Usage of food industry by-products as raw materials...
Transcript of Usage of food industry by-products as raw materials...
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Usage of food industry by-products as raw materials in lactic acid
fermentationJelena Pejin1, Miloš Radosavljević1, Milana Pribić1, Sunčica
Kocić-Tanackov1, Dragana Mladenović2, Aleksandra Djukić-Vuković2, Ljiljana Mojović2
1University of Novi Sad, Faculty of Technology, Novi Sad, Serbia2University of Belgrade, Faculty of Technology and Metallurgy,
Belgrade, Serbia
6th International Conference on Sustainable Solid Waste Management, NAXOS 2018, 13-16 June 2018, Greece
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Beer production scheme
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BREWER’S SPENT GRAIN
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Brewer’s spent grain (BSG) is the most abundantbrewing by-product, corresponding to around85% of the total by-products generated
Per 100 L of beer produced 20 kg of brewer’sspent grain are obtained which results in anannual production of over 38 million tonnes ofBSG worldwide
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The chemical composition of brewer’s spent grainvaries according:
to barley variety,
harvest time,
malting and mashing conditions, and
the quality and type of unmalted raw materials usedin the brewing process.
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Brewer’s spent grain is a lignocellulosic material richin protein and fibre, which account for around 20and 70% of its composition, respectively.
Component (% dry matter)
Bogar et al. (2002)
Mussatto andRoberto (2005)
Serena and Knudsen(2007)
Dehnavi (2009)
Cellulose 15 16.8 14.7±2.2 15.1
Hemicellulose 23 28.4 - 32.5
Lignin 22 27.8 12.6±0.6 13.4±1.9
Proteins 18 15.25 21.5±2.1 -
Ash - 4.6 4.8±0.5 3.4±0.1
Carbohydrates - - 52.5±4.0 -
Lipids - - 11.7±0.5 -
Starch 12 - 6.0±1.4 12.5
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The use of brewer’s spentgrain is still limited, beingbasically used as animalfeed
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and in human nutrition
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Its possible applications are as a raw material in:
biotechnology,
energy production,
charcoal production,
paper manufacture,
Or
as a brick component,
and adsorbent.
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Lacticacid
Bioethanol
Biogas Phenolic acids
Yeast carrier in beer
fermentation
Microorganisms
Enzymes
Xylitol andpullulan
Brewer’sspent grain
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Lactic acid
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Food and food-related applications account forapproximately 85% of the demand for lactic acid(LA).
The demand for lactic acid has grows yearly by 5–8%.
There are two optical isomers of lactic acid, L-(+)-lactic acid and D-(-)-lactic acid.
Lactic acid can be manufactured either by chemicalsynthesis or by microbial fermentations.
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Presently, almost all lactic acid producedworldwide comes from the fermentativeproduction route.
A desired isomer of lactic acid can be produced viafermentation using selected lactic acid-producingstrains.
Besides this, microbial lactic acid fermentationoffers an advantage in terms of the utilization ofrenewable carbohydrate biomass, low productiontemperature and energy consumption.
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3. Cellic Ctec2– cellulase (Novozymes, Denmark).2. SAN Super 240 L – glucoamylase, and1. Termamyl SC - α-amylase,
BREWER’S SPENT GRAIN HYDROLYSIS OPTIMIZATION
Brewer’s spent grain obtained in a lager beerproduction was dried at 40ºC for 12 hours.
Brewer’s spent grain hydrolysis was carried outunder optimal conditions using the followingenzymes:
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Most lactic acid bacteriarequire a wide range ofgrowth factors includingamino acids, vitamins,fatty acids, purines, andpyrimidines for theirgrowth and biologicalactivity.
Thus, the substratecomposition andnutritional requirements ofthe strain considerablyaffect the overallperformance of thefermentation.
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L. rhamnosus produced mostly L-(+)-LA in allfermentations (98%).
The highest L-(+)-LA yield (96%) and volumetricproductivity (0.52 g/L⋅h−1) were reached when 2% ofyeast extract was added.
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NaOH was used as neutralizing agent. The pH controlwith NaOH greatly increased reducing sugarutilization, L-(+)-LA concentration, yield andvolumetric productivity.
