Effect of Mash and Wort Acidification Versus Yeast ...

Effect of Mash and Wort Acidification Versus

Yeast Pitching Rate As Parameters to Optimize

Fermentability of Adjunct Worts

SONGSAK HENGPRATHANEE

1

Brewing Process

2

Raw Materials

3

Malt

Carbohydrates

Proteins

Minerals

Vitamins

4

Malt

Why are essential nutrients for yeast so

important in brewing?

5

Yeast Food Beer

6

Yeast Wort (Nutrients)

Alcohol CO2

Beer flavour

Fermentation

7

Extract

Fermentation: Fermentable Extract

Fermentation end: Non-fermentable Extract

BH : Original Extract (Sugars, FAN and etc)

Residual Extract 8

Rice (A local raw material)

85-90 % Starch 5-8 % Proteins 0.2-0.4 % Oil and Inorganic substance

9

Rice & Barley

Nutrients Rice Barley

Carbohydrates 85-90 % 70-85%

Proteins 5-8 % 10.5-11.5%

Inorganic matter 0.2-0.4%

2.0-4.0%

Fats or Oils 1.5-2.0%

10

Brewing with Rice

Malt

Water

Hop

Yeast

Some parameters have to be optimized

Rice Beer

11

12

Brewing with Rice

Decoction process

High gravity brewing

Rice mash was boiled and pumped into malt mash

Yeast pitching rate

1.5 million cells / % plato / ml of CW

Overview

13

Wort Acidification

Brew house part

Fermentation part

pH pH levels during various stages of the brewing process affect many parameters of the beer.

Extract yield

Beer Color

Hop yield Foam Stability

14

15

pH

Enzyme

Beer parameters

Temp

pH in Mash

Enzymes Opt. pH Affected parameters

Endopeptidase Carboxy peptidase

Dipeptidase Aminopeptidase

4.9-5.1 5.1-5.3 8.1-8.3 7.1-7.3

FAN, Foam stability, color

β glucanases 4.7-5.0 Filtration ability

β-amylases 5.4-5.5 Extract potential

α-amylases 5.6-5.8 Extract potential

16

Wort Acidification Organic acid

Mineral acid

Lactic acid Biological

Industrial

Phosphoric acid

Hydrochloric acid

Sulphuric acid

17

- Adjust pH in Mash (pH 5.4-5.6) - Adjust pH in Boiled Wort (pH 5.2-5.4)

Trial Design

Trial 2: “No Lactic acid”

Trial 1 : “Lactic acid addition”

Control : Same Brewing Procedure 18

Analysis Parameters Chemical Analysis • pH • Extract • VDK • Flavor profile

Microbiological Analysis • Yeast cell count • % dead

Sensory Analysis 19

Trial Lactic acid addition

No Lactic acid

Original extract 13.63 13.66

pH of Mash 5.53 5.72

pH of Cold wort 5.34 5.53

Bitterness of AW 28.0 29.0

FAN 115.4 102.1

Wort Result

20

80.48% 80.19%

70.00%

72.00%

74.00%

76.00%

78.00%

80.00%

82.00%

Lactic Acid Addition No Lactic Acid

Brew House Yield

21

0.00

2.00

4.00

6.00

8.00

10.00

12.00

14.00

0 1 2 3 4 5 6 7 8 9 10 11 12 13

Lactic acid Addition No Lactic acid

Extract reduction rate of both trials were quite similar

App Extract (%)

22

Cell In Suspension (mio/ml)

0.00

10.00

20.00

30.00

40.00

50.00

60.00

70.00

80.00

90.00

100.00

0 1 2 3 4 5 6 7 8 9 10 11 12 13


Max CIS of Lactic acid addition trial

was higher CIS of both trials were

similar

23

pH

3.80

4.00

4.20

4.40

4.60

4.80

5.00

5.20

0 1 2 3 4 5 6 7 8 9 10 11 12


pH of Lactic acid addition trial was

higher

pH reduction rate of Lactic acid addition

trial was faster

24

VDK (mg/l)

0.00

0.50

1.00

1.50

2.00

2.50

3.00

0 1 2 3 4 5 6 7 8 9 10 11 12 13


Max VDK of Lactic acid addition trial

was lower

VDK of both trials were

similar

25

FT Lactic acid addition

No Lactic acid

Fermentation time (D) 12 12

Residual Extract (%) 1.91 2.01

Attenuation limit(%) 1.90 2.00

pH 4.07 4.00

Fermentation End

26

FT Lactic acid addition

No Lactic acid

Yeast cropping ratio 2.47 2.23

Dead cell of Cropped yeast (%)

6.30 8.50

Fermentation End

27

Finish Goods

Trial Alcohol (% v/v)

App Ext (%w/w)

pH ADF* (%)

Lactic acid addition

5.00 1.51 4.08 86.21

No Lactic acid 4.99 1.59 4.04 85.65

*ADF = Apparent Degree of Fermentation 28

Higher Alcohol

11.02 15.03

73.70

9.91 12.13

71.01

0.00

10.00

20.00

30.00

40.00

50.00

60.00

70.00

80.00

1-Propanol (ppm) Isobutanol (ppm) Isoamylalcohol (ppm)

Lactic acid addition No Lactic acid 29

Aldehyde and Ester

1.63

12.41

1.05 2.02

11.78

0.88

0.00

2.00

4.00

6.00

8.00

10.00

12.00

14.00

Acetaldehyde (ppm) Ethyl acetate (ppm) Isoamylacetate (ppm)

Lactic acid addition No Lactic acid 30

Sensory Test Triangle test

Sample’s code Difference sample Correct Wrong Result

A/B/C A 1 7 ns.

