| Customization: | Available |
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| After-sales Service: | Online |
| Warranty: | 1 Year |
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GA-P10S Dual system ion chromatograph Analyzer Laboratory Chromatography Testing Machine Anion cationic tester Device Equipment Instrument
Product Introduction:| Serial number | Name of parts | Quantity |
| 1 | Ion chromatograph mainframe | 1 Piece |
| 2 | Column box and constant temperature system | 1 Set |
| 3 | electrical conductivity detector | 2 Pieces |
| 4 | High pressure advection pump | 2 Sets |
| 5 | Six access sample valve | 2 Sets |
| 6 | Flow pipe fitting | 2 Sets |
| 7 | Anion separation column | 1 Piece |
| 8 | Anion suppressor | 1 Set |
| 9 | Cation column | 1 Piece |
| 10 | Cation suppressor | 1 Set |
| 12 | Dual system chromatography workstation | 1 Set |
| 13 | Attached accessories (anti-control work software) | 1 Set |
| 11 | PAS-1 100-bit automatic sampler (Dual system) | 1 Piece (optional) |
| 12 | PEG-1 Shower Generator | 1 Piece (optional) |
| Equipment type |
Number | Name | Specifications and models |
Place of origin |
Quantity |
| spare part |
1 | PEEK High pressure flow pipe | φ1.5×0.5 | America |
1 meter |
| 2 | tetrafluoroduct | φ1.5×0.5 | China | 5 meter | |
| 3 | High pressure column joint | -- | America |
10 pieces | |
| 4 | Pretreatment column | -- | China |
2 pieces | |
| 5 | Einwegfilter | -- | China | 2 pieces | |
| special tools |
1 | Analog electrical guide board | -- | Puren | 1 piece |
| 2 | resistance |
100Ω/2W | China | 1 piece | |
| 3 | Syringe (automatic none) | 2ml | China | 2 pieces | |
| 4 | hex wrench |
3 | China | 1 piece | |
| 5 | cross head screw-driver |
5*100 | China | 1 piece | |
| 6 | Inch wrench | 1/4 | China | 1 piece | |
| 7 | mouse | -- | China | 1 piece |
| Standard number | Standard name |
| HJ 1050-2019 | Water quality - Determination of chlorate, chlorite, bromate, dichloroacetic acid and trichloroacetic acid - ion chromatography |
| HJ 1041-2019 | Determination of trimethylamine in the exhaust gas of stationary sources by suppressed ion chromatography |
| HJ 1040-2019 | Determination of hydrogen bromide in waste gas from stationary sources - ion chromatography |
| HJ 1004-2018 | Determination of organic acids (acetic acid, formic acid and oxalic acid) in ambient air precipitation by ion chromatography |
| HJ1005-2018 | Determination of cations (Na+, NH4+, K+, Mg2+, Ca2+) in ambient air precipitation by ion chromatography |
| HJ 800-2016 | Water-soluble cations in ambient air particles (Li+, Na+, NH4+, K+) |
| HJ 84-2016 | Water quality determination of inorganic anions (F-, Cl-, NO2-, Br-, NO3-, PO43-, SO32-, SO42-) |
| HJ 812-2016 | Water quality determination of soluble cations (Li+, Na+, NH4+, K+, Ca2+, Mg2+) by ion chromatography |
| HJ 549-2016 | Determination of hydrogen chloride in ambient air and exhaust gas - ion chromatography |
| HJ 799-2016 | Water-soluble anions in ambient air particles (F-, Cl-, Br-, NO2-, etc.) |
| HJ 669-2013 | Water quality - Determination of phosphate - ion chromatography |
| HJ 544-2016 | Determination of sulfuric acid fog in the exhaust gas of stationary sources - ion chromatography |
| HJ 778-2015 | Water quality - Determination of iodide - ion chromatography |
| HJ 779-2015 | Determination of hexavalent chromium in ambient air by post column derived ion chromatography |
| HJ/T 83-2001 | Water quality determination of adsorbable organic halogens (AOX) by ion chromatography |
| HJ 769-2015 | Determination of total sulfur in coal -- Escard-ion chromatography |
| HJ 800-2016 | Water-soluble cations in ambient air particles (Li+, Na+, NH4+, K+) |
| HJ 84-2016 | Water quality determination of inorganic anions (F-, Cl-, NO2-, Br-, NO3-, PO43-, SO32-, SO42-) |
