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    STUDIA CHEMIA - Ediţia nr.3, Tom II din 2016  
         
  Articol:   SIMULTANEOUS DETERMINATION OF CALCIUM AND MAGNESIUM IN NATURAL WATERS BY METHANE-AIR FLAME EMISSION AND FLAME ATOMIC ABSORPTION SPECTROMETRY USING A MICROSPECTROMETER.

Autori:  EUGEN DARVASI, NORBERT MUNTEAN, CSILLA SZENTKIRÁLYI. 		 
       
         
  Rezumat:  The calcium and magnesium content of liquid samples has been determined directly by flame atomic absorption (FAAS) and flame atomic emission (FAES) spectrometry using the methane-air (M-A) flame. We measured simultaneously the intensity of the 554 nm wavelength molecular bands emitted by excited CaOH molecules and the decrease of light intensity of a hollow cathode lamp (HCL) absorbed by ground state Mg atoms. The simultaneous multiwavelength measurements enhanced by a charge-coupled device (CCD) microspectrometer allowed fast background correction for each studied element. The instrumental and flame parameters were optimized; the best results were obtained using a lamp current of 1 mA, and an observation height of 5 mm, in case of a reducing flame. The calcium and magnesium content of bottled water samples and water standard certified reference material (CRM) have been determined with standard addition method. The recovery for CRM was 97.80% for Ca and 98.51% for Mg. Under optimal working conditions the detection limits (according to the 3s criterion) were 25 µg•L-1 for Ca and 5.4 µg•L-1 for Mg.

Keywords: methane-air flame, FAES, FAAS, CCD microspectrometer, Ca, Mg, simultaneous determination.
 
         
     
         
         
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