Development of Processing Technique for the Production of Chilli (Capsicum Annuum Variety Kulai) Puree
Chilli puree is a product in semi-solid form having quality close to the fresh ones and is convenient to use. At present, the quality of chilli puree in the market is not acceptable to the food manufacturers as a raw material for making other products derived from chilli as it contains high amoun...
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| Main Author: | |
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| Format: | Thesis |
| Language: | English |
| Published: |
2007
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| Subjects: | |
| Online Access: | http://psasir.upm.edu.my/id/eprint/5306/1/FSTM_2007_8%20IR.pdf http://psasir.upm.edu.my/id/eprint/5306/ |
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| Summary: | Chilli puree is a product in semi-solid form having quality close to the fresh ones and is
convenient to use. At present, the quality of chilli puree in the market is not acceptable to
the food manufacturers as a raw material for making other products derived from chilli
as it contains high amount of preservatives and has unattractive dark colour. Therefore,
development of an appropriate processing technique for production of chilli puree having
a quality acceptable to the users is of prime importance.
Response surface methodology (RSM) was used to determine the optimum
conditions for drying chilli. Fresh chilli was dried using two different techniques;
cabinet and vacuum oven dryer. Changes in the Hunter colour parameters (L, a, b) of
chilli during drying were investigated. Sensory evaluation was used to determine the
quality of dried chilli in terms of colour, texture, aroma and overall acceptability. It found that changes in colour during drying of chilli by cabinet oven drying were
apparent. On the other hand, an increase in the temperature of vacuum oven dryer
did not give significant effect on the colour of dried chilli produced. The optimum
conditions for the cabinet oven drying of chilli were found to be at 50oC for 5 days,
while that of vacuum oven drying was at 80oC for 7 hours.
Dried chillies (Capsicum annuum variety Kulai) were reconstituted using two
different soaking techniques (cold water and boiled water soakings), crushing and
stone-grinding into fine puree and pasteurized with and without citric and/or acetic
acids. The quality attributes of chilli puree were evaluated in terms of pH, moisture,
Hunter surface colour (L, a, b and hue angle and chroma), extractable colour (ASTA
units) and capsaicinoid content. Results showed that different soaking techniques had
a pronounced effect on the pH, moisture content, Hunter surface colour, extractable
colour, hue angle and chroma and of the puree. However, chilli puree prepared by
boiled-water soaking had lower capsaicin and di-hydro capsaicin concentrations
compared to cold water soaking. Pasteurization at different pHs did not seem to give
an effect on the Hunter surface colour (L, a, and b), ASTA unit and pungency of the
purees produced. Overall, the combined treatments of boiled water soaking and
pasteurized in the presence of acid(s) conferred purees of similar quality attributes.
The colour degradation kinetics of chilli puree prepared from dried chilli (Capsicum
annuum variety Kulai) was evaluated using a fraction conversion technique during
thermal treatment at 60, 70, 80 and 90oC (up to 30 min) and storage of chilli puree at
5, 28 and 45oC (up to 10 weeks). Chilli puree was subjected to heat treatment at
different temperatures in a well-stirred water bath. Test samples were removed from the water bath at selected time intervals (0-30 min after come-up), cooled
immediately and analyzed for colour using Hunterlab colorimeter. Chilli puree
colour was expressed in terms of tristimulus colour value a and combination (L x a x
b). First order reaction kinetics adequately described the change in colour values
during both thermal treatment and storage of puree. The quality of chilli puree stored
at three different storage conditions during 10 weeks of storage were evaluated in
terms of pH, water activity, Hunter colour (L, a, b and hue angle and chroma),
extractable colour (ASTA units), capsaicinoid content, volatile compounds and
microbiological quality. Different storage conditions used had significant effects on
the hunter surface colour, extractable colour, hue angle and chroma, volatile
compounds and microbiological quality of the final puree product. Capsaicinoids, pH
and water activity values were retained during storage. Data obtained in this study
showed that a combination of low temperature storage, pH and heat treatment
synergistically enhanced the quality of chili puree and prolonged its shelf life. |
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