| GB 5009.245-2016 | Determination of polyglucose in food of national safety |
| GB 5009.258-2016 | Determination of raffinose in food of national safety |
| GB 5009.256-2016 | Determination of multiple phosphates in food for national safety |
| GB 5009.255-2016 | Determination of fructan in food of national safety |
| GB 5009.33-2016 | National safety of food - Determination of nitrite and nitrate in food |
| GB 8538-2016 | National standard for food safety test method for drinking natural mineral water |
| GB/T 5750.5-2006 | Standard test methods for drinking water Inorganic nonmetallic indicators |
| GB/T 5750.10-2006 | Standard test methods for drinking water Index of disinfection by-products |
| GB/T 5750.6-2006 | Standard test method for drinking water Metal index |
| GB/T 31197-2014 | Determination of impurity anions in inorganic chemical products-ion chromatography |
| GB/T 30906-2014 | Determination of sodium tripolyphosphate in sodium tripolyphosphate by ion chromatography |
| GB/T 11446.7-2013 | Determination of trace anions in electronic grade water by ion chromatography |
| GB/T 29400-2012 | Determination of trace anions in chemical fertilizers by ion chromatography |
| GB/T 3884.12-2010 | Methods for chemical analysis of copper concentrates - Part 12: Determination of fluorine and chlorine content - ion chromatography |
| GB/T 6730.69-2010 | Iron ore - Determination of fluorine and chlorine - ion chromatography |
| GB/T 24876-2010 | Determination of seven anions in livestock and poultry breeding wastewater by ion chromatography |
| GB/T 23978-2009 | Liquid dyes - Determination of chloride ion content - ion chromatography |
| GB/T 14642-2009 | Industrial circulating cooling water and boiler water fluorine, chlorine, phosphoric acid, nitrite, nitric acid and sulfur |
| GB/T 15454-2009 | Determination of sodium, ammonium, potassium, magnesium and calcium ions in industrial circulating cooling water - Ion chromatography |
| GB/T 23710-2009 | Determination of betaine in feed - ion chromatography |
| GB/T 21533-2008 | Determination of starch syrups in honey by ion chromatography |
| GB/T 20188-2006 | Determination of bromate in wheat flour by ion chromatography |
| GB/T 13580.5-1992 | Determination of Fluorine, chlorine, nitrite, nitrate and sulfate in atmospheric precipitation by ion chromatography |
| GB/T 32953-2016 | Determination of melamine content in fertilizer by ion chromatography |
| GB/T 11733-1989 | Standard method for hygienic inspection of sulphates in the atmosphere of residential areas - ion chromatography |
3. Technical parameters
3.1 High-pressure infusion pump:
The microprocessor-controlled double-plunger reciprocating pump adopts advanced intelligent control algorithm, which can reduce the flow pulsation of the pump to the lowest level.
★3.1.1 Pressure test: ≥36MPa (subject to JJG823-2014 "Ion Chromatograph Metrology Verification Regulations", and provide the type evaluation report, type approval certificate of measuring instruments and measuring instrument license issued in accordance with this regulation)
3.1.2 Flow range: 0.001ml/min ~ 9.999ml/min
3.1.3 Pressure sensor: The pressure display accuracy is 0.1MPa
3.1.4 Overpressure protection: When the working pressure exceeds or is lower than the set upper or lower limit, the pump will shut down and alarm.
3.2 Conductivity detector:
3.2.1 Pool volume: < 0.8ul.
3.2.2 Operating pressure: 10Mpa.
3.2.3 Conductivity detection range: 0-60000uS, 10 adjustable, with manual and automatic file selection function.
3.2.4 Full range detection resolution: ≤0.0020ns/cm
3.3 Anion suppressor:
3.3.1 Continuous automatic regeneration electrochemical microfilm suppressor, online automatic regeneration, high inhibition capacity, low background conductance, low noise, baseline stability, maintenance-free.
