Gold Automated Analyzer AULA254

Automated Mercury Analyzer for the Laboratory

The AULA 254 is used for fully automatic determination of mercury traces in liquid samples and sample digests. The instrument carries out routine analysis: sample after sample following exactly the preselected procedure thus increasing efficiency and productivity of your lab.

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Additional Product Details

  • Fully automated flow analysis system
  • Proven and reliable detection method: cold vapor atomic absorption (CVAAS)
  • Sensitive detection method: UV absorption (CVAAS)
  • Integrated GoldTrap for a maximum of sensitivity of <1 ng/l
  • Easy to operate with AULAWIN software
  • Automated Sample Digester Module (ASD) for liquid samples as an optional accessory

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Typical Applications for AULA 254 GOLD Mercury Analyzer

  • Water, waste water, soils and Effluents
  • Applicable to EPA Methods: 245.1, 245.7, 1631, 7470 and 7471A and more
  • Medicine (urine, blood, saliva, hair)
  • Chemical industry (process monitoring, quality control)
  • Geochemistry (geological and mineralogical samples)
  • Petrochemistry
  • Clinical samples: urine, saliva
  • Metallurgy and material testing
  • Petrochemical industry
  • Research

Reliable and proven method for Mercury Detection

Figure: Flow diagram of AULA-254 Gold with Automatic Sample Digester ASD

The working principle of the system is based on the continuous flow method. First the mercury contained in the sample is transformed into the elemental state by addition of a reducing agent to the sample flow. In a cross-flow reactor the mercury is stripped with a gas stream and carried into the optical cell which is made entirely of fused silica. There the quantitative determination of mercury is obtained by measuring UV absorption at a wavelength of 253,7 nm at room temperature. This analytical technique is commonly known as cold vapor atomic absorption spectrometry (CVAAS), a method that has proved itself as extremely sensitive and selective over many years.

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Optimized mercury detection technique

In contrast to a typical multi-element AAS the AULA is specially designed for mercury determination. This allows top performance in analytical applications. The use of a highly stable low-pressure electrodeless mercury discharge lamp (EDL) in connection with the latest UV detector techniques result in excellent baseline stability and low detection limits.

AULAWIN software

Surprisingly easy to use the AULA-WIN offers all features of a modern analytical software. It has been developed with extensive input from our users. Samples, calibration standards and quality control standards (QCS) are entered into the carrousel screen.

Figure: AULAWIN Measurement table and signal graph (1 ppb-Peak)

With an optional barcode stick sample data can be entered comfortably. A sample table is created automatically and can be viewed in the table screen. Sample dilution factors as well as sample weight and final fill up volume for digestion of solid samples can be entered in the table. The result of the measurement is calculated automatically from the chosen calibration function and displayed in µg/l or µg/kg. The QCS function assures a high level of reliability of the analytical results.

The results of the analyses together with the data necessary for quality assurance (date, time, user ID, sample number, calibration data, instrument parameters) are stored in a file. They are available at any time for display and printout. Worksheet templates can be created and stored to minimize setup time for routine work.

High productivity

No long purging or rinsing procedures even when samples with high concentrations are analyzed. The typical duration of a full measurement cycle is 80 ... 280 seconds. The quick screening mode allows performing analyses in even a shorter time.

How measurement is performed

Measurements of up to 20 calibration standards and up to 53 samples and check standards are carried out fully automatically. Standards and samples are filled into 10 ml glass vials and positioned on the auto-sampler turntable. Reagent solution (for example tin-(II)-chloride) and rinse solution (reagent water) are filled in the corresponding glass tanks. Then the stripping gas flow is adjusted and measurement is started by a keystroke.

Figure: AULA-254 Gold reaction part

The measurement cycle can be interrupted at any time by the operator for selecting any sample to be measured next. Readings and instrument status are displayed in real-time on the screen.

The stability of the baseline is checked prior to each measurement and the zero point is adjusted automatically. The typical zero drift during a measurement is below 0.0001 absorbance units.

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Minimized memory effects

Diagram: blanks measured after a sample with high mercury concentration demonstrating that there is virtually no carry over

Mercury vapor has a general tendency to absorb on surfaces causing a memory effect. This undesirable property has been minimized by using selected materials (fluoropolymer, borosilicate glass, Tygon LFL) for sample and reagent conducting components and by heating the optical bench. In addition, the auto-sampler probe and the sample tubing are rinsed after each sample. This also allows a high sample throughput. Even samples with concentrations in the upper measuring range do not produce a carry over to the following sample.

