Why so bitter?

Volatile weather. Wild swings in the supply chain. Hoarding. Consumer demand for a wide variety of hop aromas and flavors and constantly changing tastes, which makes forecasting hop needs tricky, particularly in an industry where forward contracting is more often the rule than the exception. These are only a handful of scenarios that keep brewers – particularly craft- and microbrewers who consume a disproportionate share of hops – up at night. Supply and price challenges are then often compounded by the inefficiencies of traditional brewing processes which are energy-intensive and make poor use of hops resources – which is literally money down the drain for a brewer. 

Alpha acids, a class of chemical compounds, are found in the resin glands of hop plant flowers. They can be isomerized to form iso-alpha acids via a combination of steps and processes, including the application of heat in solution, typically achieved by adding hops to the boiling wort – the liquid extracted from the mashing process during the brewing of beer. Although alpha acid is not very soluble in wort, the isomerized form, iso-alpha-acid, is very soluble. The degree of isomerization and the amount of bitter flavor produced is highly dependent on the length of time the hops are boiled, with longer boil times resulting in isomerization of more alpha acids and thus increased bitterness. However, in the conventional wort boiling process, complete isomerization is not achieved; in fact, roughly two-thirds or 60% of the hops added are not utilized as a result of short boiling times, losses due to the hydrophobic structure of alpha acid in aqueous solution and losses in trub and yeast.

Increasing the isomerization rate in the brewhouse

Traditionally, hops would be dosed in the wort kettle, however, with the HOPSTAR™ Iso, GEA has developed a patented process that thermally accelerates hop isomerization and with it the isomerization rate. The process works on the principle that the reaction speed doubles with every 10 Kelvin temperature increase. Additionally, the particle size of the hop product is reduced in order to create an increased reactive surface. When the process temperature is increased to 120 to 140° degrees Celsius, compared to 100°C during wort boiling, the process time is accelerated, totaling just 15 to 20 minutes with the isomerization rate reaching more than 92 percent. This is roughly a 30 percent improvement over traditional methods, reducing a brewer’s annual hop expenditure anywhere from 15 to 30 percent.

The HOPSTAR™ Iso offers brewers the following benefits:

• Reduced raw material demand due to increased isomerization yield 
• Improved flavor stability due to reduced thermal stress  
• Pleasant hop flavor (smell and taste)
• No harsh or astringent bitterness as aftertaste 
• Energy savings due to lower total evaporation rate 
• Flexibility when using a stable hop suspension 
• Central hop production for affiliated breweries