2 H 7HPSHUDWXUH Poster...a University of Liège, Gembloux Agro-Bio Tech ;b Moulins de Statte SA,...
1
Flour heat treatment (FHT) is an effective process that aims to modify the functional properties of flour. These processed flours are considered as natural ingredients and are not classified in the food additives category. Besides, many wheat flour lots harvested with excessive amylase activities are rejected and cannot be used in food applications as such. Wheat flour steam treatment can be used to normalize endogeneous α-amylase and generate functional wheat flours. Using an effective pilot-scale process, the present study aimed to assess the effect of the injected steam volume and the endogeneous amylase activity on wheat flour functional properties. Materials: Wheat flours V1 (low α-amylase activity) and V2 (high α-amylase activity) Flour heat treatment (FHT) – Bühler AG (Switzerland) Methods: • α-amylase activity (Megazyme kit) • Pasting profiles : H 2 O and AgNO 3 (RVA) • Thermal properties (DSC) • Water absorption index (WAI) at 30C and after gelatinization • Water solubility index (WSI) at 30C and after gelatinization α-amylase activity Drastic reduction (7X) of α-amylase activity with 5% of injected steam volume. As the injected volume increased, the residual α- amylase activity of the flour decreased. Thermal properties ΔH of treated flours decreased with increase of steam volume => partial gelatinization of starch granules. Gelatinization endotherms shifted to higher temperatures with increasing steam percentage. Pasting properties – H 2 O Higher viscosity profiles for treated flours compared to native ones What is the impact of endogeneous amylase activity on RVA profiles? Pasting properties – AgNO 3 The presence of endogeneous α-amylase strongly affected the pasting profiles of the native and treated flours. Positive correlation between the α-amylase activity and the increase of peak viscosity due to enzyme inactivation with AgNO3 => Even at very low values (< 0,050 CU/d.b.), α-amylase activity has a significant effect on viscosity profiles. Breakdown values decreased as the steam percentage increased. WAI – WSI at 30°C As the injected steam volume increased, WAI increased for both flours (V1 and V2) => positive correlation between WAI and gelatinization percentage. Decreased in WSI of treated flours compared to the native ones. All treated flours showed similar WSI values. WAI – WSI after gelatinization : H 2 O/AgNO 3 WAI (H 2 O) increased with the steam volume percentages. With AgNO 3 , WAI values were similair for samples => impact of α-amylase activity. WSI (H 2 O) decreased with hydrothermal treatment. With AgNO 3 , WSI values were even lower => impact of α-amylase activity even at very low level. Steam treatment significantly decreased the initial α-amylase activity. Pasting profile and WAI after gelatinisation were affected by residual α-amylase activity. A safe control of the setting parameters of this technology can lead to ingredients with different functionalities. Flour heat treatment can valorize wheat hearvested with excessive α-amylase activity. Sophie Delatte a , François Béra a , Lynn Doran a , Christophe Blecker a , Guy De Mol b , Olivier Roiseux c , Sébastien Gofflot d , Paul Malumba a a University of Liège, Gembloux Agro-Bio Tech; b Moulins de Statte SA, Belgium; c Wal.Agri SA, Belgium; d Walloon Agricultural Research Center Aknowledgement This work was supported by the Walloon government trough the project entitled « Startech » Introduction Objectives 2 Flours V1 & V2 (low and high α- amylase activity) • α-amylase • Pasting prop • Thermal prop • WSI, WAI Steam: 5,10, 20% Materials & Methods 3 Results 4 0,000 0,050 0,100 0,150 0,200 0,250 0,300 0,350 0,400 0,450 0,500 0,550 0,600 0,650 0,700 NF 05 10 20 CU/g d.b. V1 V2 l l l l l l l l l l l l l l l l l p p p p p p p p p p p p p p p £ £ £ £ £ £ £ £ £ £ £ £ £ £ ² ² ² ² ² ² ² ² ² ² ² ² ² ² -1.14 -1.12 -1.10 -1.08 -1.06 -1.04 -1.02 -1.00 Heat Flow (W/g) 20 40 60 80 100 Temperature (°C) l V1-NF p V1-5 £ V1-10 ² V1-20 Exo Up l l l l l l l l l l l l l l l p p p p p p p p p p p p p p £ £ £ £ £ £ £ £ £ £ £ £ £ £ ² ² ² ² ² ² ² ² ² ² ² ² ² -1.08 -1.06 -1.04 -1.02 -1.00 -0.98 -0.96 -0.94 Heat Flow (W/g) 20 40 60 80 100 Temperature (°C) l V2-NF p V2-5 £ V2-10 ² V2-20 Exo Up 0 20 40 60 80 100 120 0 500 1000 1500 2000 2500 3000 3500 4000 0 5 10 15 Temperature (°C) Viscosity (cPs) Time (min) V1-NF V1-05 V1-10 V1-20 0 20 40 60 80 100 120 0 500 1000 1500 2000 2500 3000 3500 4000 0 5 10 15 Temperature (°C) Viscosity (cPs) Time (min) V2-NF V2-05 V2-10 V2-20 0 20 40 60 80 100 120 0 500 1000 1500 2000 2500 3000 3500 4000 0 5 10 15 Temperature (°C) Viscosity (cPs) Time (min) V1-NF AgNO3 V1-05 AgNO3 V1-20 AgNO3 V1-NF V1-05 V1-20 0 20 40 60 80 100 120 0 500 1000 1500 2000 2500 3000 3500 4000 0 5 10 15 Temperature (°C) Viscosity (cPs) Time (min) V2-NF V2-05 V2-20 V2-NF AgNO3 V2-05 AgNO3 V2-20 AgNO3 Conclusion 0,00 0,50 1,00 1,50 2,00 2,50 NF 5 10 20 g H 2 O/g d.b. WAI - 30 V1 V2 0,00 1,00 2,00 3,00 4,00 5,00 6,00 7,00 8,00 9,00 10,00 NF 5 10 20 % (d.b.) WSI - 30 V1 V2 0,00 2,00 4,00 6,00 8,00 10,00 12,00 NF 5 10 20 g H 2 O/g d.b. WAI - Gel V1 V1 AgNO3 V2 V2 AgNO3 0,00 5,00 10,00 15,00 20,00 25,00 NF 5 10 20 % (d.b.) WSI - Gel V1 V1 AgNO3 V2 V2 AgNO3 5 5 4 5 1 V1 V2 V1 V2 V1 V2 5 10 20 5 10 20
Transcript of 2 H 7HPSHUDWXUH Poster...a University of Liège, Gembloux Agro-Bio Tech ;b Moulins de Statte SA,...
Flour heat treatment (FHT) is an effective process that aims to modify the functional properties of flour.
These processed flours are considered as natural ingredients and are not classified in the food additives category.
Besides, many wheat flour lots harvested with excessive amylase activities are rejected and cannot be used in food applications as such.
Wheat flour steam treatment can be used to normalize endogeneous α-amylase and generate functional wheat flours.
Using an effective pilot-scale process, the present study aimed to assess the effect of the injected steam volume and the endogeneous amylase activity on wheat flour functional properties.
Materials: Wheat flours V1 (low α-amylase activity) and V2 (high α-amylase activity)
Flour heat treatment (FHT) – Bühler AG (Switzerland)
Methods:
• α-amylase activity (Megazyme kit)
• Pasting profiles : H2O and AgNO3 (RVA)
• Thermal properties (DSC)
• Water absorption index (WAI) at 30C and after gelatinization
• Water solubility index (WSI) at 30C and after gelatinization
α-amylase activity
Drastic reduction (7X) of α-amylase activity with 5% of injected steam volume.
As the injected volume increased, the residual α-amylase activity of the flour decreased.
Thermal properties
ΔH of treated flours decreased with increase of steam volume => partial gelatinization of starch granules.
Gelatinization endotherms shifted to higher temperatures with increasing steam percentage.
Pasting properties – H2O
Higher viscosity profiles for treated flours compared to native ones
What is the impact of endogeneous amylase activity on RVA profiles?
Pasting properties – AgNO3
The presence of endogeneous α-amylase strongly affected the pasting profiles of the native and treated flours.
Positive correlation between the α-amylase activity and the increase of peak viscosity due to enzyme inactivation with AgNO3 => Even at very low values (< 0,050 CU/d.b.), α-amylase activity has a significant effect on viscosity profiles.
Breakdown values decreased as the steam percentage increased.
WAI – WSI at 30°C
As the injected steam volume increased, WAI increased for both flours (V1 and V2) => positive correlation between WAI and gelatinization percentage.
Decreased in WSI of treated flours compared to the native ones.
All treated flours showed similar WSI values.
WAI – WSI after gelatinization : H2O/AgNO3
WAI (H2O) increased with the steam volume percentages.