Thermoelectric dehumidifier

Unlike traditional mercury analyzers, which use drying tubes for removing water vapor from the sample gas, the AULA 254 uses a maintenance-free thermoelectric dehumidifier. The dew point of the gas is decreased below ambient temperature thus the water condenses on the wall of a small glass tube and flows back into the reactor.

Carrier gas flow stabilization with MFC

The stability of the carrier gas flow has a direct effect to the reproducibility of measurements. For this reason the AULA-254 Gold system uses a highly precise (1.5 % accuracy) electronic mass flow controller (MFC).

Safety for the user

The instrument automatically interrupts the measurement if samples with mercury concentrations exceeding the measuring range are detected. In this case the system is immediately cleaned.

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Automated sample digestion module (ASD)

Figure: Comparison of microwave digested samples (light blue) and directly with AULA-ASD measured samples (red)

  • Sample A: seepage water from chlor-alkali plant
  • Sample B: tank rinsing water from chlor-alkali plant
  • Sample C: effluents from PTFE production plant
  • Sample D: sewer plant effluent

The AULA 254 can be equipped with an optional sample preparation system for aqueous samples. The digestion procedure derives from standard methods commonly used in the laboratory.

The sample is automatically drawn from the auto-sampler vial and is continuously mixed with a strong oxidizing reagent (e.g. potassium permanganate, bromide-bromate). Subsequently the sample/oxidant mixture is heated to approx. 98 °C in a heated coil. After the oxidation step hydroxylamine hydrochloride and tin-(II)-chloride are added for reduction of mercury into the elemental state.

The AULA-ASD is economical

Average reagent consumption for 100 analyses is:

  • 10 g hydroxylamine hydrochloride
  • 1-5 g potassium permanganate
  • 20 g tin-(II)-chloride
  • 5 l water (deionized)
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Giving your system even more sensitivity: GoldTrap

The integrated GoldTrap preconcentration module drastically enhances the detection limit to values lower than 1 ng/l.

Using ultrapure reagents and following the guidelines for mercury analysis at ultratrace levels (e.g. given in EPA method 245.7 or method 1631) a measuring range from 1 ppt to 5000 ppt can be achieved. This complies with the performance data given in EPA method 245.7 or 1631.

An outstanding property of the newly developed GoldTrap is its minimum thermal inertia. This has become possible by use of a wafer thin ceramic substrate. As a consequence heating and cooling rates become very fast. Analysis durations are comparable to the direct method.

The AULA-254 Gold allows the user to select if analyses shall be carried out with or without a preconcentration step. This makes the instrument versatile for any application.

Mercury Analyzer AULA-254 Gold Technical Specifications

Measuring principle UV-Absorption, cold vapor technique (CVAAS)
Analytical wavelength 253,7 nm
UV source Electrodeless low-pressure mercury discharge lamp
Stabilization method Reference beam technique
Optical cell Entirely made of fused silica, ca. 230 mm length
Optical cell heating Approx. 50° C
Stripping gas argon (optional nitrogen), 4-6 l/h,stabilized with electronic mass flow controller
Autosampler 53 place random access, turntable-type
Sample vials 10 ml, glass; aluminium foil disc covers as accessory
Heating coil temperature ca. 98° C
Detection limit less than 80 pg Hg
Measuring range 10 ng/l ... 50 µg/l (GoldTrap off); 1 ng/l ... 5 µg/l (GoldTrap on)
Zero drift Auto zero before each measurement
Measuring duration Typical 60 - 280 seconds
Software AULA-WIN, Windows® based
Electrical power supply 115 V / 230 V~; 50 - 60 Hz, consumption ca. 100 W (AULA 254-ASD: 120 W)
Dimensions approx. 37 x 38 x 44 cm (WxHxD)
Bench space requirements 50 x 70 cm (W x D), excl. PC
Weight Approx. 14 kg total (excl. PC)
ISO 9001 As a leading supplier of high precision analytical equipment, we strive at all times to offer top quality solutions. Our products are manufactured according to the ISO 9001 quality regulations.
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