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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Browning reaction in baked products

Haney, Harold Neil. January 1952 (has links)
Call number: LD2668 .T4 1952 H31 / Master of Science
2

Addition of xanthan gum, wheat starch, and water to angel food cake with a reduced egg white level

Miller, Louise Lynette January 2011 (has links)
Typescript (photocopy). / Digitized by Kansas Correctional Industries
3

Safety studies with proteolytic Clostridium botulinum in high-moisture bakery products packaged under modified atmospheres

Phillips, Daphne, 1956- January 2002 (has links)
Initial challenge studies with spores of proteolytic Clostridium botulinum types A and B (~104 spores/g) showed that while air- and gas-packaged English-style crumpets (aw 0.990) and pizza crust (aw 0.960) were toxic after 42-days storage at ambient temperature (25°C), no neurotoxin was detected in bagels (a w 0.944). Further challenge studies with similarly packaged crumpets inoculated with C. botulinum (~102 spores/g), pre- or post-baking, demonstrated that all crumpets were toxic within 4 to 6 days at 25°C and that toxigenesis preceded spoilage. Furthermore, reformulating crumpets to pH 8.3 and packaging in 100% CO2 had little effect in delaying the growth of C. botulinum compared to crumpets formulated to pH 6.5 and packaged in 60% CO2. / Subsequent studies were directed at determining the levels of additional barriers that could be used to ensure the safety of high-moisture MAP crumpets. While ethanol vapour proved to be an effective additional barrier in crumpets (100-g, [aw 0.990, pH 6.5]) challenged with ~102 spores/g of C. botulinum, spoilage preceded toxigenesis due to absorption of ethanol from the package headspace by crumpets. Modelling studies in Trypticase Peptone Glucose Yeast (TPGY) broth confirmed the anti-botulinal nature of ethanol and showed that a level of ~4% (vol/vol) could be used for complete inhibition of this pathogen, depending on the aw and pH of the growth medium. However, while ethanol vapour could be used to inhibit the growth of C. botulinum in high-moisture crumpets, its anti-botulinal efficacy was influenced by the method of crumpet leavening (yeast v chemical). / Preliminary studies were also done to assess the potential of mastic oil, a novel inhibitor, against C. botulinum. While direct and indirect application of ethanolic extracts of mastic oil inhibited the growth of C. botulinum in vivo, they failed to do so in crumpets.
4

Safety studies with proteolytic Clostridium botulinum in high-moisture bakery products packaged under modified atmospheres

Phillips, Daphne, 1956- January 2002 (has links)
No description available.
5

The effect of two mixtures containing lecithin on shortening qualities, palatability, and keeping qualities of certain baked products

Gordon, Barbara Eales January 2011 (has links)
Typescript, etc.
6

Sensory characteristics of low yolk sponge cakes with stabilizers

Lee, Su-Hwei Iris January 2011 (has links)
Digitized by Kansas Correctional Industries
7

The effect of the browning reation on stability of stored sugar cookies

Griffith, Thomas. January 1954 (has links)
LD2668 .T4 1954 G74 / Master of Science
8

Effect of flour particle size and emulsifiers on quality of cakes made with cake flour of varying extraction

Almana, Hassan Abdulaziz January 2011 (has links)
Typescript (photocopy). / Digitized by Kansas Correctional Industries
9

Effects of addition of mushroom dietary fiber on the physical properties of bakery and extruded products.

