ABSTRACT: Particle-size information is a measure of the quality of processed food products. In this investigation, a study has been made for the particle-size analysis (PSA) of blanched and unblanched samples of tomato powder. The outcome indicates that the standard percentile reading D (v, 0.5), D (v, 0.1) and D (v, 0.9) for blanched and unblanched tomato-powder samples are 260.30, 308.78 and 100.49 μm and 108.57, 609.24 and 521.76 μm, respectively.
Volume mean diameter [D 4,3] is higher for unblanched sample (335.87 μm) compared with blanched tomato powder (288.41 μm). Surface area mean diameter [D 3,2] is also higher for unblanched sample (200.51 μm) than blanched tomato powder (158.71 μm). Furthermore, the specific surface area (Aw) is higher for blanched sample (0.0378 m2/g) as compared with unblanched sample (0.0299 m2/g). The blanching treatment slightly affects the grinding/milling quality/size-reduction characteristics and results in uniform particle size, which is depicted by a narrow range of particle-size distribution of tomato-powder samples. Blanched tomato powder is finer as compared with unblanched tomato powder. The narrow range of particle sizes of the blanched sample of tomato powder shows stability during particle-size settlement, as it is a very important and much desirable parameter for its use in processing of another product preparation.
Volume mean diameter [D 4,3] is higher for unblanched sample (335.87 μm) compared with blanched tomato powder (288.41 μm). Surface area mean diameter [D 3,2] is also higher for unblanched sample (200.51 μm) than blanched tomato powder (158.71 μm). Furthermore, the specific surface area (Aw) is higher for blanched sample (0.0378 m2/g) as compared with unblanched sample (0.0299 m2/g). The blanching treatment slightly affects the grinding/milling quality/size-reduction characteristics and results in uniform particle size, which is depicted by a narrow range of particle-size distribution of tomato-powder samples. Blanched tomato powder is finer as compared with unblanched tomato powder. The narrow range of particle sizes of the blanched sample of tomato powder shows stability during particle-size settlement, as it is a very important and much desirable parameter for its use in processing of another product preparation.
FULL TEXT..
Other important journals:
- JOURNAL: Peelability and Yield of Processing Tomatoes by Steam or Lye
- JOURNAL: Perspectives of Agro-based Industry of Barrge Area of Sindh
- JOURNAL: Pesistent Listeria Monocytogenes Contamination In Food Processing Plants
- JOURNAL: Policies Towards Development of Agro-industries in India
- JOURNAL: Potassium Hydroxide Replacement For Lye (Sodium Hydroxide) In Tomato Peeling
- JOURNAL: Production of Soy Cheese for ISS and Planetary Outpost
- JOURNAL: Prospective scenarios for the biodiesel chain of a Brazilian state
- JOURNAL: Protection of Concrete Floors In the Food and Beverage Industry
JOURNAL: Pulsed Power Systems For Food and Wastewater Processing
Thanks for this posting!
ReplyDeleteNice & very informative blog.
Particle Size Analysis System is used to obtaining real size and shape measurements with results that are accurate, reliable and reproducible.