Preparation and Properties of Carboxymethyl Films from Purple Rice Flour
The preparation and properties of carboxymethyl films from purple rice were investigated. The aims of this study were determined the optimum condition for the production of carboxymethyl flour (CMF) from purple rice, investigated the production of multifunctional film (CMFF) from CMF, thereafter,...
Saved in:
| Main Author: | |
|---|---|
| Other Authors: | |
| Format: | Theses and Dissertations |
| Language: | English |
| Published: |
เชียงใหม่ : บัณฑิตวิทยาลัย มหาวิทยาลัยเชียงใหม่
2020
|
| Online Access: | http://cmuir.cmu.ac.th/jspui/handle/6653943832/69748 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| Institution: | Chiang Mai University |
| Language: | English |
| Summary: | The preparation and properties of carboxymethyl films from purple rice were
investigated. The aims of this study were determined the optimum condition for the
production of carboxymethyl flour (CMF) from purple rice, investigated the production
of multifunctional film (CMFF) from CMF, thereafter, applied to use CMFF for
extending crispy pork rind shelf life. Multifunctional film (CMFF) contained not only
anthocyanin, but also total phenolic and total flavonoids compounds acted as a natural
antioxidant. The effect of sodium hydroxide concentration (10%, 20% and 40 % w/v)
on CMF properties was determined. It was found that the sodium hydroxide solution at
the concentration of 10% (w / v) was the most suitable concentration for CMF
synthesis. Effecting, in the degree of substitution (DS), CMF percentage, sodium
chloride percentage, and the color of CMF were 0.25, 88.7, 0.91, 7.76 milligrams per
100 grams, 4.68 (ΔE), 77.08 (L *), 4.26 (a *) and 3.56 (b *), respectively. In addition,
the thermal properties e.g. glass transition temperature (Tg), gelatinization temperature
(Tgel) and melting temperature (Tm) were 1.19, 103.61 and 98.46 oC, respectively. In
case of the CMF morphological property, the surface of flour granules was decreased
with sodium concentration increased. Considering, CMF properties, the researcher was
interested in CMFF production by film casting technique which combined between 2%
(w/v) CMC and 1% (w/v) CMF as well as its development properties by varying the
glycerol concentration i.e. 0, 0.125, 0.25, 0.5 and 1 % (w/v). Thereafter, thermal,physical, chemical and mechanical films properties were tested. The results informed
that CMFF blended film at 1% (w/v) glycerol addition had the highest film water
solubility was 83.56%. The elongation at break, tensile strength and water vapor
permeability (WVP) were 1.66 MPa, 61.26% and 7.15 x 10-4 g⋅m/m2⋅day⋅mm⋅Hg,
respectively. Furthermore, it could be report that the increase in glycerol concentration
was unaffected the deterioration of anthocyanin in CMFF. The film contained
anthocyanin content equal to 0.19 mg 100 g, phenolic content of 118.68 mg GAE / 100
g and total flavonoids 3.60 mg CAE / 100 g DW. Therefore, it was possible that CMFF
could act as a natural antioxidant, which should be prove and evaluate its properties in
term of antioxidant. In this work, the 0.25% (w/v) of glycerol was used for CMFF
casting due to its properties appropriated for crispy pork rind shelf life extension;
especially such as WVP and WVTR. The researcher was applied a film to extend the
shelf life of crispy pork rind packing with CMFF and oriented polypropylene bags
(OPP). Subsequently, the effect of fat oxidation reaction that caused to motivate rancid
odor in the crispy pork rind was evaluated. After storage at room temperature, the free
radical scavenging activity of antioxidant substances of CMFF was analyzed by using
DPPH, ABTS and FRAPS method. It was found that the antioxidant activities were
234.78 (mg VC / 100 g), 298.32 (mg / 100 g) and 1274.25 (mg / 100 grams),
respectively. The experiment showed that CMFF could extend the shelf life of crispy
pork rind for 14 days without rancid odor. The physical and chemical properties of the
crispy pork rind had a moisture content of 1.38 percent, the water active content was
0.44, the overall color difference was 21.75 (ΔE), 55.97, (L *), 3.03 (a *) and 17 (b *).
The hardness value was 13.95 (K.gf; hardness). The crispness value and the
malondialdehyde content were 73.81 (Kg.s; crispness) 0.24 (mg. / kg; malondialdehyde
content), respectively. |
|---|