London : , : IntechOpen, , 2023

1-83768-141-4

1 Online-Ressource (110 pages)

641.44

Food - Drying

Inglese

1. Introductory Chapter: A Comprehensive Review of the Versatile Dehydration Processes -- By Jelena D. Jovanovic and Borivoj K. Adnadjevic -- 2. Food Dehydration Recent Advances and Approaches -- By Sakhawat Riaz, Asifa Kabir, Aqsa Haroon, Anwar Ali and Muhammad Faisal Manzoor -- 3. A Review of Drying Methods Assisted by Infrared Radiation, Microwave and Radio Frequency -- By Nguyen Hay, Le Quang Huy and Pham Van Kien -- 4. Role of Food Microwave Drying in Hybrid Drying Technology -- By Bandita Bagchi Banerjee and Sandeep Janghu -- 5. Effects of Pretreatments with Ethanol and Ultrasound on Convective Drying of BRS Vitória Grapes -- By Nathalia Barbosa da Silva, Patrícia Moreira Azoubel and Maria Inês Sucupira Maciel -- 6. Summary of Investigations in Regard to the Kinetics of Absorbed Water Dehydration from Different Hydrogels -- By Jelena D. Jovanovic and Borivoj K. Adnadjevic.

This book provides a comprehensive overview of dehydration techniques. It includes six chapters that discuss various methods of food dehydration. Some of these processes include advanced drying methods that utilize microwaves, infrared radiation, and radio frequency, as well as techniques like hot air, vacuum, fluidized bed, and freeze-drying. Chapters explore the advantages and disadvantages of the various processes, including hybrid techniques that increase the efficiency of drying and improve the quality of the dried products. Other topics explored include the kinetics of hydrogel dehydration and pre-treatment processes such as those that utilize ultrasound.

: National Council on Radiation Protection and Measurements (NCRP)

1-5231-6335-6

612/.014480287

Dose-Response Relationship, Radiation

Radiometry - methods

Models, Statistical

Epidemiologic Studies

United States

Inglese

"Accurate exposure estimation in radiation epidemiologic studies is essential for reliable health risk assessment. Failure to account appropriately for uncertainties in dose estimation and model assumptions could lead to biased results in the evaluation of the radiation dose-response as well as incorrect confidence bounds for risk parameters. Assessment of absorbed dose is often subject to considerable uncertainties, and a variety of statistical approaches have been developed to incorporate dose uncertainties into the estimation and inference for the dose-response. The purpose of this Commentary is to provide a guide regarding available statistical methods for dose-response analysis that incorporate dose uncertain-ties, the types of studies to which the methods can be applied, and the advantages and disadvantages of the methods. This Commentary addresses studies of external and internal exposures and provides guidance on both shared and unshared uncertainty in the estimation of absorbed dose. Of particular interest are statistical methods for assessing dose-response

in epidemiologic studies of internal emitters, for which doses are calculated using exposure and retention models with many parameters. Each parameter is associated with various sources and amounts of uncertainty"--