Engineering Aspects of Thermal Food Processing
Coordonnateur : Simpson Ricardo
Access the Latest Advances in Food Quality Optimization and Safety Assurance
Thermal processing has undergone a remarkable amount of research throughout the past decade, indicating that the process not only remains viable, but that it is also expanding around the world.
An organized exploration of new developments in academic and current food industry practices, Engineering Aspects of Thermal Food Processing presents groundbreaking advances in the physical and engineering aspects of thermal food processing, paying particular attention to modeling, simulation, optimization, online control, and automation.
Divided into Four Cohesive Sections
Under the editorial guidance of a leading thermal processing authority, the book first covers the fundamentals and new processes in the thermal processing industry, including new packaging materials like retortable pouches. The second section moves on to mathematical modeling and simulation, which also addresses emerging preservation technology such as ohmic heating.
The third section of the book is devoted to optimization, recognizing that mathematical optimization is the key ingredient for computing optimal operating policies and building advanced decision support systems. This section discusses processes like thermal sterilization, microwave processing, and in-line aseptic processing as well as an analysis of plant production productivity. The final section examines online control and automation describing a practical and efficient strategy for on-line correction of thermal process deviations during retort sterilization of canned foods.
Concluding with expert analysis and discussion of the manufacturers? businesses in today?s competitive marketplace, Engineering Aspects of Thermal Food Processing explores the entire processing line from model
Date de parution : 09-2019
15.6x23.4 cm
Date de parution : 06-2009
Ouvrage de 500 p.
15.6x23.4 cm
Thème d’Engineering Aspects of Thermal Food Processing :
Mots-clés :
Heat Transfer Coeffi Cient; Retort Temperature; Microbial Inactivation; Ohmic Heating; Hp Test; Compression Heating; Ann; Thermophysical Properties; Aseptic Processing; Online Correction; Fi Rst Order Kinetics; Convective Heat Transfer Coeffi Cient; HPP; Aseptic Tank; High Pressure Vessel; Abdul Ghani; Process Time; Finite Difference Method; Holding Tube; Ordinary Differential Equality; RTD; Temperature Profi Le; Macroscopic Model; Retort Pouches; Plate Heat Exchangers