The Best of Hard Times explores the gendered identities of two generations of men in the Shatila Palestinian refugee camp in Beirut. Gustavo Barbosa compares the fida’iyyin, the men who served as freedom fighters to reconquer Palestine in the 1970s, to the shabab, their sons who lead seemingly mundane lives with limited access to power. While the fida’iyyinn displayed their masculinity through active resistance and fighting to return to their homeland, the shabab have a more nuanced relationship to Palestine and articulate their gender belonging in alternative ways. Through vivid ethnographic stories, Barbosa critically engages with certain trends in feminism, calling attention to their limits and considering nimble views on gender. Instead of presenting the shabab as emasculated or experiencing a crisis of masculinity, the book shows the pliability of masculinity in time and space and argues that "gender" has limited purchase to capture the experiences of today’s youth from Shatila. Based on two years of fieldwork, The Best of Hard Times answers the burgeoning demand for anthropological literature on Arab masculinities and portrays refugees as inventive actors rather than agentless victims of circumstances beyond their control. The Best of Hard Times is a tour de force combining highbrow theory with gripping ethnography, challenging many of the stereotypes on gender, power, statehood, and the role of Islam in the Middle East.
Traditional food and bioprocessing technologies are facing challenges due to high expectation from the consumers and producers for better quality and safety, higher process efficiency, and products with novel properties or functionalities. For this reason, in the last few years new forms of physical energies have been explored to propose alternatives to traditional processing technologies. Acoustic energy has the potential to replace or partially substitute conventional processes, and at the same time offer unique opportunities in the characterization of foods and biomaterials. This book is a resource for experts and newcomers in the field of power ultrasound, gives insights into the physical principles of this technology, details the latest advancements, and links them to current and potential applications in the food and bioprocessing related industries.
This useful reference is the first book to address key aspects of food powder technology. It assembles organized and updated information on the physical properties, production, and functionality of food powder, previously unavailable in book form.
Consumer expectations are systematically growing, with demands for foods with a number of attributes, which are sometimes difficult for manufacturers to meet. The engineering processes that are needed to obtain top-quality foods are a major challenge due to the diversity of raw materials, intermediates, and final products. As in any other enterprise, the food industry must optimize each of the steps in the production chain to attain the best possible results. There is no question that a very important aspect to take into consideration when developing a process, designing a food factory, or modifying existing facilities is the in-depth knowledge of the basic engineering aspects involved in a given project. Introduction to Food Process Engineering covers the fundamental principles necessary to study, understand, and analyze most unit operations in the food engineering domain. It was conceived with two clear objectives in mind: 1) to present all of the subjects in a systematic, coherent, and sequential fashion in order to provide an excellent knowledge base for a number of conventional and unconventional processes encountered in food industry processing lines, as well as novel processes at the research and development stages; 2) to be the best grounding possible for another CRC Press publication, Unit Operations in Food Engineering, Second Edition, by the same authors. These two books can be consulted independently, but at the same time, there is a significant and welcomed match between the two in terms of terminology, definitions, units, symbols, and nomenclature. Highlights of the book include: Dimensional analysis and similarities Physicochemistry of food systems Heat and mass transfer in food Food rheology Physical properties Water activity Thermal processing Chilling and freezing Evaporation Dehydration Extensive examples, problems, and solutions
Contains information on post-harvest handling and marketing operations and storage of fresh and processed products. Highlights technology which, when combined, has a positive and synergistic effect in preventing biochemical and physicochemical reactions and microbial growth - the main causes of quality losses in fruits and vegetables. Suggested methodologies combine technologies such as mild heat treatment, water activity reduction, lowering of the pH and use of anti-microbial substances to realize the potential of minimally processed, high-moisture fruit products. These relatively new technologies have been successfully applied to several important tropical and non-tropical fruits in different countries of Latin America.
This much-needed account of the physical, chemical and biological aspects of water in foods and its relation to dehydration is the first of its kind. Changes occurring in during the dehydration process are characterized, followed by the indentification of the different stages during drying, the simultaneous heat and mass transfer mechanisms and moisture migration theories. Finally, dehydration methods commonly used in food processes are discussed in detail. 134 line illustrations. 11 halftones.
Written by four experts actively researching alternatives to conventional thermal methods in food preservation. Presents information on traditional and emerging nonthermal food processing technologies in a convenient, single-source volume--offering an incisive view of the latest experimental results, state-of-the-art applications, and new developments in food preservation technology. Furnishes a thorough review of nonthermal techniques such as high hydrostatic pressure, pulsed electric fields, oscillating magnetic fields, light pulses, ionizing irradiation, the use of chemicals and bacteriocins as preservation aids, and combined methods/hurdle technology.
Preservation of Foods with Pulsed Electric Fields discusses the basics of high voltage PEF as a low temperature food processing method, and the application of this technology in food preservation. This technology is attracting a great deal of interest around the world because it is more cost effective than conventional systems due to the conservative nature of PEF. This book thoroughly covers the electrical and food engineering aspects, as well as the food science components (i.e. food microbiology, enzyme inactivation kinetics, and sensory evaluation).
Traditional food and bioprocessing technologies are facing challenges due to high expectation from the consumers and producers for better quality and safety, higher process efficiency, and products with novel properties or functionalities. For this reason, in the last few years new forms of physical energies have been explored to propose alternatives to traditional processing technologies. Acoustic energy has the potential to replace or partially substitute conventional processes, and at the same time offer unique opportunities in the characterization of foods and biomaterials. This book is a resource for experts and newcomers in the field of power ultrasound, gives insights into the physical principles of this technology, details the latest advancements, and links them to current and potential applications in the food and bioprocessing related industries.
In order to successfully produce food products with maximum quality, each stage of processing must be well-designed. Unit Operations in Food Engineering systematically presents the basic information necessary to design food processes and the equipment needed to carry them out. It covers the most common food engineering unit operations in detail, in
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