The highest L-(+)-LA concentration, yield, andvolumetric productivity were achieved with thereducing sugar concentration of 5.4% and yeastextract content of 5% in BSG hydrolysate.
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For further increase in efficiency of L-(+)-LAfermentation fed-batch fermentation wasinvestigated.
The addition of glucose, glucose and yeast extract,and wort during L-(+)-LA fermentation and its effecton fermentation parameters was investigated.
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In all fed-batch fermentations higher L-(+)-LAconcentration, yield, and volumetric productivitywere achieved compared with the batchfermentation.
The highest L-(+)-LA yield and volumetricproductivity of 93.3% and 2.04 g/L⋅h−1, respectively,were achieved in fermentation with glucose andyeast extract addition during fermentation.
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Lactic acid fermentation with the addition of renewable raw
materials
Sterile liquid hydrolysate –fermentation media
pH control (30% NaOH)
Brewer`s yeast (0.5-5.0%)
Stillage (5-20%)
Thin stillage (5-50%)
Soybean meal (1-3%)
Malt rootlets (1-2%)
Soybean meal extract (10-50%)
Malt rootlets extract (10-50%)
Batch and fed-batch fermentation
L. rhamnosus ATCC 7469 at 37°C
150 rpm
L-(+)-Lacticacid
Centrifugation
During the fermentation, determination of:• Lactic acid concentration (L-(+)-lactic acid assay, Megazyme®, Wicklow, Ireland)• Reducing sugar concentration• Cell viability (pour plate technique, MRS agar, 37°C)• pH value
Brewer`s spent grain hydrolysis
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Effect of thin stillage (TS) and thin stillage (5–50%)and glucose addition in BSG hydrolysate on batch andfed-batch L-(+)-LA fermentation.
TS was investigated as a nitrogen and mineral source.
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TS addition significantly increased free aminonitrogen concentration (by up to 209%) which isimportant for bacterial growth.
A strong positive correlation between free aminonitrogen and L-(+)-LA concentration wasdetermined.
In fed-batch fermentation the highest L-(+)-LAconcentration, yield and volumetric productivity of48.02 g/L, 87.8% and 0.96 g/Lh-1, respectively,were achieved.
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Brewer`s yeastSpent yeast in the brewing industry is relativelyinexpensive, it is utilized largely in the production ofextracts to meet the needs of food and fermentationindustries
Yeast cells contain plenty of protein, lipid, RNA,vitamins, and minerals
The brewer‘s yeast is an inexpensive nitrogensource and generally recognized as safe (GRAS)
Large quantities of brewer’s spent yeast areobtained after beer fermentation
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vs.
Dry brewer’s yeast
8€/kg
Yeast extract
51€/kg
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Free amino nitrogen (FAN) concentration in brewer`sspent grain (BSG) hydrolysate without and withbrewer`s yeast (BY) addition
BY content (%) in BSGhydrolysate
FAN concentration (mg/L)
0 54.980.5 68.861.0 147.542.0 249.223.0 296.454.0 376.915.0 393.61
Increase 25-616%
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L-(+)-lactic acid concentration in batch fermentations without and with brewer`s yeast (BY) addition
7.27-76.43% increase
16.02
0
2
4
6
8
10
12
14
16
18
0 12 24 36
L-(+
)-lac
tic a
cid
conc
entr
atio
n, g
/L
Time, hours
Without BY addition0.5% of BY1.0% of BY2.0% of BY3.0% of BY4.0% of BY5.0% of BY
Correlation between FAN and L-(+)-LA concentration 0.913
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L-(+)-lactic acid yield in batch fermentations without and with brewer`s yeast (BY) addition
82.09 84.69 84.85 86.74 87.28 88.18 89.01
0
10
20
30
40
50
60
70
80
90
100
Without BYaddition
0.5% of BY 1.0% of BY 2.0% of BY 3.0% of BY 4.0% of BY 5.0% of BY
L-(+
)-lac
tic a
cid
yiel
d, %
Lactic acid fermentation
Increase up to 8.43%
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Time, hours
Volumetric productivity (g/Lh-1)
Without BY
addition
0.5% of BY
1.0% of BY
2.0% of BY
3.0% of BY
4.0% of BY
5.0% of BY
12 0.60 0.67 0.71 0.79 0.83 0.87 0.89
24 0.57 0.66 0.69 0.77 0.79 0.81 0.83
36 0.56 0.65 0.67 0.71 0.73 0.74 0.75
L-(+)-lactic acid volumetric productivity in batchfermentations without and with brewer`s yeast (BY)addition and with reducing sugar concentrationcorrection to 5.0%
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Soybean meal and malt rootlets
Soybeans are by far the most popular oilseed cropproduced in the world today.
