When a Division One coach comes to their smaller school to bring the football program up to contender status, Moose and the rest of the players on the team are pumped. Coach Barnes has new ideas and a vision for the future—nothing is too good for his players. With a new training regimen, everything seems to be on a winning track. But when Moose and others are offered steroids, tempers start to fray and the teammates have to decide whose side they are on. Juice is a compelling story about the pressures and temptations that are faced by many in the competitive world of high-school athletics. This short novel is a high-interest, low-reading level book for teen readers who are building reading skills, want a quick read or say they don’t like to read! The epub edition of this title is fully accessible.
The ability to provide quality juices that contain proper vitamins and nutritional components strongly depends on the processes fruits undergo during the various stages of industrial manufacturing. New technologies have been developed to help ensure the production of quality juices without neglecting safety. Covering both new approaches to traditio
Gain in-depth information and dietary tips targeting specific conditions. Learn juicing remedies, backed by scientific data and extensive research, to treat everything from allergies to water retention.
While large-scale juice processing is the subject of many textbooks, this publication aims at the gap in information regarding juice processing at the small-and medium-scale agro-industry level. It presents technical and economic information designed to address issues affecting medium-size juice processors in developing countries.
Lose weight and feel great with juicing and smoothies For those of us who don't have time to cut up or cook fruits and vegetables with every meal, juices and smoothies are a fast and easy way to consume them at home or on the go. Packed with over 100 recipes, Juicing & Smoothies For Dummies covers the most up-to-date information on incorporating this healthy lifestyle into your everyday routine. From how to safely cleanse the body of toxins to the hottest ingredients to bolster juices and smoothies—including chia seeds, coconut oil, hemp seeds, bee pollen, and more—it arms you with everything you need to sip your way to a healthier, happier you. There are many health benefits to drinking freshly juiced fruits and vegetables. These tasty and nutrition-packed beverages can help protect you against cardiovascular disease, cancer, cellular damage, and various inflammatory diseases, such as rheumatoid arthritis. Plus, it's great for weight loss because juices and smoothies have hunger-reducing properties, on top of being filling. In this friendly and accessible guide, you'll find expert guidance on how to use juices and smoothies to reap all of these excellent rewards, while getting the recommended daily amount of fruits and vegetables—in a glass! Concoct more than 120 juicing and smoothie recipes using the hottest, most nutritious ingredients Find the best juicers and blenders for the job Ward off colds and migraines, promote longevity, and shed pounds Get a month's worth of grocery items to have on hand to make healthy juices and smoothies in minutes Whether you want to lose weight, cleanse, or simply add more healthy fruits and veggies to your diet, Juicing & Smoothies For Dummies makes it easy.
Physical and chemical interactions between various constituents of foods resulting from processing operations often lead to physical, sensory, and nutritional changes in the properties of foods. Answering the need for a resource in this area, this volume describes the effects of various processing technologies in different food processing situations. A first part looks at the physicochemical property changes of different foods undergoing selected processes, such as drying, extrusion, microencapsulation, and microwave assisted thermal processing. The second part focuses on the changes of physicochemical properties of different products, such as seafood, meat, and confectionary products.