3.3.2 Anti-pollution, good pressure resistance, long life, wide range of use (PH0-14).
3.3.3 Small size, fast stabilization time, stabilization time is not more than 12 minutes, and good reproducibility.
3.4 Flow path system:
3.4.1 The flow path system is made of PEEK material (imported parts), which has good versatility and can use strong acid and alkali eluent.
3.4.2 Compatible with 100% organic solvents, it is convenient for users to analyze, rinse and maintain complex samples.
3.5 Chromatographic Workstation:
3.5.1 24-bit high-precision and high-sensitivity digital-to-analog conversion.
3.5.2 Dedicated ion chromatographic workstation, full Chinese display, digital signal transmission with computer through high-performance USB, to complete cationic data acquisition and processing.
3.5.3 Instrument counter-control operation can be realized, instrument working parameters can be set online through the computer, and man-machine dialogue can be conducted.
3.5.4 Automatically receive analysis and control preservation instrument chromatographic conditions.
3.5.5 Automatic negative peak identification and baseline deduction function. Automatic parameter integration, automatic report generation.
3.5.6 Automatically detect the running status of the instrument, give an alarm to the running fault and provide protective measures for the instrument.
3.6 Test technical indicators: (JJG823-2014 "Ion Chromatograph Metrology Verification Regulations" shall prevail, and provide the type evaluation report, type approval certificate of measuring instruments and measuring instrument license issued in accordance with this regulation)
Anion: F-, Cl-, NO2-, PO43-, Br-, SO42-, NO3-, ClO2-, BrO3-, ClO3- can be analyzed in one sample
Cations: Li+, Na+, NH4+, K+, Ca2+, Mg2+, Sr2+, Ba2+ can be analyzed in one sample
3.6.1 Lower Detection Limit:
3.6.1.1Cl -≤0.0005μg/mL (injection volume 25μL, eluent carbonate system)
★3.6.1.2 BrO3-≤0.0005μg/mL (injection volume 25μL, eluent carbonate system)
★ 3.6.1.3Li +≤0.002μg/mL (injection size 25μL)
3.6.2 Linear correlation coefficient ≥0.999
★3.6.3 Linear range: ≥103(in Cl-)
★3.6.4 Baseline noise: ≤ 0.5% FS
★3.6.5 Baseline drift: ≤ 1.0% FS
★3.6.6 Column temperature box temperature stability: ≤0.1ºC/h
★3.7 Automatic sampler: [Qualification certificates of appearance of automatic sampler, lifting device, needle clamp device, syringe bracket and base turntable device shall be provided.]
3.7.1 The full tube injection method of electric sampling valve can directly inject trace samples and quickly analyze them, which can effectively solve the problems of injection residue, injection speed and injection reproducibility.
3.7.2 The automatic sampler is connected to the host of the ion chromatograph through a special interface. It can automatically inject samples without manual duty, saving time, labor and efficiency.
3.7.3 Number of standard samples: not less than 100
3.7.4 Sample bottle volume: ≥10ml, quantity: 100 pieces
3.7.5 Injection quantitative tube volume :0.1uL-1000uL (full tube injection method)
3.7.6 Sample volume (sample volume) Reproducibility: 0.01% RSD(sample volume 5uL-1000uL)
3.7.7 Cross contamination: CV< 0.001%
4. Performance indicators:
(1) Types of inorganic anions detected: F-, Cl-, NO2-, PO43-, Br-, SO42-, NO3-, ClO2-, BrO3-, ClO3-Types of inorganic cations detected: Li+, Na+, NH4+, K+, Ca2+, Mg2+, Sr2+, Ba2+
(2) The instrument operating system is completed by one click of the mouse, with automatic selection of range, automatic zero setting, current setting and other functions.
(3) In the large-screen program of the instrument, there is a small workstation to display spectrogram processing data and save spectrogram data.
(4) To realize the integration of double conductivity detector, double sampling valve, double high pressure advection pump, double system workstation, constant temperature system and other components, which can complete the simultaneous analysis of anions and ions.
5, the instrument working environment:
Voltage: AC220V±10% 50HZ
Temperature: 10~30ºC
Humidity: 25~85%
GA-P10S Dual system ion chromatograph Analyzer Laboratory Chromatography Testing Machine Anion cationic tester Device Equipment Instrument
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