Nora Salina Md Salim scite author profile

Nora Salina Md Salim

4Publications

48Citation Statements Received

61Citation Statements Given

How they've been cited

How they cite others

118

Affiliations

Universiti Malaysia Terengganu, McGill University, Universiti Putra Malaysia

Publications

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Hot Air Drying and Microwave-Assisted Hot Air Drying of Broccoli Stalk Slices (Brassica oleraceaL. Var.Italica)

Salim

Gariépy

Raghavan

2016

Journal of Food Processing and Preservation

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Drying characteristics of broccoli stalk slices under hot air drying (HA) and microwave-assisted hot air drying (MWHA) at temperatures of 40, 50 and 60C is presented. In addition, the color and shape changes of the dried sample were compared. Midilli et al. model showed a good agreement with the experimental data obtained for both drying systems. The calculated effective moisture diffusivity are varied from 2.92 3 10 28 to 7.91 3 10 28 m 2 /s under HA and 6.64 3 10 28 to 13.31 3 10 28 m 2 /s under MWHA. Less changes in color was observed under MWHA at lower temperature. Meanwhile, higher circularity of the shape was observed under HA. According to these results, MWHA promotes faster drying time with higher moisture diffusion; however, pre-treatment prior to this drying process is suggested to enhance the final dried product. PRACTICAL APPLICATIONSHabitually, just the edible floret of broccoli is consumed, leaving the stalk as crop remains. This part of the crop has the potential to be used as food since it has been identified as having many nutritional components. To develop this as a product, drying as a unit operation is essential. This work evaluates the drying behavior of different drying conditions of broccoli stalk. With these results, drying of broccoli stalk can be carried out by the food industry more effectively and efficiently.

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Potential Utilization of Fruit and Vegetable Wastes for Food through Drying or Extraction Techniques

Salim¹

2017

NTNF

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Reducing food waste by complete utilization of resources creates good impact for the food security, economy, and the climate. Current world population is projected to rise to 11.2 billion by the end of this century. With the incremental population, more food needs to be produced to fulfill the future demand. However, one-third of food produced is lost or wasted globally, and these wastes contribute to global climate change. Fruit and vegetables, are highly perishable biological materials contributed to the higher food waste compared to other commodity. Therefore, this paper identifies the potential utilization of abundance of seasonal crop, crop remains, and also by-products of fruit and vegetable using appropriate technologies for the conversion of food wastage into value added products. Both techniques can help to facilitate the effective food production to feed the world.

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Effects of operating factors on osmotic dehydration of broccoli stalk slices

Salim

Gariépy

Raghavan

2016

Cogent Food & Agriculture

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Design of Continuous Flow Osmotic Dehydration and its Performance on Mass Transfer Exchange During Osmotic Dehydration of Broccoli Stalk Slices

Salim

Gariépy

Raghavan

2016

Food Bioprocess Technol

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