Processing and Impact on Antioxidants in Beverages presents information key to understanding how antioxidants change during production of beverages, how production options can be used to enhance antioxidant benefit, and how to determine the production process that will result in the optimum antioxidant benefit while retaining consumer acceptability. In the food industry, antioxidants are added to preserve the shelf life of foods and to prevent off-flavors from developing. These production-added components also contribute to the overall availability of essential nutrients for intake. Moreover, some production processes reduce the amount of naturally occurring antioxidants. Thus, in terms of food science, it is important to understand not only the physiological importance of antioxidants, but what they are, how much are in the different food ingredients, and how they are damaged or enhanced through the processing and packaging phases. This book specifically addresses the composition and characterization of antioxidants in coffee, green tea, soft drinks, beer, and wine. Processing techniques considered here include fermentation and aging, high-pressure homogenization, enzymatic debittering, and more. Lastly, the book considers several selective antioxidant assays, such as Oxygen Radical Absorbance Capacity (ORAC) and Trolox Equivalent Antioxidant Capacity (TEAC) assays. - Provides insights into processing options for enhanced antioxidant bioavailability - Presents correlation potentials for increased total antioxidant capacity - Includes methods for the in situ or in-line monitoring of antioxidants to reduce industrial loss of antioxidants in beverages - Proposes processing of concentrated fractions of antioxidants that can be added to foods
Novel food processing technologies have significant potential to improve product quality and process efficiency. Commercialisation of new products and processes brings exciting opportunities and interesting challenges. Case studies in novel food processing technologies provides insightful, first-hand experiences of many pioneering experts involved in the development and commercialisation of foods produced by novel processing technologies.Part one presents case studies of commercial products preserved with the leading nonthermal technologies of high pressure processing and pulsed electric field processing. Part two broadens the case histories to include alternative novel techniques, such as dense phase carbon dioxide, ozone, ultrasonics, cool plasma, and infrared technologies, which are applied in food preservation sectors ranging from fresh produce, to juices, to disinfestation. Part three covers novel food preservation techniques using natural antimicrobials, novel food packaging technologies, and oxygen depleted storage techniques. Part four contains case studies of innovations in retort technology, microwave heating, and predictive modelling that compare thermal versus non-thermal processes, and evaluate an accelerated 3-year challenge test.With its team of distinguished editors and international contributors, Case studies in novel food processing technologies is an essential reference for professionals in industry, academia, and government involved in all aspects of research, development and commercialisation of novel food processing technologies. - Provides insightful, first-hand experiences of many pioneering experts involved in the development and commercialisation of foods produced by novel processing technologies - Presents case studies of commercial products preserved with the leading nonthermal technologies of high pressure processing and pulsed electric field processing - Features alternative novel techniques, such as dense phase carbon dioxide, ozone, ultrasonics, cool plasma, and infrared technologies utilised in food preservation sectors
In the period of about five years since the first edition of this book appeared, many changes have occurred in the fruit juice and beverage markets. The growth of markets has continued, blunted to some extent, no doubt, by the recession that has featured prominently in the economies of the major consuming nations. But perhaps the most significant area that has affected juices in particular is the issue of authenticity. Commercial scandals of substantial proportions have been seen on both sides of the Atlantic because of fraudulent practice. Major strides have been made in the development of techniques to detect and measure adulterants in the major juices. A contri bution to Chapter 1 describes one of the more important scientific techniques to have been developed as a routine test method to detect the addition of carbohydrates to juices. Another, and perhaps more welcome, development in non-carbonated beverages during the past few years is the rapid growth of sports drinks. Beverages based on glucose syrup have been popular for many years, and in some parts of the world isotonic products have long featured in the sports arena. A combination of benefits is now available from a wide range of preparations formulated and marketed as sports drinks and featuring widely in beverage markets world-wide. A new chapter reviews their formulation and performance characteristics. Another major trend in the area of fruit-containing non-carbonated bever ages is the highly successful marketing of ready-to-drink products.
Intelligent agriculture is the inevitable trend of future agriculture. As the brain of intelligent agriculture, advanced sensors determine the degree of agricultural environment and crop perception. However, an outstanding problem is the long-standing lack of effective sensing and monitoring tools in agriculture. Most information still relies on time-consuming and complex laboratory analysis and can only be off-line measured. Therefore, in-situ, on-line and sensitive methods for monitoring information about the agricultural environment and crops are urgently needed. With the development of material science, manufacturing technology and spectroscopy, more and more fast and high-precision spectroscopic methods and sensors are applied in the agricultural environment, livestock breeding and crop. Especially with the development of spectral enhancement, image processing and deep learning techniques, the study of the advanced spectroscopic methods to rapidly and precisely detect heavy metals and nutrients in the soil, harmful gas, water pollutant and crop stress will reduce the probability of subjective error judgment and improves agricultural management and production efficiency. Application of spectroscopy in an agricultural environment and livestock breeding is a research topic of Frontiers in Physics that publishes original research on the field of agricultural physics. And the aim of this research topic is to explore novel and groundbreaking spectroscopic methods to rapidly and in-situ detect information about the agricultural environment, livestock breeding and crop stress, which could be beneficial in the development of Intelligent agriculture.
