Maataloustieteellinen A ikakauskirja
Vol. 63: 131—135, 1991

Experiences of an automatic small-scale 'home bakery'
in test bakings of six spring wheat varieties

JARI PELTONEN* and HANNU SALOVAARA**
* Department of Crop Husbandry and
** Department of Food Chemistry and Technology

SF-00710 Helsinki, Finland

Abstract. Four units of an automatic small-scale 'home bakery' (Panasonic SD-BT2P,
Japan) were tested for their suitability for rapid and simplified test baking. The results indi-
cated that the four baking machines used produced loaves equal in volume. Loaf volume
increased with increasing values of protein content, wet gluten content, sedimentation value,
and with farinograph dough development time and stability values. Varietal differences in the
relationship between quality and loaf volume were detected.

Index words: small-scale test baking, home bakery, wheat flour, baking quality

Introduction

Test baking is recognized as the final ana-
lytical tool in the evaluation of wheat and
flour quality. However, test baking is a labori-
ous procedure, and often constitutes a bottle-
neck in studies of the baking quality of wheat
lots. In 1987 Japanese small-scale automatic
'home-bakeries' were brought onto the mar-
ket for use in household bread baking. Since
then there has been an interest in these appara-
tuses also in cereal laboratories, and questions
have been raised as to whether the automatic
home-bakeries could be of use in professional
test baking.

To be successful a baking test must produce

repeatable results. The results must also be ac-
curate, i.e. the precision of the test must be
high enough for even slight differences in bak-
ing performance to be detected. Furthermore
the results should be reliable and show con-
cordance with other quality parameters, espe-
cially with industrial baking performance.

One approach in test baking may be that
of material testing, i.e. detection of weakness
or incompleteness in the material and discrimi-
nation of materials not meeting the required
standards or specifications. Another approach
in test baking would be an optimized test
baking procedure, in which the processing

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JOURNAL OF AGRICULTURAL SCIENCE IN FINLAND



parameters are adjusted or optimized accord-
ing to the properties of the flour. The current
test baking procedures normally are com-
promises of the two approaches.

It is apparent that the automatic bread
baking units used in the present study (Pana-
sonic SD-BT2P) or corresponding equipment
manufactured by other companies will have
been tested for test baking purposes in many
laboratories. However, very few studies have
been published. Zawitowska et al. (1988)
used the Panasonic SD-BT2P unit in a study
which showed the effects of excessive alpha-
amylase activity on the properties of bread
crumbs. Svensson and Peltonen (1991) used
a similar unit in their study of water absorp-
tion and gluten quality of wheat flour in a
breeding material. Some flour mills in Ger-

Table 1. Baking formula.

Flour 300.0 g
Bakery margarine (Vaasan Leivonen Ltd.) 9.0 g
Saccharose 6.0 g
Salt 3.0 g
Ascorbic acid, AA O.Olg
Instant active dry yeast (lADY) 3.0 g*
Water 200 ml*»

* Added separately, (Fermipan, Gist-Brocades)
** Adjusted ace. to water absorption

many have used modified units of the home-
bakery for quality control of wheat flour
(Seibel 1988, Personal communication).

The purpose of the present study was to
show whether the loaf volumes obtained with
four units of Panasonic SD-BT2P were re-
peatable and whether the loaf volumes cor-
related with varying protein contents or other
quality parameters in a test material consisting
of six spring wheat cultivars.

Materials and Methods

The test materials available for the study
were flours from six Finnish grown spring
wheat cultivars (Reno, Luja, Ruso, Kadett,
Drabant, and Tapio), each at five protein
levels. The analytical data of the composite
wheat lots used for baking test was obtained
from Salovaara (1989). A regular commer-
cial white wheat flour was used as a reference.

Four units of Panasonic SD-BT2P 'home-
bakeries' were used in the study. All the in-
gredients except yeast were added simul-
taneously to the combined mixing-fermenta-
tion-baking pan (Table 1). Loaf volumes were
determined by the rapeseed displacement
method. All baking tests were carried out by
one and the same person (JP).

