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Industry applications: Malting & Brewing

Rapid quality prediction for barley, malt, and brewing processes

 

From barley intake to the brew house, quality decisions in malting and brewing depend on understanding how grain will perform during processing. Traditional extract analysis is slow and resource-intensive. The Rapid Visco Analyser (RVA) predicts malting potential, malt quality, and mashing behaviour in minutes, giving the whole value chain the speed it needs. Barley breeders and grain traders make sourcing and grading decisions, maltsters assess malting potential and finished malt quality, and brewers and distillers optimise mashing and avoid processing problems.


Industry Challenges
 

  • Malting barley quality varies by variety, growing conditions, and storage — rapid screening is essential for timely purchasing decisions
  • Storage damage and sprout damage in barley reduce malting viability but are difficult to detect early
  • Predicting malt extract yield traditionally requires full-scale malting trials or slow laboratory methods (e.g., Congress mash)
  • Optimising adjunct levels and enzyme additions in the brew house requires understanding their effect on mash viscosity and conversion
  • Distillers need to identify malts that will cause wort separation problems before they disrupt production


How the RVA Solves These Problems


The RVA measures the viscosity response of ground barley or malt during controlled heating, providing parameters that correlate strongly with conventional quality measures. For malting barley, the correlation between RVA results and hot water extract is stronger than protein content alone — enabling rapid screening for malting potential without waiting for full malting trials.

At grain intake, the RVA detects sprout damage and storage deterioration in just a few minutes. If your barley has been exposed to rain or poor storage conditions, the RVA flags it immediately so you can make grading decisions on the spot rather than discovering problems weeks later during malting.

For finished malt, the RVA predicts extract potential and can optionally measure residual starch. This means you can assess malt quality as soon as it comes off the kiln, without waiting for time-consuming conventional extractions.

In the brew house, the RVA simulates mashing conditions at bench scale — you can test how enzyme additions, pH adjustments, and starch adjuncts will perform before committing to a full brew. For distillers, it identifies malts likely to cause wort separation problems by flagging high-viscosity samples that correlate with processing difficulties. 
 

Related RVA Methods


The RVA comes with a library of standard methods that can be used as-is for known applications, or as a starting point for developing your own product-specific test profiles.

MethodNameApplication
14.02Stored BarleyStorage life prediction and sprout damage detection
15.04Malting BarleyRapid prediction of malting potential and extract yield
16.04Kilned MaltFinished malt quality assessment and residual starch measurement
17.04Brewing AdjunctsEffect of enzymes, chemicals, and adjuncts on mashing
38.01Mash ViscosityMash characterisation and adjunct level optimisation
39.01Malt Quality (Distilling)Identifying malts causing wort separation problems


  Key Benefits 
 

  • ✓ Predict malting potential in 15 minutes with correlation to extract yield stronger than protein alone
  • ✓ Detect storage damage and sprout damage before it downgrades valuable malting barley
  • ✓ Simulate brew-house mashing conditions at bench scale to optimise adjuncts and enzymes
  • ✓ Identify problem malts for distilling before they cause production delays
  • ✓ Small sample sizes enable testing at intake, during processing, and in breeding programs

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