Tarsem Chand Mittal scite author profile

The use of non-thermal processing technologies has grown in response to an ever-increasing demand for high-quality, convenient meals with natural taste and flavour that are free of chemical additions and preservatives. Food processing plays a crucial role in addressing food security issues by reducing loss and controlling spoilage. Among the several non-thermal processing methods, ultrasound technology has shown to be very beneficial. Ultrasound processing, whether used alone or in combination with other methods, improves food quality significantly and is thus considered beneficial. Cutting, freezing, drying, homogenization, foaming and defoaming, filtration, emulsification, and extraction are just a few of the applications for ultrasound in the food business. Ultrasounds can be used to destroy germs and inactivate enzymes without affecting the quality of the food. As a result, ultrasonography is being hailed as a game-changing processing technique for reducing organoleptic and nutritional waste. This review intends to investigate the underlying principles of ultrasonic generation and to improve understanding of their applications in food processing to make ultrasonic generation a safe, viable, and innovative food processing technology, as well as investigate the technology’s benefits and downsides. The breadth of ultrasound’s application in the industry has also been examined. This will also help researchers and the food sector develop more efficient strategies for frequency-controlled power ultrasound in food processing applications.

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Effect of γ-radiation on post-harvest storage life and quality of onion bulb under ambient condition

Sharma

Dhall³

et al. 2020

J Food Sci Technol

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Different doses of gamma Irradiation (0 Gy, 10 Gy, 60 Gy, 100 Gy and 200 Gy) were evaluated as potential treatment to extend the storage period and maintain the quality attributes of onion bulbs (cv. Punjab Noraya) at ambient temperature for a period of 144 days. It was observed that storage parameters such as physiological loss in weight, sprouting percentage, rotting percentage and quality traits like total soluble solids, firmness, color parameters, ascorbic acid and pyruvic acid varied significantly (p \ 0.05) during storage period with respect to doses of irradiation. No rotting and sprouting were observed upto 24 days and 84 days, respectively in both gamma irradiated and un-irradiated bulbs. At 5 months of storage, the physiological loss in weight varied from 28.5 to 63.6% in all treatments. Physiological weight loss and rotting percentage were higher in the untreated (control) as well as bulbs radiated @ 10 Gy and 200 Gy. Firmness was better retained in the bulbs irradiated with gamma rays @ 120 Gy bulbs upto 84 days of storage. However, no clearcut pattern for colour changes (L, a, b values) was observed with respect to the irradiation doses. TSS in bulbs decreased upto 36 days of storage and thereafter increased upto 48th day of storage irrespective of the dose of gamma irradiation. Ascorbic acid content of bulbs decreases significantly in all the irradiation treatments during storage but pyruvic acid initially increased, then decreased and again increased at the end of the storage period in unirradiated and irradiated treatments. It is concluded that onion bulbs irradiated with gamma rays @ 120 Gy resulted in minimum loss in weight, rotting and sprouting while maintained best quality for 3 months of storage at ambient storage conditions.

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Optimization of Parboiling Parameters to Improve the Quality Characteristics of Pusa basmati 1509

Chavan

Sharma

Mittal

et al. 2016

J Food Process Engineering

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In order to improve the physico-chemical, textural properties and nutritional quality of popular exceptionally long grain basmati cultivar (Pusa basmati 1509), three parboiling methods (traditional parboiling technique, steaming alone, and presteaming followed by soaking and steaming) were studied and compared with unparboiled sample. Parboiling method consisting presteaming of paddy at 1.05 kg/cm 2 , soaking in 85 8C hot water for 3 hours and again steaming for 60 minutes followed by drying was found best parboiling technique with increase in head rice recovery from 41.15 to 68.87%. Cooking time and water uptake ratio observed was 43.69 minutes and 2.05%, respectively whereas gruel solid loss was significantly reduced. Parboiling treatment resulted in increase in hardness, cohesiveness and springiness while adhesiveness was decreased. Parboiling treatment resulted in leaching of amylose, crude protein, crude fat and crude fiber. Lightness was positively associated with crude protein and crude fat. PRACTICAL APPLICATIONParboiling method resulted into better quality of cooked rice. Increased head rice recovery of these cultivars will help the farmers in getting more prices for their crops as well as increase the market value of rice because of value addition (by increasing head rice recovery) resulting in increased returns to the millers.

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Physio-chemical behavior of γ-irradiated garlic bulbs under ambient storage conditions

Sharma

Dhall³

et al. 2020

Journal of Stored Products Research

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Experimental performance and economic viability of evacuated tube solar collector assisted greenhouse dryer for sustainable development

Singh

Gill

Hans

et al. 2022

Energy

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