Determination of the "air volume" (gas volume other than carbon dioxide) in the headspace of bottles and cans
Suitable for determination in beer, mixed beer beverages and carbonated beverages
The method provides valuable information on effective and uniform foaming and undercap gassing during can filling.
The gas in the headspace of bottles and cans is captured under a funnel filled with water and subsequently migrates very slowly through a column of liquid containing potassium hydroxide or sodium hydroxide, whereupon the carbon dioxide also contained in the headspace is bound by the caustic solution. The remaining gas, consisting of nitrogen and oxygen, is captured in a burette, from which the volume can be read. The value from the burette is expressed as “air in headspace” [1].
Determination of the "air volume" (gas volume other than carbon dioxide) and oxygen in the headspace of cylinders and cans
Suitable for determination in beer, mixed beer beverages and carbonated beverages
The burette containing the caustic solution, in this case, is equipped with a short capillary outlet. A tube is attached to this outlet, connecting the burette to a second burette with a lower capillary outlet. The second burette contains an alkaline solution of sodium dithionite, which binds oxygen [1, 2]. In the first burette, the volume of air is measured, and in the second, the volume of nitrogen.
Determination of the total air in bottles and cans
Determination of the total air in containers for beer, beer-based beverages and carbonated beverages
Through heating and shaking, the gases contained in beer are collected in a burette filled with potassium hydroxide. The carbon dioxide is bound by potassium hydroxide, and the remaining volume of gas, consisting of oxygen and nitrogen, is measured [1].
This method describes the method for determining the germinative energy of barley under conditions similar to those during malting.
Barley intended for the production of malt is evaluated on the basis of germinative energy.
This method requires that the process of steeping with periodical intervals of air rests be simulated. The duration of steeping and germination lasts three days (or five days).
Barley intended for the production of malt is evaluated on the basis of germinative energy.
Using this method, a steeping process, divided into steeping and air rests, is simulated. A practice-oriented process (with two and four days of germination) is implemented, which has proven useful for shorter, modern germination processes.
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.