C. M. Navaratne scite author profile

Quality evaluation of the porous crumb structure of leavened baked goods, especially bread, has become a vast study area of which various research studies have been carried out up to date. Here is a brief review focusing on those studies with six main parts including porous crumb structure development, crumb cellular structure analysis, application of fractal dimension for evaluating crumb cellular structure, mechanical and sensorial properties of crumb structure, changes of porous crumb structure with staling, and modifications to obtain a well-developed porous crumb structure and retard staling. Development of the porous crumb structure mainly depends on dough ingredients and processing conditions. Hence, certain modifications for those factors (incorporating food hydrocolloids, emulsifiers, improvers, etc.) have been conducted by cereal sciences for obtaining well-developed porous crumb structure and retard staling. Several image analysis methods are available for analyzing microstructural features of porous crumb structure, which can directly affect the mechanical and sensorial properties of the final product. A product with a well-developed porous crumb structure may contain the property of higher gas retention capacity which results in a product with increased volume and reduced crumb hardness with appealing sensorial properties.

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Climate Change Impacts on Rice Farming Systems in Northwestern Sri Lanka

Zubair¹,

Nissanka²,

Weerakoon³

et al. 2015

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Application of DSSAT Crop Simulation Model to Identify the Changes of Rice Growth and Yield in Nilwala River Basin for Mid-centuries under Changing Climatic Conditions

Dias

Navaratne

Weerasinghe

et al. 2016

Procedia Food Science

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Carbon Footprint of an Organization: a Tool for Monitoring Impacts on Global Warming

Awanthi

Navaratne

2018

Procedia Engineering

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Improving porous crumb structure of rice‐related leavened food products by fermentation and gelatinization at slightly higher air pressure conditions

Rathnayake

Navaratne

2019

Journal of Texture Studies

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Porous crumb structure of rice‐related leavened food products developed under air pressure conditions during fermentation and gelatinization in a fabricated fermentation chamber were characterized. Therein, four samples were prepared under three pressurized conditions (sample pressurized by the leavened gas itself, 1 kg/cm2 initial pressure, 1.5 kg/cm2 initial pressure) along with a control (unpressurized). Crumb volume, specific volume, bulk density, pH as well as crumb texture profile and cellular structure were analyzed. Results revealed that fermentation and gelatinization under air pressure (slightly higher than the atmospheric air pressure) conditions in the fabricated fermentation chamber help to arrest leavening gas within the dough mass to improve the properties of porous crumb structure. Sample fermented and gelatinized at 1 kg/cm2 initial pressure presented better crumb mechanical and cellular structural properties compared to the other two pressurized samples and the control.

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C. M. Navaratne

Porous Crumb Structure of Leavened Baked Products

Climate Change Impacts on Rice Farming Systems in Northwestern Sri Lanka

Application of DSSAT Crop Simulation Model to Identify the Changes of Rice Growth and Yield in Nilwala River Basin for Mid-centuries under Changing Climatic Conditions

Carbon Footprint of an Organization: a Tool for Monitoring Impacts on Global Warming

Improving porous crumb structure of rice‐related leavened food products by fermentation and gelatinization at slightly higher air pressure conditions

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