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Determining foam stability using a NIBEM foam stability tester entails the time in which the surface of a head of foam collapses in a
standardized cylinder. Four separate phenomena cause foam to collapse:

A movable system of electrodes tracks the surface of the foam (foam level) by means of electrical conductivity. One long needle is immersed in the center of the foam. The electrodes descend until one of the four outer needles touches the surface of the foam, at which point the electrodes stop their downward motion. The electrodes are motionless until contact to the outer needles is broken as the foam collapses, whereupon the electrodes begin their downward motion once more until they again come into contact with the foam. A timer built into the device measures the time for the foam to collapse (10/20/30 mm). After the measurement is completed, the electrode system returns to its initial position and the measured value is displayed in seconds.

NIBEM: Nederlands Instituut Brouwgerst, Mout en Bier, Dagelijkse Groenmark 3-5; 2513 AL Den Haag; Postbus 179; The Netherlands

The measurement with the NIBEM Cling Meter (fig. 1) is normally performed immediately after the NIBEM foam stability measurement and serves to provide additional information on foam quality. 

After the preset timer has expired, a scan head is introduced into the Haffmans standard glass while the glass is rotated slowly at a fixed level, in order to ensure that the foam has collapsed a minimum of 48 mm. An LED on the back of the scan head emits light. The diffused light, which reflects off of the inside of the glass, is read by a sensor and recorded.