)ParticulateDissolvedPurgeable OrganicCarbon(POC)Non-PurgeableOrganic Carbon(NPOC)Diss

46、olved(DOC)Particulates Figure 7 Carbon analysis diagram To determine TOC by the NPOC method,the Fusion transfers the sample and reagents to its reactors by first removing inorganic carbon,then oxidizing the carbon in the sample,and finally releasing it in the form of carbon dioxide.It then uses a ca

47、rbon-free carrier gas to transfer the CO2 from the sample to the NDIR detector in the following sequence:1.Removal and venting of IC and Purgeable Organic Carbon(POC)by acidification and sparging in the IC sparger POCCOPOCCOCOHCOacidgascarrier+2,2233,Introduction of the Fusion TOC Analyzer Sales/Sup

48、port:800-874-2004 Main:513-229-7000 4736 Socialville Foster Rd.,Mason,OH 45040 2.Following IC removal,an aliquot of the sparged sample is transferred to the UV Reactor and persulfate reagent is added to oxidize the organic carbon based on the following chemical reactions:Free radical oxidants formed

49、42822SOOShv+OHHOHhv2+HOHSOOHSO2424 Excitation of organics:RRhv Oxidation of organics:+24nCOOHSOR Once the oxidation products in Step 2 are in the NDIR detector via the inert carrier gas,the pressure inside the detector rises to a predetermined set point by closure of the exit valve.The unique singl

50、e measurement methodology the Fusion uses takes place only after the gases reach equilibrium inside the detector cell.This pressurization of the sample gas stream inside the detector,a patent-pending technique,allows for increased sensitivity and precision compared to a flow-through cell detector,by

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