Author
M. R. Manikantan
Other affiliations: Central Tuber Crops Research Institute
Bio: M. R. Manikantan is an academic researcher from Crops Research Institute. The author has contributed to research in topics: Food science & Coconut oil. The author has an hindex of 19, co-authored 53 publications receiving 1239 citations. Previous affiliations of M. R. Manikantan include Central Tuber Crops Research Institute.
Topics: Food science, Coconut oil, Sugar, Chemistry, Medicine
Papers published on a yearly basis
Papers
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TL;DR: In this article, the drying kinetics of plum slices in a tunnel dryer were investigated at 55, 60 and 65°C air temperatures, and six thin layer drying models were fitted to the experimental moisture ratio data.
195 citations
TL;DR: In this paper, Wang et al. studied the thin-layer drying behavior of raw mango slices in a laboratory model tunnel dryer and found that the effective moisture diffusivity varied from 2·62×10−10 to 4·39×10 −10 m2s−1.
138 citations
TL;DR: The moisture dependent physical properties of dried pomegranate seeds (anardana) in the moisture range of 6-18.13% were determined as discussed by the authors, where the size and mass increased from 3.5mm to 4.4mm and 28.98 grams to 32.58 grams, respectively.
125 citations
TL;DR: In this paper, the use of ozone for preservation of vegetables, fruits and fruit juices, and highlights the inactivation mechanism of microorganisms is discussed, along with the reaction kinetics of ozone in grains.
Abstract: Ozone is activated oxygen and it is referred to as a triatomic form of oxygen. It is a natural agent and has a broad antimicrobial property, which together with an oxidation potential, make it an attractive option for the food industry. This article focuses on the use of ozone for preservation of vegetables, fruits and fruit juices, and highlights the inactivation mechanism of microorganisms. The application of ozone in grain storage and the quality of ozone treated grains is discussed, along with the reaction kinetics of ozone in grains.
115 citations
Journal Article•
TL;DR: In this paper, the drying kinetics of milky mushroom slices (10 mm) in a fluidized bed dryer was studied at air temperatures of 50, 55 and 60°C.
Abstract: A b s t r a c t. Drying kinetics of milky mushroom slices (10 mm) in a fluidized bed dryer was studied at air temperatures of 50, 55 and 60°C. Drying of milky mushroom slices occurred in falling rate period. In order to select a suitable drying curve, eight thin layer-drying models were fitted to the experimental moisture ratio data. Among the mathematical models investigated, Wang and Singh model best described the drying behaviour of mushroom slices with high correlation coefficient (R 2 ) values. The effective moisture diffusivity (Deff) of mushroom increased as the drying air temperature increased. The moisture diffusivity in milky mushroom was found to increase from 1.55 to 4.02 x 10 -9 m 2 s -1 during the initial stage of drying, and from 8.76 to 16.5 x 10 -9 m 2 s -1 during the later stage of drying. Drying at temperature of 60°C required minimum activation energy to detach and move the water during the drying process. K e y w o r d s: milky mushroom, drying models, moisture ratio, diffusivity, activation energy
105 citations
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TL;DR: Bhushan S. Pattni,† Vladimir V. Chupin,‡ and Vladimir P. Torchilin study the role of phosphorous in the biosynthesis of Membrane Proteins and found that phosphorous binds to polypeptide A in a manner similar to that of polymethine.
Abstract: Bhushan S. Pattni,† Vladimir V. Chupin,‡ and Vladimir P. Torchilin*,†,§,∥ †Department of Pharmaceutical Sciences, Center for Pharmaceutical Biotechnology and Nanomedicine, Northeastern University, Boston, Massachusetts 02115, United States ‡Laboratory for Advanced Studies of Membrane Proteins, Moscow Institute of Physics and Technology, Dolgoprudny 141700, Russia Department of Biochemistry, Faculty of Science, King Abdulaziz University, Jeddah 21589, Saudi Arabia
1,124 citations
TL;DR: In this paper, current nanocomposite technologies to enhance the mechanical and barrier properties of synthetic polymers and biopolymers for food packaging are reviewed, including antimicrobial, oxygen scavenging, and shelf-life extension of food.
Abstract: In this article, current nanocomposite technologies to enhance the mechanical and barrier properties of synthetic polymers and biopolymers for food packaging are reviewed. In addition, nanotechnology developments targeting active packaging applications are discussed, including antimicrobial, oxygen scavenging, and shelf-life extension of food. Nanotechnologies that are currently being exploited for the development of intelligent packaging with enhanced communication function are presented, focusing mainly on oxygen, humidity and freshness indicators. Nanostructured coatings that enhance the barrier properties of packaging films are reviewed. And finally, the perspectives of nanotechnology in food packaging applications are discussed.
435 citations
TL;DR: This comprehensive study on modeling, design, optimization, and analysis of food drying found that commonly used or newly developed thin layer drying equations were shown, and determination of the appropriate model was explained.
Abstract: Drying is a complicated process with simultaneous heat and mass transfer, and food drying is especially very complex because of the differential structure of products. In practice, a food dryer is considerably more complex than a device that merely removes moisture, and effective models are necessary for process design, optimization, energy integration, and control. Although modeling studies in food drying are important, there is no theoretical model which neither is practical nor can it unify the calculations. Therefore the experimental studies prevent their importance in drying and thin layer drying equations are important tools in mathematical modeling of food drying. They are practical and give sufficiently good results. In this study first, the theory of drying was given briefly. Next, general modeling approaches for food drying were explained. Then, commonly used or newly developed thin layer drying equations were shown, and determination of the appropriate model was explained. Afterwards, effective moisture diffusivity and activation energy calculations were expressed. Finally, experimental studies conducted in the last 10 years were reviewed, tabulated, and discussed. It is expected that this comprehensive study will be beneficial to those involved or interested in modeling, design, optimization, and analysis of food drying.
405 citations
TL;DR: In this paper, a thin-layer drying simulation was used to obtain experiment data, using laboratory scale hot-air dryer of the static tray, and the calculated value of moisture diffusivity varied from a minimum of 3.320 × 10 −10 to a maximum of 9 −× 10 −9 ǫm 2 /s.
319 citations
TL;DR: Nanocapsules with lipid formulations are possible alternatives to micro-sized carriers owing to the enormous surface area and the following features which they offer, such as improved solubility, high bioavailability and establishment of sustained liberation of the nanoencapsulated food constituents and nutraceuticals.
Abstract: Background The encapsulation and liberation technologies for bioactive food ingredients has opened the door to innovative and significant applications in food, nutrition, and pharmaceutical fields via the employment of nanotechnology. Coating materials in the formulation of nanocapsules are mostly lipid, carbohydrate or protein-based. The nanoencapsulation procedure in the food and nutraceutical areas involves the incorporation of natural ingredients, such as volatile additives, polyphenols, aromas, colors, vitamins, enzymes, oils and antimicrobial compounds in nano-sized capsules, providing the opportunities for higher stability and retention for the sensitive molecules against decomposition and loss of nutritional value during the production process or delivery along with offering a sustained release. Scope and approach This review highlights the most recent nanoencapsulation advancements along with the formulations mainly based on lipid components; i.e., nanoemulsions, nanoliposomes and nanostructured lipid carriers in terms of preparation strategies, their classes, composition, attributes, analysis techniques, worked examples, and implementation in functional foods along with their upcoming evolution and future trends. Key findings and conclusions Nanocapsules with lipid formulations are possible alternatives to micro-sized carriers owing to the enormous surface area and the following features which they offer, such as improved solubility, high bioavailability and establishment of sustained liberation of the nanoencapsulated food constituents and nutraceuticals.
286 citations