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OverviewFull Product DetailsAuthor: Jintian LiuPublisher: Springer International Publishing AG Imprint: Springer International Publishing AG Edition: 1st ed. 2023 Weight: 0.179kg ISBN: 9783031218514ISBN 10: 3031218515 Pages: 88 Publication Date: 04 January 2024 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: Manufactured on demand We will order this item for you from a manufactured on demand supplier. Table of Contents1. Introduction.- 1.1. Motivation.- 1.2. Aim of the present work.- 1.3. Outline.- 2. Background of cleaning in place.- 2.1. Heat treatment in the dairy production.- 2.2. Fouling and cleaning in the dairy production.- 2.2.1. Heat-induced formation of fouling deposits.- 2.2.2. The use of whey protein for experimental studies.- 2.2.3. Cleaning process for the fouled heating surface.- 2.3. The influence factors of cleaning in place.- 2.4. Cleaning mechanisms on the mechanical properties of protein deposits.- 3. Mechanical behaviour of heat-induced deposits.- 3.1. Mechanical behaviour of fouling deposits.- 3.1.1. Fouling experiments with raw milk and whey protein solution.- 3.1.2. Realisation of quasi-static and dynamic indentation experiments.- 3.1.3. Comparison of mechanical responses between milk and whey protein deposits.- 3.1.4. Influences of heat treatment on the mechanical behaviour of fouling deposits.- 3.2. Mechanical behaviour of whey protein gel.- 3.2.1. Gelation of whey protein solution with different heating conditions.- 3.2.2. Characterisation of fracture behaviour of WPG.- 3.2.3. Degradation of the WPG samples with NaOH solution.- 3.2.4. Characterisation of failure behaviour of WPG.- 4. Constitutive modelling and numerical simulation 69.- 4.1. Kinematics and balance equations.- 4.1.1. Kinematics of deformation.- 4.1.2. Stress tensors.- 4.1.3. Balance equation.- 4.2 Constitutive equations for protein deposits.- 4.2.1. One-dimensional generalised Maxwell model.- 4.2.2. Three-dimensional visco-hyperelastic model.- 4.2.3. Parameter identification through inverse finite element method.- 4.2.4. Application of modelling approaches.- 5. Conclusion and Outlook.ReviewsAuthor Information"Jintian Liu is a scientific assistant at the Institute of Machanics and Adaptronics (IMA, TU Braunschweig). Before finishing the dissertation in January 2022, Mr Liu was responsible for the research project ""Cleaning mechanisms of immerged systems"", which is supported by the Deutsche Forschungsgemeinschaft (DFG) and conducted in cooperation with the Institute for Chemical and Thermal Process Engineering (TU Braunschweig). He used the whey protein gel as a representative material model to study the mechanical properties which are relevant to the cleaning process. In addition, his work involves experimental and numerical characterization of the mechanical behaviour of milk fouling deposits. His research results were presented at the 90th Annual Meeting of the International Association of Applied Mathematics and Mechanics GAMM 2019 in Vienna. Besides the main research, Mr Liu has modelled the material behaviour of Elymus for the assessment of ecosystemservices and experimentally characterized the mechanical strength of polymerized ionic liquids used for drug delivery systems. Prior to his work at IMA, Mr Liu has finished the Dual Master's Degree Program supported by the German Academic Exchange Service (DAAD) under the cooperation between TU Braunschweig and Tongji University in Shanghai, China." Tab Content 6Author Website:Countries AvailableAll regions |