January 2009 (has links)
Cheung, Wing Kwun. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2009. / Includes bibliographical references (leaves 101-116). / Abstracts in English and Chinese. / Abstract --- p.i / 摘要 --- p.iii / List of Tables --- p.v / List of Figures --- p.viii / Chapter 1. --- Introduction --- p.1 / Chapter 1.1 --- Dietary fiber --- p.1 / Chapter 1.1.1 --- Introduction of dietary fiber --- p.1 / Chapter 1.1.2 --- Sclerotia of Pleurotus tuber-regium as a source of dietary fiber --- p.2 / Chapter 1.2 --- Bakery products --- p.3 / Chapter 1.2.1 --- Wheat --- p.3 / Chapter 1.2.2 --- Flour --- p.4 / Chapter 1.2.2.1 --- Flour protein --- p.4 / Chapter 1.2.2.2 --- Rheological test of flour quality --- p.5 / Chapter 1.2.3 --- Bread --- p.8 / Chapter 1.2.3.1 --- Ingredient --- p.8 / Chapter 1.2.3.2 --- Bread-making process --- p.10 / Chapter 1.2.4 --- Crackers and cookies --- p.12 / Chapter 1.2.5 --- Effect of addition of dietary fiber in bakery products --- p.14 / Chapter 1.3 --- Extrusion cooking --- p.18 / Chapter 1.3.1 --- Introduction of extrusion cooking --- p.18 / Chapter 1.3.2 --- Food extruders --- p.19 / Chapter 1.3.3 --- Application of extrusion --- p.21 / Chapter 1.3.4 --- Extrusion of starchy materials --- p.23 / Chapter 1.3.5 --- Effect of extrusion dietary fiber content --- p.24 / Chapter 1.3.6 --- Effect of extrusion on other nutritional properties --- p.26 / Chapter 1.4 --- Objectives --- p.28 / Chapter 2 --- Materials and Methods --- p.29 / Chapter 2.1 --- Mushroom powder --- p.29 / Chapter 2.2 --- Flour --- p.29 / Chapter 2.2.1 --- Crude protein content --- p.29 / Chapter 2.2.2 --- Moisture content --- p.30 / Chapter 2.2.3 --- Farinograph --- p.30 / Chapter 2.3 --- Bakery products --- p.31 / Chapter 2.3.1 --- Bread --- p.31 / Chapter 2.3.2 --- Crackers --- p.33 / Chapter 2.3.3 --- Cookies --- p.35 / Chapter 2.4 --- Extrudates --- p.36 / Chapter 2.5 --- Physical measurement --- p.37 / Chapter 2.5.1 --- Bread --- p.37 / Chapter 2.5.1.1 --- "Weight, volume and density" --- p.37 / Chapter 2.5.1.2 --- Hardness --- p.38 / Chapter 2.5.2 --- Crackers --- p.40 / Chapter 2.5.2.1 --- "Weight, dimensions and thickness" --- p.40 / Chapter 2.5.2.2 --- Volume --- p.40 / Chapter 2.5.2.3 --- Hardness --- p.40 / Chapter 2.5.2.4 --- Moisture --- p.41 / Chapter 2.5.3 --- Cookies --- p.42 / Chapter 2.5.3.1 --- "Weight, thickness and diameter" --- p.42 / Chapter 2.5.3.2 --- Hardness --- p.42 / Chapter 2.5.4 --- Extrudates --- p.43 / Chapter 2.5.4.1 --- Expansion ratio --- p.43 / Chapter 2.5.4.2 --- Density --- p.43 / Chapter 2.5.4.3 --- Hardness --- p.43 / Chapter 2.5.4.4 --- Water absorption index (WAI) --- p.43 / Chapter 2.5.4.5 --- Water solubility index (WSI) --- p.44 / Chapter 2.6 --- Dietary fiber content --- p.44 / Chapter 2.6.1 --- Preparation of samples --- p.44 / Chapter 2.6.2 --- "Total dietary fiber (TDF), Insoluble dietary fiber (IDF) and Soluble dietary fiber (SDF)" --- p.45 / Chapter 2.6.3 --- Protein and ash correction --- p.46 / Chapter 2.7 --- Nutritional evaluation of extrudates using rat model --- p.47 / Chapter 2.7.1 --- Determination of crude protein content in extrudates --- p.47 / Chapter 2.7.2 --- Diet preparation --- p.47 / Chapter 2.7.3 --- Feeding experiments --- p.50 / Chapter 2.7.4 --- Nitrogen balance experiment --- p.50 / Chapter 2.7.5 --- Determination of serum lipid profile --- p.51 / Chapter 2.7.5.1 --- Serum total triglyceride (TG) --- p.51 / Chapter 2.7.5.2 --- Serum total cholesterol (TC) --- p.51 / Chapter 2.7.5.3 --- Serum high-density lipoprotein cholesterol (HDL-C) --- p.52 / Chapter 2.8 --- Statistical analysis --- p.53 / Chapter 3 --- Results and Discussion --- p.54 / Chapter 3.1 --- MP-enriched flours --- p.54 / Chapter 3.1.1 --- Crude protein content of plain flour --- p.54 / Chapter 3.1.2 --- Moisture content of plain flour --- p.55 / Chapter 3.1.3 --- Farinograph of MP-enriched flours --- p.56 / Chapter 3.2 --- Physical characteristics of MP-containing bakery products --- p.59 / Chapter 3.2.1 --- MP-enriched bread --- p.59 / Chapter 3.2.1.1 --- "Weight, volume and density" --- p.59 / Chapter 3.2.1.2 --- Hardness --- p.61 / Chapter 3.2.2 --- MP-enriched crackers --- p.63 / Chapter 3.2.2.1 --- "Weight, dimensions and thickness" --- p.63 / Chapter 3.2.2.2 --- Volume --- p.65 / Chapter 3.2.2.3 --- Hardness --- p.66 / Chapter 3.2.3 --- MP-enriched cookies --- p.68 / Chapter 3.2.3.1 --- "Weight, thickness and diameter" --- p.68 / Chapter 3.2.3.2 --- Hardness --- p.70 / Chapter 3.2.4 --- Extrudates of MP-enriched pastry flour --- p.71 / Chapter 3.2.4.1 --- Expansion ratio --- p.71 / Chapter 3.2.4.2 --- Density --- p.75 / Chapter 3.2.4.3 --- Hardness --- p.75 / Chapter 3.2.4.4 --- Water absorption index (WAI) --- p.78 / Chapter 3.2.4.5 --- Water solubility index (WSI) --- p.80 / Chapter 3.2.4.6 --- Effect of extrusion condition on physical attributes of extrudates --- p.81 / Chapter 3.3 --- Dietary fiber content in MP-containing bakery products --- p.87 / Chapter 3.3.1 --- MP-enriched bread --- p.87 / Chapter 3.3.2 --- MP-enriched crackers --- p.88 / Chapter 3.3.3 --- MP-enriched cookies --- p.89 / Chapter 3.3.4 --- Extrudates produced form MP-enriched pastry flour --- p.90 / Chapter 3.4 --- Nutritional evaluation of extrudates using rat model --- p.93 / Chapter 3.4.1 --- Weight of animals --- p.93 / Chapter 3.4.2 --- Weight of vital organs --- p.93 / Chapter 3.4.3 --- Nitrogen balance experiment --- p.94 / Chapter 3.4.4 --- Serum lipid profile --- p.96 / Chapter 4 --- Conclusion --- p.98 / Chapter 5 --- References --- p.101
10

Reformulation packaging studies to delay staling in a bakery product

Assouad, Marie-Christine January 1996 (has links)
Bakery products are important sources of nutrients in our diet. However, spoilage occurs shortly after baking. After microbial spoilage, the main spoilage problem is staling. / Therefore, methods to control staling are of great importance to the bakery industry since staling results in millions of dollars annually in lost revenues. / Initial studies using a one variable at a time approach showed that enzymes, guar, algin and pectin gums and high fructose corn syrup could delay staling and resulted in an organoleptically acceptable product. Subsequent optimization studies using a Response Surface Methodology (RSM) approach show the appropriate levels of enzyme (Novamyl), guar gum and HFCS resulted in bagels with a textural and sensorial shelf life of 6 weeks at ambient temperature. / Furthermore, the cost of reformulating ($ sim$0.5 cent/bagel) is minimal and could easily be recovered through reduced production costs, reduced losses due to staling and additional sales and market areas.

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