Written for the upper level undergraduate, this updated book is also a solid reference for the graduate food engineering student and professional. This edition features the addition of sections on freezing, pumps, the use of chemical reaction kinetic date for thermal process optimization, and vacuum belt drying. New sections on accurate temperature measurements, microbiological inactivation curves, inactivation of microorganisms and enzymes, pasteurization, and entrainment are included, as are non-linear curve fitting and processes dependent on fluid film thickness. Other sections have been expanded.
Written for the upper level undergraduate, Fundamentals of Food Process Engineering is also a solid reference for the graduate food engineering student and professional. The book has been thoroughly updated, and contains new and re-organized sections.
Since the publication of the ?rst edition in 1981 and the second edition in 2001, this textbook has been widely adopted for Food Engineering courses worldwide. The author expresses his gratitude to colleagues who have adopted this textbook and to those who have made constructive criticisms on the material. This new edition not only incorporates changes suggested by colleagues, but additional material has been added to include facilitated problem solving using a computer, and new food processing and food product technologies. New sections have been added in most of the chapters re?ecting the current state of the technology. The expanded coverage may result in not enough time available in a school term to cover all areas; therefore, instructors are advised to carefully peruse the bookandselectthemostappropriatesectionstocoverinaschoolterm. Theadvantageoftheexpanded coverage is the elimination of the need for a supplementary textbook. The success of this textbook has been attributed to the expansive coverage of subject areas speci?ed intheInstituteofFoodTechnologistsmodelcurriculumforfoodscl£t