An improved monosegmented continuous-flow system for sample introduction in flame atomic spectrometry

Abstract

A monosegmented system for sample introduction which does not require air removal is proposed. The sample is intercalated into an unsegmented carrier stream together with air plugs. Segmentation involving the placement of a single air plug in the tailed portion of the sample is also investigated and compared with the original approach in which the sample is introduced between two air bubbles. Effects of sample volume (25–1000 μl) and length of the air plugs (5–200 cm) on the recorded peak and measurement reproducibility are discussed. Flame instability caused by the air plugs is not a problem with the larger samples. The single-line system proposed for determination of zinc in plant digests is very stable. Limited dispersion is achieved by injecting only about 100 μl of sample; a sampling rate of 400 measurements per hour at the 1% carryover level can be attained. Precise results (r.s.d. ca. 1%) in agreement with those obtained by conventional atomic absorption spectrometry (a.a.s.) are achieved. The advantages of the proposed system compared to a conventional flow-injection system for a.a.s. are emphasized. The determination of calcium in natural waters demonstrates the feasibility of monosegmentation when a reagent solution must be added. Lanthanum solution can be added by merging zones or by confluence, either before or after the sample injection. The accuracy, precision, sample consumption and system stability attained are favourable.