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Dough Rheology and Baked Product Texture

Dough Rheology and Baked Product Texture
Author: H. Faridi
Publisher: Springer Science & Business Media
Total Pages: 609
Release: 2012-12-06
Genre: Technology & Engineering
ISBN: 1461308615
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Cereal chemists are interested in rheology because the dough undergoes some type of deformation in every phase of the conversion of flour into baked products. During mixing, dough is subjected to extreme deformations, many that exceed the rupture limit; during fermentation, the deformations are much smaller and therefore exhibit a different set of rheological properties; during sheeting and molding, deformations are at an intermediate level; and, finally, during proofing and baking, the dough is subjected to a range of deformations at varying temperatures. Accordingly, the application of rheological concepts to explain the behavior of dough seems a natural requirement of research on the interrelationships among flour constituents, added ingredients, process parameters, and the required characteristics of the final baked product. At any moment in the baking process, the rheological behavior, that is, the nature of the deformation, exhibited by a specific dough derives from the applied stress and how long the stress is maintained. The resulting deformation may be simple, such as pure viscous flow or elastic deformation, and therefore easy to define precisely. Moreover, under some conditions of stress and time (i. e. , shear rate), doughs behave as ideal materials and their behavior follows theory derived from fundamental concepts. Under usual conditions encountered in baking, however, the rheological behavior is far from ideal; shear rates vary widely and sample size and dimensions are ill-defined.

Investigating Dough Rheology and Texture Properties of Bakery Products Containing Soy Or Pulse Flours

Investigating Dough Rheology and Texture Properties of Bakery Products Containing Soy Or Pulse Flours
Author: Yiqin Zhang
Publisher:
Total Pages: 0
Release: 2021
Genre:
ISBN:
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Soybean and pulse flours are excellent source of various macro- and micro-nutrients, such as proteins, dietary fibers, minerals, and bioactive compounds associated with health benefits. They are becoming increasingly important to the food industry as product formulators and consumers are seeking nutritionally attractive ingredients. Fortification of cereal foods with pulse or soybean flour represents a promising approach to enhance their nutritional value, health benefits, and flavor profiles. However, the lack of gluten protein in these flours results in undesirable dough rheological properties and baked products with poor texture and other quality defects. This thesis is comprised of two studies that aimed to investigate and understand the effect of incorporating soybean or pulse flours on the dough properties and bakery product quality. In the first study, we investigated the effect of formulation (e.g., shortening, sugar, and water) and pretreatment of soy flour on dough properties and cookie texture in a gluten-free (GF) system. Cookies were formulated with composite flours containing commercial GF flour and original or pretreated soy flour (70/30). Reducing agents (cysteine, glutathione, and sodium sulfite) and protease (Flavourzyme) were used for soy flour pretreatment, respectively. The modified proteins were characterized by analyzing contents of free sulfhydryl and free amino group and SDS-PAGE profiles. Dough properties were measured using mixograph and texture analyzer. Cookie quality was determined by analyzing spread ratio, texture, color, and moisture content. Results showed that adding relatively higher amount of sugar, shortening, and water greatly increased cookie spread and improved cookie cracking pattern, though it also increased the stickiness of the dough. Pretreatment of soy flour with reducing agent or protease reduced protein molecular size, and thus, weakened the GF dough, which also led to increased cookie spread and better cracking pattern. In the second study, we investigated the effect of different types (yellow pea, green pea, red lentil, and chickpea) and amounts (0-25%) of whole pulse flours on whole wheat flour-based dough properties and bread quality. Pulse grains were ground using a Wiley mill to obtain whole pulse flour. Mixolab was used to analyze mixing and pasting properties of the whole wheat/pulse composite flours, and bread was characterized. Results showed that increasing the amount of pulse flour in the composite significantly weakened the dough and decreased dough viscosity due to a dilution of gluten proteins. Bread specific volume decreased, and hardness increased with higher amount of pulse flours. Among all the tested pulse flours, the composite flour containing yellow pea flour had overall better baking performances. This research demonstrated the potential of utilizing soybean and pulse flours for bakery applications. The knowledge will be useful for the industry in developing new gluten-free or fortified bakery products.

Technology of Breadmaking

Technology of Breadmaking
Author: Stanley P. Cauvain
Publisher: Springer Science & Business Media
Total Pages: 410
Release: 2007-05-20
Genre: Technology & Engineering
ISBN: 0387385657
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This practical guide illuminates all aspects of breadmaking. It provides a thorough understanding of the many new developments shaping the industry and offers detailed technical coverage of the complex processes that make bread and fermented products. It examines the nature of bread products, the role of the ingredients in determining their quality, processing methods and their control, and equipment functions. In addition, the book explores the contributions of individual components and processing stages to final bread quality. It also reviews the current state of technical knowledge on breadmaking.