Sample A : Trial 1 (Addition lactic acid) Sample B&C : Trial 2 (No lactic acid)

Statistic for different test is triangle test at 95% significance. Panelists couldn't detect difference of trials.

31

Lactic acid addition

Lower Residual extract

Higher pH in beer

Higher yeast cropping ratio and lower dead Cell

A little lower Acetaldehyde

A little more Ester and Higher Alcohol 32

Wort Acidification

Overview

Brew house part

Fermentation part

Trial 1 : Lactic acid Addition

Yeast pitching rate

33

Trial 2 : No Lactic acid

Yeast Pitching Rate

Yeast pitching rate is too Low

- Yeast get stressed

- Produce undesirable by product

- Incomplete fermentation

34

Yeast Pitching Rate

Yeast pitching rate is too High

- Lower growth rate - Lower yeast viability

35

Adjunct Wort

FAN is Lower

Protein in Rice is Lower than Malt

Should Yeast pitching rate be lower? 36

Trial Design

Trial 3 : “Lower yeast pitching rate”

Trial 4 : “Ref. yeast pitching rate”

Control : Same Brewing Procedure

Yeast pitching rate: 1.5 x 106 cells/%Plato/ml CW

Yeast pitching rate: 1.0 x 106 cells/%Plato/ml CW

37

Analysis Parameters Chemical Analysis • pH • Extract • VDK • Flavor profile

Microbiological Analysis • Yeast cell count • % dead

Sensory Analysis 38

Wort Result

Trial Lower yeast pitching rate

Ref. yeast pitching rate

Original extract 13.66 13.63 pH 5.33 5.34

FAN 115.0 115.4

39

1.50

3.50

5.50

7.50

9.50

11.50

13.50

0 1 2 3 4 5 6 7 8 9 10 11 12

Lower yeast pitching rate Ref. yeast pitching rate

Extract reduction rate of Lower yeast pitching rate trial

was slower

App Extract (%)

40

0.00

10.00

20.00

30.00

40.00

50.00

60.00

70.00

80.00

90.00

0 1 2 3 4 5 6 7 8 9 10 11 12


Cell In Suspension (mio/ml)

Max CIS of lower yeast pitching rate

trial was lower

CIS of lower yeast pitching rate trial was

higher

41

3.80

4.00

4.20

4.40

4.60

4.80

5.00

5.20

0 1 2 3 4 5 6 7 8 9 10 11 12


pH

pH reduction rate of lower yeast

pitching rate trial was lower

42

0.00

0.50

1.00

1.50

2.00

2.50

3.00

3.50

0 1 2 3 4 5 6 7 8 9 10 11 12


VDK (mg/l)

VDK of lower yeast pitching rate trial was a little higher

Max VDK of lower yeast pitching rate

trial was higher

43

Fermentation End

FT Lower yeast pitching rate


Fermentation time (D) 12 12

Residual Extract (%) 1.91 1.91

Attenuation limit (%) 1.90 1.90

pH 4.06 4.00

44

Fermentation End

FT Lower yeast pitching rate


CIS (million cells/ml) 24.5 17.8

Yeast cropping ratio 2.08 2.47

Dead cell of Cropped yeast (%)

14.8 6.30

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Finish Goods

Trial Alcohol (% v/v)

App Ext (%w/w)

pH ADF* (%)

Lower yeast pitching rate

4.97 1.50 4.11 86.32


5.00 1.52 4.07 86.21

*ADF = Apparent Degree of Fermentation 46

10.94 14.55

78.67

11.02 15.03

73.70

0.00

10.00

20.00

30.00

40.00

50.00

60.00

70.00

80.00

90.00

1-Propanol (ppm) Isobutanol (ppm) Isoamylalcohol (ppm)


Higher Alcohol

47

1.64

13.75

1.34 1.63

12.41

1.05

0.00

2.00

4.00

6.00

8.00

10.00

12.00

14.00

16.00

Acetaldehyde (ppm) Ethyl acetate (ppm) Isoamylacetate (ppm)


Aldehyde and Ester

48

Sensory Test Triangle test

Sample’s code Difference sample Correct Wrong Result

G/H/I G 8 0 Sig

Sample G : Trial 3 (Lower yeast pitching rate) Sample H&I : Trial 4 (Ref. yeast pitching rate)

Statistic for different test is triangle test at 95% significance. Panelists could detect difference of samples.

49

Lower Yeast Pitching Rate

Little higher pH in beer

Higher VDK during fermentation

Lower yeast cropping ratio and higher dead cell

More ester and Iso-amylalcohol

Sensory test is difference 50

Lactic acid Addition

Overview

Brew house part

Fermentation part

51

Trial 3 : Lower yeast pitching rate Trial 4 : Ref. yeast pitching rate

Yeast pitching rate

Summary

Lactic acid Addition

Yeast pitching rate 1.5 x 106 cells/%Plato/mlCW

52

Brew house part

Fermentation part

Effect of Mash and Wort Acidification Versus Yeast ...

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