Table 2. Repeatability test with reference flour at two absorption levels. Volumes of loaves from four units of Pana-
sonic 'home bakery'.»

'home bakery' unit

1 2 3 4

Farinograph absorption
at 500 B. U. consistency
Loaf volume (mean) n = 4
Standard deviation

1218.9» 1300.0» 1250.0» 1300.0»
80.0 54.0 54.0 20.4

1100—1275 1224—1350 1175—1299 1275—1325Range

Farinograph absorption
at 500 B. U. consistency
added with 5 percent units
Loaf volume (mean) n =4
Standard deviation

1687.5" 1706.3' 1681.3' 1718.8"
75.0 23.9 55.4 51.5

1600—1750 1675—1725 1600—1725 1650—1775Range
» Mean followed by the same letter in rows showed no significant difference in Duncan's multiple range test at P =0.05.

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In preliminary tests performed with the
commercial reference flour it was found that
for optimal loaf volume and for optimal in-
ternal crumb characteristics farinograph ab-
sorptions equivalent to 5 per cent units higher
than the standard farinograph absorption
were required. This principle was subsequently
applied in the baking tests with varietal flours,
i.e. baking absorption was 5 percentage units
higher than the farinograph absorption. The
repeatability tests were made with regular
white flour from a commercial flour mill
(Vaasamills Ltd.), and the results were sub-
jected to Anova. Calculation of linear regres-
sions were used to show response of loaf vol-
ume to quality parameters.

Fig. 1. Simple correlation coefficients between quality
parameters and loaf volume in pooled data (n = 60).
PROT = protein content, WGLUT =wet gluten content,
ZEL =sedimentation value, FDDT = farinograph dough
developmental time, FSTAB = farinograph stability.

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Results and Discussion

Repeatability

The volumes of loaves made with the four
units of Panasonic bread bakeries were simi-
lar irrespective of the baking unit with which
the loaves were produced (Table 2). This in-
dicates that the four units were equal in their
performance and that no unit-specific differ-
ences affecting loaf volume existed. Higher
absorption levels (farinograph absorption
+ 5 % units) gave higher loaf volumes (Table
2). Irrespective of the absorption used the
repeatability of the bakery units was good.

Correlation with quality parameters

Pooled data from all cultivars and all pro-
tein contents showed significant correlation of
loaf volume to the quality parameters tested
(Fig. 1). Loaf volume increased with in-
creasing values of protein content, wet gluten
content, sedimentation value, and farinograph
dough development time and stability.

However, the varietal response to loaf vol-
ume with respect to quality parameters was
not equal for all cultivars. The cultivars fell
into two groups. Loaf volumes for three cul-
tivars, Reno, Luja, and Ruso showed high sig-

nificant positive correlations to protein con-
tent, wet gluten content, sedimentation value
and farinograph development time and stabil-
ity values. On the other hand, loaf volumes
for the other three cultivars Kadett, Drabant
and Tapio were independent of the same pa-
rameters (with only two exceptions) (Table 3).

In general, a strong correlation between
protein content and loaf volume is considered
to indicate good protein quality (see Finney
and Barmore (1948), and others). This would
suggest that the protein quality in the three
responsive cultivars (Reno, Luja, and Ruso)
was higher than in the other three cultivars
(Kadett, Drabant, and Tapio). However, there
is no evidence of the reliability of the 'home
bakery' baking procedure, i.e. whether it
has any relevance with respect to industrial
breadmaking processes. The automatic 'home
bakeries' were not designed for test baking but
rather for making bread of fairly consistent
quality from commercial flours varying in
quality. The technique and process were ap-
parently designed to ensure good or reason-
ably good baking results in spite of variations
in the quality of flour used, whereas a 'test
bakery' should reveal differences. Therefore,
it is questionable whether the present commer-
cial 'home bakeries' are useful in test baking
of flours of slightly different qualities. One

Table 3. Simple correlation coefficients between quality parameters and loaf volume in varietal data (n= 10).

