Spectrophotometric determination of the iodine value of brewery spent grain
Brewery spent grain, wet spent grain, dry spent grain
High molecular weight dextrins and starch present in the wort extracted from brewery spent grain are precipitated through the addition of ethanol, centrifuged and dissolved in phosphate buffer, followed by the addition of an iodine solution. Depending on the molecular weight and degree of branching, a red to blue color forms, the intensity of which is measured spectrophotometrically at 578 nm.
This method describes how to determine the quantity of pests present in a lot of barley using visual and manual inspection processes.
Barley intended for the production of malt is to be evaluated on the basis of the characteristics described below.
Visual and, if applicable, an aural assessment of the barley.
This method describes how to evaluate the degree of contamination or the purity of malt as part a manual inspection procedure.
Malt intended for use in beer brewing or elsewhere in the food industry.
Visual examination of malt for foreign objects. Refer to the Sieving Test for Malt (R-200.08.011).
This method describes how to classify barley according to size, though this is performed without separating out the half kernels.
Barley malt intended for use in beer brewing or elsewhere in the food industry.
The sieving test represents one of the most important objective physical methods for evaluating malt and can be carried out rapidly and easily. The percentages of total dockage (< 2.2 mm) and that of the kernels belonging to grades I and II can be determined from the results of the sieving test.
Whole hops intended for use in beer brewing or elsewhere in the food industry
Evaluation of the appearance of hop cones is performed through visual and manual inspection.
This method describes how to mill grain or malt to produce fine or coarse grist.
Malt intended for use in beer brewing or elsewhere in the food industry
Malt is ground between two horizontally positioned, grooved discs. The lower disc is driven by an electric motor and rotates at approx. 1500 rpm; the upper disc is fixed and therefore does not move. During the milling process, the malt migrates from the center of the discs to the outer edge, where the grist falls through an outlet spout into a grist beaker.
The gap between the discs can be adjusted by turning a socket head screw on a calibrated ring bearing scale markings. The scale on the calibrated ring ranges from 0 to 20, with each scale division corresponding to a gap between the discs of 0.10 mm. Each scale division is subdivided into five smaller divisions; each of the smaller marks is equivalent to 0.02 mm. Two gap adjusting rings ensure reproducible mill settings.