The compounds in the malt dissolved in the mash liquor during a standardized mashing process using finely ground malt (fine grist) are determined in this analysis.
Malt intended for use in beer brewing or elsewhere in the food industry
The Congress mash method primarily serves to determine the extract content of malt.
The extract content is determined by the weight ratio sL 20/20 of the wort on the basis of the official sugar tables (Plato tables) at 20 °C. sL 20/20 stands for the weight ratio of a volume of wort at 20 °C to the same volume of water at the same temperature.
Furthermore, the following is tested over the course of this analysis: Iodine test (saccharification time), odor of the mash, wort run-off, clarity of the filtered wort; the Congress wort is also used as a basis for a wide variety of further analyses.
This method describes how to conduct a simple descriptive test.
beer, beer-based beverages, non-alcoholic beverages, mineral water
This simple descriptive analysis provides a method for articulately communicating sensory attributes. The method can be utilized to formulate a list of attributes for the profile test. The list of attributes must then be statistically corroborated and reference samples employed to ensure that all of the testers identify the same reference substance for each of the given attributes (e.g., rancid butter, sweaty = reference substance butyric acid).
This method is suitable for filtered top-fermented and bottom-fermented beer.
The degree of turbidity present in a beer sample can be compared to a clear beer of the same brand and style to which EBC formazin standard solution has been added to produce haze in the beer. The degree of turbidity can be determined through visual comparison of the two beers.
Turbidity measurement in beer
If a beam of light strikes a particle in a liquid, the light is scattered. This phenomenon is referred to as turbidity. In measuring turbidity during the lautering process, it has been shown that only light scattered in a forward direction should be measured to achieve a meaningful correlation between the concentration of solids and the measurement value. Measurements performed at a 90° angle do not correlate with the amount of solids in wort due to particle size and dependence on color. In addition to the amount of scattered light, the absorption (light transmission) is also measured. The utilization of dual beams eliminates disruptive parameters such as color, lamp age and window fouling.
For monitoring filter efficacy, measurements employing forward scattered light are advantageous (measured at an angle ranging from 11 to 25°).
With a suitable turbidity measuring device, the visual impression of turbidity is quantified.
The moisture content of adjuncts is determined through the loss in mass during a standardized drying process, in which ground malt is dried at a defined temperature within a specified time in an electrically heated drying oven.
The moisture content is determined through the difference in the weight of the adjuncts prior to and after drying.
For samples with a moisture content greater than 17 % (for corn over 15 %), the sample has to be dried prior to conducting the analysis.
Prediction of the extract content and predetermination of the processability and value of a lot of barley for brewing purposes
The behavior of barley during the malting process, which is intended for large-scale malt production, must be known.
MEBAK approved and adopted a micromalting procedure on 6 April 1971 as a standard method for predicting the extract content and for determining the suitability of barley varieties for malting. In 2003, MEBAK shortened the procedure by one day for a total of six days for vegetative growth (steeping and germination), the same length of time as the EBC procedure.