Speaker Biography

Snehasis Chakraborty

Institute of Chemical Technology, India

Title: Effect of Pulsed Light Treatment on the Quality Attributes of Pineapple based Mixed Fruit Beverage

Snehasis Chakraborty
Biography:

Dr. Snehasis Chakraborty is working as an Assistant Professor in Department of Food Engineering and Technology, Institute of Chemical Technology, Mumbai. He has his expertise in evaluation and passion in process modeling and optimization of food processing operations. His research team basically focus on the kinetic modeling under different treatment conditions like thermal treatment and pulsed light processing. They have built the secondary kinetic model after 3 years of experience in pulsed light research. the information regarding the kinetic modeling will help in designing a robust pulsed light process condition for any fruit beverage to obtain an extended shelf-life while eliminating all the spoilage microflora in the product. 

 

Abstract:

Statement of the Problem: Consumer demand for minimally processed tropical fruit juice induces the possibilities of exploring nonthermal processes for the same. Pulsed light (PL) or high-intensity PL treatment is one of the emerging nonthermal techniques, which is gaining interest to the industry as it produces a microbially safe food product without or minimally affecting its phytochemicals and nutrient profile. The study aimed to explore the efficacy of pulsed light treatment on different microbial, enzymatic and biochemical properties of a mixed tropical fruit beverage followed by comparing the same with thermally treated one.

Methodology: The study explores the influence of pulsed light (PL) treatment on quality attributes of pineapple-amla based mixed fruit beverage within 1.8-2.4 kV/30-120 s/7.1-9.1 J·cm-2 per pulse (pulse-width 360 µs, 3 pulses per second). The quality attributes analyzed were color change (ΔE*), antioxidant capacity, total phenolic profile, ascorbic acid, peroxidase and polyphenol oxidase activity, aerobic mesophilic count (AMC), yeast and mold count (YMC).

Findings: Both PL and thermal treatment have significantly reduced microbial load and enzyme activity in the beverage, and especially 5D reductions was achieved for both thermal and PL treatment in terms of aerobic mesophiles (AM) and yeast and molds (YM). PL has shown an improved retention of colour and ascorbic acid (AA) as compared to thermal treatments. Opposite to thermal processing an increase in phenolic content and antioxidant capacity was observed after PL treatment. Impact of thermal degradation of microorganisms, enzymes, AA, and loss of visual status (colour profile) were much greater than PL treatment. In case of both PL and thermal treatment polyphenoloxidase (PPO) enzyme and microbial group of YM were the most resistive, along with AA as the most sensitive bioactive nutrient. The study established the potential of PL treatment as an excellent alternative to thermal pasteurization of beverages.