Maturation Flashcards
Warm maturation
Occurs immediately after fermentation; beer is held at similar temps to fermentation, allows flavors to stabalize
Cold maturation
Occurs after warm maturation; primarily ensures beer doesn’t develop unwanted haziness, beer is chilled and kept for ~3 days “lagering” or “conditioning”
Stabalizing
Ensures the degree of haze remains constant
Bottle & cask conditioning
When fermentation is close to completion, green beer is transferred to package, where maturation occurs. Naturally carbonated and clarified in packaging.
Stoke’s Law
Dictates the rate of settling increases when:
-Particles are large and dense
-Beer is stored in a shallow vessel rather than a deep one
-Force of gravity is increased (eg in a centrifuge)
-The liquid is less dense
Haze: Solutions
Solids that have dissolved completely will appear clear, have no degraded or formed new compounds
Haze: Colloids
Solids too large to dissolve for a colloid; buoyancy causes them to remain suspended in the liquid eg: milk, will appear opaque
Haze: suspended solids
Initially opaque, but will settle out eventually eg: dirt in water. Particles exceed 1 micrometer and will not keep floating
Biological haze
Yeast, bacteria
Non-biological haze
Unfermentable sugars, B-Glucans (cell wall compounds), lipids, oxalates (salts from malts)
Chill haze
Formed when polyphenols (malt during mash, hops during boil) and proteins (malt) interact
How does chill haze become permanent haze?
Polyphenols become oxidized and interact with proteins and create a complex that is too large to be soluble. Over time, the complexes become larger and larger and become less soluble, even at warmer temps.
Stabilizing agents
Increase the clarity and shelf life of a beer; interacts with haze precursors to form large particles which are removed by filtration or sedimentation
Finings
Will remove haze from metal ion contamination, bacteria, non-viable yeast, wild yeast. Eg isinglass, gelatin
PVPP Polyvinylpolypyrrolidone
Synthetic nylon polymer that mimics a protein, removes polyphenols
Silica gel
Adsorbs proteins by electrostatic attractions, absorbs proteins into pores within the structure of the silicate; removes proteins
Polysaccharide gums
Interacts with both proteins and yeast, forming complexes that precipitate; removes yeast and proteins
Tannic acid
Polyphenol that binds to proteins to form a haze that can sediment out; removes proteins
Proteolytic enzymes
Plant derived enzyme, breaks down proteins into smaller segments, which don’t form haze when they bind to polyphenols
Unitank
Fermentation, warm maturation, cold maturation
Dualtank
Beer transferred to a separate maturation vessel
Horizontal tanks
Cold maturation; require less height, settles out better than vertical tanks because less distance
Bottle and cask conditioning
Beer removed from FV and sent to package and analyzed based on its need for additives