With AgNO3, WAI values were similair for samples => impact of α-amylase activity.
WSI (H2O) decreased with hydrothermal treatment.
With AgNO3, WSI values were even lower => impact of α-amylase activity even at very low level.
Steam treatment significantly decreased the initial α-amylase activity.
Pasting profile and WAI after gelatinisation were affected by residual α-amylase activity.
A safe control of the setting parameters of this technology can lead to ingredients with different functionalities.
Flour heat treatment can valorize wheat hearvested with excessive α-amylase activity.
Sophie Delattea, François Béraa, Lynn Dorana, Christophe Bleckera, Guy De Molb, Olivier Roiseuxc, Sébastien Gofflotd, Paul Malumbaa a University of Liège, Gembloux Agro-Bio Tech;b Moulins de Statte SA, Belgium; c Wal.Agri SA, Belgium; d Walloon Agricultural Research Center
Aknowledgement This work was supported by the Walloon
government trough the project entitled « Startech »
Introduction
Objectives 2
Flours V1 & V2 (low and high α-amylase activity)
• α-amylase • Pasting prop • Thermal prop • WSI, WAI
Steam: 5,10, 20%
Materials & Methods 3
Results 4
0,0000,0500,1000,1500,2000,2500,3000,3500,4000,4500,5000,5500,6000,6500,700
NF 05 10 20
CU
/g
d.b
.
V1
V2
ll l
ll
l
l
l
l
l
l
l
l
l
ll
l
p
p
p
p
p
p
p
p
p
p
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pp p
p
£
£
£
£
£
£
£
£
£
£
££
£
£
²
²
²
²
²
²
²
²
²
²
²²
²
²
-1.14
-1.12
-1.10
-1.08
-1.06
-1.04
-1.02
-1.00
He
at
Flo
w (
W/g
)
20 40 60 80 100
Temperature (°C)
l V1-NFp V1-5£ V1-10² V1-20
Exo Up
ll
l
l
l
l
l
l
l
l
l
l
l
l
l
p
pp
p
p
p
p
p
p
p
p
pp
p
£
£
£
£
£
£
£
£
£
£
££
£
£
²
²
²
²
²
²
²
²
² ²
²²
²
-1.08
-1.06
-1.04
-1.02
-1.00
-0.98
-0.96
-0.94
He
at
Flo
w (
W/g
)
20 40 60 80 100
Temperature (°C)
l V2-NFp V2-5£ V2-10² V2-20
Exo Up
0
20
40
60
80
100
120
0
500
1000
1500
2000
2500
3000
3500
4000
0 5 10 15
Tem
per
atu
re (
°C)
Vis
cosi
ty (
cPs)
Time (min) V1-NF V1-05
V1-10 V1-20
0
20
40
60
80
100
120
0
500
1000
1500
2000
2500
3000
3500
4000
0 5 10 15
Tem
per
atu
re (
°C)
Vis
cosi
ty (
cPs)
Time (min) V2-NF V2-05
V2-10 V2-20
0
20
40
60
80
100
120
0
500
1000
1500
2000
2500
3000
3500
4000
0 5 10 15
Tem
per
atu
re (
°C)
Vis
cosi
ty (
cPs)
Time (min)
V1-NF AgNO3 V1-05 AgNO3V1-20 AgNO3 V1-NFV1-05 V1-20
0
20
40
60
80
100
120
0
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1500
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0 5 10 15
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°C)
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cosi
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cPs)
Time (min)
V2-NF V2-05V2-20 V2-NF AgNO3V2-05 AgNO3 V2-20 AgNO3
Conclusion
0,00
0,50
1,00
1,50
2,00
2,50
NF 5 10 20
g H
2O
/g
d.b
.
WAI - 30
V1
V2
0,00
1,00
2,00
3,00
4,00
5,00
6,00
7,00
8,00
9,00
10,00
NF 5 10 20
% (
d.b
.)
WSI - 30
V1
V2
0,00
2,00
4,00
6,00
8,00
10,00
12,00
NF 5 10 20
g H
2O
/g
d.b
.
WAI - Gel
V1 V1 AgNO3 V2 V2 AgNO3
0,00
5,00
10,00
15,00
20,00
25,00
NF 5 10 20%
(d
.b.)
WSI - Gel
V1 V1 AgNO3 V2 V2 AgNO3
5 5
4
5
1
V1 V2
V1 V2
V1 V2
5
10
20
5
10
20