Soybean meal consists of protein, carbohydrates(sucrose, oligosaccharides, and fibrous components),minerals, and vitamins.
Parameter %
Moisture 11
Crude protein (N × 6.25) 50.0
Fat (oil) 1.0
Minerals 7.0
Crude fiber 6.0
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Dried rootlets are separated from malt after kilningand used for feeding cattle.
Rootlets are rich in B vitamins, peptides, aminoacids, and protein.
Parameter %
Moisture <7.0
Crude protein (N × 6.25) 25-34
Fat (oil) 1.6-2.2
Minerals 6-7
Nitrogen – free extractives 35-44 (or even 50)
Pentosan 15.6-18.9
Cellulose 6-10
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Sterile liquid hydrolysate –
fermentation media
pH control
Soybean meal extract (10-50%)
Malt rootlets extract
(10-50%)
Batch and fed-batch fermentation
L. rhamnosus ATCC
7469 at 37°C 150 rpm
L-(+)-Lactic acid
Centrifugation
During the fermentation, determination of: • Lactic acid concentration (L-(+)-lactic acid assay, Megazyme®, Wicklow,
Ireland) • Reducing sugar concentration • Cell viability (pour plate technique, MRS agar, 37°C) • pH value
Brewer`s spent grain
hydrolysis
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Brewer’s spent grain hydrolysate
Malt rootlet extract
10% malt rootletsextract
30% malt rootlets extract
50% malt rootlets extract
Free amino nitrogen concentration (mg/l)
68.71 585.44 147.75 254.44 320.55
Brewer’s spent grain hydrolysate
Soybean meal extract
10% soybean
meal extract
30% soybean
meal extract
50% soybean
meal extract
Free amino nitrogen concentration (mg/l)
68.71 118.53 70.36 73.21 77.50
Free amino nitrogen (FAN) concentration in brewer`sspent grain (BSG) hydrolysate without and with maltrootlets extract addition
Free amino nitrogen (FAN) concentration in brewer`sspent grain (BSG) hydrolysate without and withsoybean meal extract addition
Increase 115-366%
Increase 2-14%
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L-(+)-lactic acid concentration in batch fermentations with soybean meal extract (SME) or malt rootlets extract (MRE)
addition
Soybean meal extract
50.92-66.19% increase
Malt rootlets extract
50.92-75.39% increase
25.73
0
5
10
15
20
25
30
0 12 24 36
L-(+
)-lac
tic a
cid
conc
entr
atio
n, g
/L
Time, hours
Soybean meal extract (SME) and Malt rootlets extract (MRE)
Without SME or MRE addition10% of SME30% of SME50% of SME10% of MRE30% of MRE50% of MRE
Correlation between FAN and L-(+)-LA concentration 0.952
Correlation between FANand L-(+)-LAconcentration 0.766
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L. rhamnosus ATCC 7469 cell viability in batch fermentations with soybean meal extract (SME) or malt rootlets extract
(MRE) addition
9.52
Malt rootlets extract
2.41-3.27% increase
Soybean meal extract
1.96-2.82% increase
7.8
8.0
8.2
8.4
8.6
8.8
9.0
9.2
9.4
9.6
9.8
0 12 24 36
Viab
ility
,log
CFU
/mL
Time, hours
Soybean meal extract (SME) and Malt rootlets extract (MRE)
Without SME or MRE addition10% of SME30% of SME50% of SME10% of MRE30% of MRE50% of MRE
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L-(+)-lactic acid yield in batch fermentations with soybean meal (SME) or malt rootlets extract (MRE) addition
82.61 83.48 84.22 85.97 84.71 85.94 86.69
0
10
20
30
40
50
60
70
80
90
100
0% SME 0% MRE 10% SME 10% MRE 30% SME 30% MRE 50% SME 50% MRE
L-(+
)-lac
tic a
cid
yiel
d, %
Lactic acid fermentation
Up to 4.07% increase for soybean meal extract (SME) and 4.94% increase for malt rootlets extract (MRE)