Variety Reno Luja Ruso Kadett Drabant Tapio

PROTa o.92*** o.74*** o.79*** 0.54"» 0.50"» -0.11"»
Range 11.4—15.8 12.6—15.2 11.2—15.5 11.6-14.6 12.9-15.1 11.8—15.0
WGLUT 0.89»*» 0.94»»» 0.74»»» 0.38"» 0.34"> -0.06“
Range 21.9—40.3 25.5—42.5 14.3—37.7 25.8—40.7 26.8—38.8 21.9—31.3
ZEL 0.94»** 0.76*»* 0.85»»» 0.73* 0.57 ns -0.05"»
Range 33—61 40—65 31—67 39—65 34—67 31—47
FDDT 0.94»** 0.73* 0.82»* 0.59 n» 0.36"» -0.41"»
Range 2.0—4.5 2.2—3.8 2.3—5.0 2.0—4.0 3.0—4.5 2.0—4.0
FSTAB 0.82** 0.77»» 0.70» 0.92»»» -0.44"» 0.55"»
Range 2.9—9.5 2.0—10.0 2.5—6.0 4.8—8.0 4.5—5.0 3.5—5.5

LV (mean)» 1877.4» 1817.4» 1772.4» 1862.4» 1880.1» 1777.5»
Range 1700—2087 1763—1875 1688—1875 1725—1988 1725—2000 1763—1875
» cf. Figure 1.
b Mean followed by the same letter showed no significant difference in Duncan’s multiple range test at

P = 0.05.

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possibility for improving the procedure would
be initially to mix the doughs in a farinograph
mixing bowl and use the home-baking unit
as a kneading/moulding and fermentation
baking unit. However, the automatic nature
of the process is then partly lost. This prelimi-

nary study shows that more data are needed
before definite conclusions can be made of the
suitability of the home bakery for detecting
varietal differences among comparatively
similar types of bread wheat.

References

Finney, K.F. & Barmore, M.A. 1948. Loaf volume and
protein content of hard winter and spring wheats.
Cereal Chem. 25: 291—312.

Salovaara, H. 1989. Typpilannoitustason ja proteiini-
pitoisuuden vaikutus kevätvehnälajikkeiden leivonta-
laadun tunnuslukuihin. (In Finnish). (Manuscript).

Seibel, W. 1988. (Personal communication).
Svensson, G. & Peltonen, J. 1991. New methods for

testing the baking quality of wheat varieties. Agri
Hort. Gen. (In press).

Zawistowska U., Langstaff, J. & Bushuk, W. 1988. Im-
proving effect of a natural o-amylase inhibitor on the
baking quality of wheat flour containing malted bar-
ley flour. J. Cereal Sci. 8: 207—209.

Ms received June 18, 1990

SELOSTUS

Kotileipurilaitteiden soveltuvuus vehnän
koeleivontaan

Jari Peltonen ja Hannu Salovaara

Tutkimuksessa selvitettiin neljällä Panasonic (SD-
BT2P) kotileipurilla laitteen soveltuvuutta koeleivontaan.
Koelajikkeina olivat kevätvehnät Reno, Luja, Ruso, Ka-
dett, Drabant ja Tapio, joiden valkuaispitoisuus vaihteli
11—l5 %. Tulokset osoittivat, että kotileipurilla saatiin
toistettava leivontatulos. Leipätilavuus lisääntyi jauho-

jen valkuaispitoisuuden, kostean sitkon määrän, zeleny
sedimentaatioluvun kasvaessa sekä farinogrammin tun-
nuslukujen parantuessa. Vehnälajikkeiden leivontatulok-
sissa oli eroja. Tutkimus kuitenkin osoitti, että lisätietoa
tarvitaan leivontalaitteen kyvystä havaita pienehköjä eroja
samantyyppisten lajikkeiden välillä.

135