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  • Author: Md. Nazmul Aunsary x
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Abstract

Carbohydrate & Protein Malnutrition is broadly perceived as, significant medical issue in the world due to cereal-based dietary examples. The protein nature of the cereal-based diet can be improved by fortification. Edible mushrooms are rich in protein, carbohydrate, minerals, other nutritive compounds. Fortification of mushroom in cookies helps improve cookies quality alongside fulfill nutrition demand. Powdered Mushrooms are one of these sources that have incredible potential. This paper surveys the impact of Button and Oyster mushroom powder on the rheological, physicochemical, textural and quality attributes of the cookies item. Mushrooms were cleaned in normal water and whitened with steam for 7 min, then sliced it for uniform size, dried the sliced mushrooms in a microwave oven at 55 °C, 120 min. Then transfer it powder form. Fortified 15% of mushroom powder improves baking period quality, cookies shape, protein, carbohydrate & nutrition value. Fortification range of up to 20% was tolerating in bakery products. Contingent upon the wholesome and tactile outcomes, it very well may be rea stoned that 15% mushroom strengthened with flour is worthy quality and it healthful better over locally accessible flours. The discoveries of the current investigation will be useful individuals experiencing a lack of healthy sustenance and other degenerative illnesses. Further, an expansion was noticed sure repulsive consequences for practically all quality parameters of the cookies which could decreased by the expansion of different modifiers and added substances so as get fantastic quality treats. That impact makes protein and Carbohydrate rich cookies later on.

Abstract

Carbon emission is the biggest problem all over the world. The actualizing of low carbon emission in the bread kitchen and dessert shop segment permits the difference in its mechanical procedure through the improvement of an eco-proficient framework. This study was to line up bread and cake with fully completely different wheat quality, baking time, and temperature through low carbon emission. The prepared samples were chemically analyzed for wet content, ash content, compound content, and organoleptic. Among the four processed cake products based on each parameter tested organoleptically, cupcake products were the most preferable one. Bread products made with substitution of 50% have been received by consumer panelists. The results of this study were also in line with the research conducted by which resulted in a substitution of spinach flour substitution of up to 60% still acceptable by panelists. Sponge cake from flour can still be received by panelists with 50% substitution. 12% of moisture will help 5 days’ self-life without chemical preservatives. The oven is the largest of the three consumers and typically accounts for between 35% and 45% of the total site carbon emissions. The dark cake pan, which holds in more heat than light-colored baking pans and bakes our cake batter faster. Considering that the most significant dark non-stick pan was suggested for baking low carbon emission, it will be reducing the baking temperature by 25° F. Good practice opportunities can be delivered for various plant/equipment utility serving could deliver on average a 10% saving in total CO2 emissions for the sector. This would speak to a CO2 decrease of 57 000 ton CO2 / year over the world.