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Time, hours
Volumetric productivity (g/Lh-1)
Without addition
10% soybean
meal extract
30% soybean
meal extract
50% soybean
meal extract
10% malt
rootlets extract
30% malt
rootlets extract
50% malt
rootlets extract
12 0.64 0.72 0.75 0.76 0.75 0.88 0.91
24 0.61 0.70 0.72 0.74 0.83 0.91 0.95
36 - 0.62 0.66 0.68 0.63 0.68 0.71
L-(+)-lactic acid volumetric productivity in batchfermentations with malt rootlet or soybean meal extractaddition
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Reducing sugar concentration in fed-batch fermentations with soybean meal extract (SME) or malt rootlets extract (MRE)
addition
0
5
10
15
20
25
30
35
40
0 12 24 36 48 60 72
Red
ucin
g su
gar c
once
ntra
tion,
g/L
Time, hours
Soybean meal extract (SME) and Malt rootlets extract (MRE)
0% of SME or MRE10% of SME30% of SME50% of SME10% of MRE30% of MRE50% of MRE
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L-(+)-lactic acid concentration in fed-batch fermentations with soybean meal extract (SME) or malt rootlets extract (MRE)
addition
Soybean meal extract
1.61-4.21% increase
Malt rootlets extract
18.92-47.31% increase
60.89
0
5
10
15
20
25
30
35
40
45
50
55
60
65
0 12 24 36 48 60 72
L-(+
)-lac
tic a
cid
conc
entr
atio
n, g
/L
Time, hours
Soybean meal extract (SME), Malt rootlets extract (MRE)
0% of SME or MRE10% of SME30% of SME50% of SME10% of MRE30% of MRE50% of MRE
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L. rhamnosus ATCC 7469 cell viability in fed-batch fermentations with soybean meal extract (SME) or malt
rootlets extract (MRE) addition
9.53
Malt rootlets extract
0.16-1.04% increase
Soybean meal extract
0.10-1.01% increase
7.8
8.0
8.2
8.4
8.6
8.8
9.0
9.2
9.4
9.6
9.8
0 12 24 36 48 60 72
Viab
ility
,log
CFU
/mL
Time, hours
Soybean meal extract (SME) and Malt rootlets extract (MRE)
0% of SME or MRE10% of SME30% of SME50% of SME10% of MRE30% of MRE50% of MRE
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L-(+)-lactic acid yield in fed-batch fermentations with soybean meal (SME) or malt rootlet extract (MRE) addition
85.34 85.99 86.39 86.76 85.97 87.95 88.52
0
10
20
30
40
50
60
70
80
90
100
0% SME 0% MRE 10% SME 10% MRE 30% SME 30% MRE 50% SME 50% MRE
L-(+
)-lac
tic a
cid
yiel
d, %
Lactic acid fermentation
Up to 1.67% increase for soybean meal extract (SME) and 3.73% increase for malt rootlets extract (MRE)
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Time, hours
Volumetric productivity (g/Lh-1)
Without addition
10% soybean
meal extract
30% soybean
meal extract
50% soybean
meal extract
10% malt
rootlet extract
30% malt
rootlet extract
50% malt
rootlet extract
12 0.66 0.70 0.74 0.77 0.74 0.91 0.9124 0.73 0.75 0.75 0.78 0.87 0.92 0.9936 0.73 0.75 0.77 0.78 0.95 1.04 1.1948 0.76 0.77 0.78 0.79 0.90 0.99 1.0560 0.73 0.74 0.75 0.76 0.87 0.92 0.9772 0.62 0.63 0.64 0.65 0.75 0.79 0.85
L-(+)-lactic acid volumetric productivity in fed-batchfermentations with malt rootlets or soybean mealextract addition
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Colleagues:
Ljiljana MojovićSunčica Kocić-Tanackov
Miloš RadosavljevićMilana Pribić
Aleksandra Djukić-VukovićDragana Mladenović
Ministry of Education, Science and Technological Development of the Republic of
Serbia (Project number TR-31017)
Carlsberg Serbia
Novozymes, Denmark
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THANK YOU KINDLY!