In preparing a sample of a liquid material, particularly a sample suitable for chromatographic analysis, an apparatus and method are provided whereby dissolved precipitatable material is removed from the liquid material by precipitation followed by filtering to obtain a liquid sample which can be suitably analyzed. In a preferred embodiment a combination of dilution and cooling are used to precipitate trinitrotoluene from a solution containing sulfuric and nitric acids prior to the chromatographic analysis of the remaining sample liquid material.

A method and apparatus for analysing a chemical species in a fluid are disclosed. The apparatus includes filtering apparatus (15, 17) upstream and downstream of the sample preparation section (3). The fluid is diverted from a line (1) by an arrangement of pumps (27) and valves through the upstream filter (15) to the digester (11) and through the downstream filter (17) out to the analyser/detector system (5). The pumps (27) and valve arrangement allows the purging of the sample preparation section (3) and backflushing of the filters (15, 17), the inlet line (7) and the outlet line (13).

An improved method for the sequential performance of chemical processes on a sample of chemical material wherein the sample is embedded in a solid matrix of fluid permeable material located within a reaction chamber and is sequentially subjected to a plurality of fluids passed through the chamber in a pressurized stream, causing chemical interaction between the sample and the fluids.

Method for handling blood samples (32) wherein a blood sample is absorbed into a filter paper (30) and a sample piece (36) is taken from the filter paper from the opposite side of the absorption side. The sample piece is placed in a sample well of an uncoated micro titration plate (45) and is dissolved in a liquid so that a sample solution is formed in the well. The sample solution is transferred to a second micro titration plate (52-54) coated for the analysis. The apparatus comprises a camera (43), which identifies the filter paper (30), locates the blood sample (32), and informs the punch (47) of the location of the sample. The filter paper (30) is placed in a package, (22) having openings (25) for absorbing and punching of the sample and the covering (23) is provided with a bar code (29).

In chromatography columns, a pair of end plates mounting upon integral column flanges provided at either end of said chromatography column, each end plate mounting a series of frits and O-rings in place within cylindrical grooves provided within each end of the column, each end plate arranged contiguously with the enclosed frits incorporating a series of radially disposed grooves, to provide for dissemination of the incoming chemicals uniformly about the entire cross-section of the column chamber, to provide for efficient dispersion of said chemicals throughout the entire slurry packing contained therein, and incorporating equivalent grooves upon the inner surface of the end plate connecting with the outlet end of the column, to assure uniformity of collection of the chromatography treated chemicals as they are discharged to a location for usage or collection.