Food Texture and Rheology

Food Texture and Rheology
Author: Philip Sherman
Publisher:
Total Pages: 478
Release: 1979
Genre: Technology & Engineering
ISBN:
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ABSTRACT: Twenty-six papers presented at a symposium for theInternational Union of Food Science and Technology, are included. Two categories of papers are offered: 1) critical reviews of present knowledge on specificied themes, and 2) unpublished data and theory. The papers' approaches are multidisciplinary. Topics included the 1) psychophysics of the sensory evaluation of textural properties; 2) instrumental evaluation of textural properties and common problems associated with measurement; 3) food processing aspects of food rheology; 4) rheological properties of vegetables proteins and their relevance to the preparation of meat extenders and substitutes; 5) the rheology and microstructure of baker's dough and baked products; and 6) the relationship between structure and rheological properties of commodities.

Advances in Baking Technology

Advances in Baking Technology
Author: B. S. KAMEL AND C. E. STAUFFER
Publisher: Springer
Total Pages: 423
Release: 2013-12-11
Genre: Technology & Engineering
ISBN: 1489972560
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Technology of Breadmaking

Technology of Breadmaking
Author: Stanley P Cauvain
Publisher: Springer Science & Business Media
Total Pages: 378
Release: 1995
Genre: Cooking
ISBN: 9780834216853
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Not another book on breadmaking! A forgiveable reaction given the length of time over which bread has been made and the number of texts which have been written about the subject. To study breadmaking is to realize that, like many other food processes, it is constantly changing as processing methodologies become increasingly more sophisticated, yet at the same time we realize that we are dealing with a food stuff, the forms of which are very traditional. We can, for example, look at ancient illustrations of breads in manuscripts and paintings and recognize prod ucts which we still make today. This contrast of ancient and modern embodied in a single processed foodstuff is part of what makes bread such a unique subject for study. We cannot, for example, say the same for a can of baked beans! Another aspect of the uniqueness of breadmaking lies in the requirement for a thorough understanding of the link between raw materials and processing meth ods in order to make an edible product. This is mainly true because of the special properties of wheat proteins, aspects of which are explored in most of the chapters of this book. Wheat is a product of the natural environment, and while breeding and farming practices can modify aspects of wheat quality, we millers and bakers still have to respond to the strong influences of the environment.

Bakery Products

Bakery Products
Author: Y. H. Hui
Publisher: John Wiley & Sons
Total Pages: 589
Release: 2008-02-28
Genre: Technology & Engineering
ISBN: 0470276320
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While thousands of books on baking are in print aimed at food service operators, culinary art instruction, and consumers, relatively few professional publications exist that cover the science and technology of baking. In Bakery Products: Science and Technology, nearly 50 professionals from industry, government, and academia contribute their perspectives on the state of baking today. The latest scientific developments, technological processes, and engineering principles are described as they relate to the essentials of baking. Coverage is extensive and includes: raw materials and ingredients, from wheat flours to sweeteners, yeast, and functional additives; the principles of baking, such as mixing processes, doughmaking, fermentation, and sensory evaluation; manufacturing considerations for bread and other bakery products, including quality control and enzymes; special bakery products, ranging from manufacture of cakes, cookies, muffins, bagels, and pretzels to dietetic bakery products, gluten-free cereal-based products; and specialty bakery items from around the world, including Italian bakery foods. Blending the technical aspects of baking with the freshest scientific research, Bakery Products: Science and Technology has all the finest ingredients to serve the most demanding appetites of food science professionals, researchers, and students.

Bread Making

Bread Making
Author: Stanley P. Cauvain
Publisher: Elsevier
Total Pages: 608
Release: 2003-08-31
Genre: Technology & Engineering
ISBN: 1855737124
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There has been a wealth of recent research on the complex changes involved in bread making and how they influence the many traits consumers use to define quality. Bread making: improving quality sums up this key research and what it means for improved process control and a better, more consistent product.After an introductory review of bread making as a whole part one discusses wheat and flour quality. Chapter 3 summarises current research on the structure of wheat, providing the context for chapters on wheat proteins (chapters 5 and 6) and starch (chapter 7). There are also chapters on ways of measuring wheat and flour quality, and improving flour for bread making. Part two reviews dough formation and its impact on the structure and properties of bread. It includes chapters on the molecular structure of dough, foam formation and bread aeration together with discussion of the role of key ingredients such as water. A final group of chapters then discusses other aspects of quality such as improving taste and nutritional properties, as well as preventing moulds and mycotoxin contamination.With its distinguished editor and international team of contributors, Bread making: improving quality is a standard work both for industry and the research community.