Deshmukh Gajanan Panditrao scite author profile

Deshmukh Gajanan Panditrao

3Publications

5Citation Statements Received

68Citation Statements Given

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Affiliations

Guru Angad Dev Veterinary and Animal Sciences University, National Dairy Research Institute

Publications

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Impact of pulsed electric field treated milk on quality of paneer and khoa

Birwal

Ravindra

Nath

et al. 2022

Food sci. technol. int.

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The present work was undertaken to investigate the feasibility of pre-treatment of raw milk with Pulse Electric Field (PEF) treatment before its entry into the processing chain. A custom-designed and fabricated PEF applicator was used for the non-thermal treatment protocol. Raw milk was treated under three treatment protocols, viz., conventionally heat treatment (CHT), PEF treated milk subjected to conventional heat treatment (PT-CHT) and PEF treatment (PT). For the PT protocol, milk was subjected to high voltage (55 kV) square wave of pulse width 900 µs, for 100 s at a frequency of 90 Hz. The treated milk was then converted to two popular products, namely and paneer and khoa, which were evaluated for its physico-chemical, microbiological, sensory quality and shelf stability. Since khoa is a heat desiccated product, it was evaluated only against PT-CHT and CHT treatments. It was observed that PT treatment resulted in paneer with softer body with higher whiteness index, compared to other experimental samples. The PT treatment did not affect the product acceptability and the product had a shelf stability of 12 days under refrigeration, as against 16 days for CHT and PT-CHT treatment. The treatment protocols for milk did not significantly affect the quality and shelf life of khoa. Thus, there is wide future scope to used pulsed electric fields treatment synergistically with conventional heat treatment for inactivation of microorganisms, with better retention of nutritional and physical properties of product which has potential to save considerable amount of energy and time during processing of product.

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Effect of pulsed electric field treated on quality of curd

Birwal

Ravindra

Shivaram

et al. 2023

Food sci. technol. int.

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Pulsed electric field (PEF) is a potential pre-treatment technique to improve the quality of milk by reducing its microbial load. The present study aims at addressing this issue with respect to a popular fermented dairy product, that is, curd. Milk was treated with high voltage and frequency (55 kV and 90 Hz) square waves of pulse width 900 µs for 100 s. Curd samples were prepared with conventional heat treatment (CHT), PEF-treated milk subjected to CHT (PT-CHT), and PEF-treated milk (PT). PT samples resulted in curd with higher acidity (0.17 ± 0.005% LA) and microbial load (6.65 ± 0.27 log CFUg−1), while the PT-CHT samples resulted in curd with better whey holding capacity. The firmness recorded for CHT, PT-CHT, and PT was 1.15 ± 0.05, 1.32 ± 0.04, and 0.91 ± 0.03 N, respectively. PT-CHT showed a higher viscosity index, that is, 0.207 ± 0.005 g. Sensorial properties showed the acidic nature of PT-curd with greater syneresis and softer texture resulted in its poorer sensory scores for texture. Shelf-life analysis showed no significant difference between curd prepared using the CH and PT-CHT up to 12 days. The study demonstrated the potential of employing PEF with CHT for improving the texture and shelf life of curd without impacting its quality.

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Process optimisation for the mechanised dry crystallisation of rice flake–milk pudding mix

Panditrao

Ravindra

Jose

et al. 2021

Int J of Dairy Tech

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A novel dry crystallisation approach was attempted to formulate a convenience mix for a rice pasta-milk pudding. A mechanical stirring unit was custom-designed for the process. The interactive effect of process parameters (steam pressure, rotor speed, process time) on product characteristics was evaluated in terms of colour, particle size distribution, texture and sensory attributes of the mix and the reconstituted product. Optimised process conditions identified using response surface methodology (RSM) were steam pressure of 1.6 kg/cm 2 at a scrapper speed of 50 rpm for 5 min. The prepared mix had a moisture content of <5% and was highly acceptable on reconstitution.

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