Finite Element and Population Balance Models for Food-freezing Processes PDF Download
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Author: Mark J. Miller
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Energy consumption due to dairy production constitutes 10% of all energy usage in the U.S. Food Industry. Improving energy efficiency in food refrigeration and freezing plays an important role in meeting the energy challenges of today. Freezing and hardening are important but energy-intensive steps in ice cream manufacturing. This thesis presents a series of models to address these issues. The first step taken to model energy consumption was to create a temperature-dependent ice cream material using empirical properties available in the literature. The homogeneous ice cream material is validated using finite element analysis (FEA) and previously published experimental findings. The validated model is then used to study the efficiency of various package configurations in the ice cream hardening process. The next step taken is to consider product quality by modeling the ice crystal size distribution (CSD) throughout the hardening process. This is achieved through the use of population balance equations (PBE). Crystal size and corresponding hardened ice cream coarseness can be predicted through the PBE model presented in this thesis. The crystallization results are validated through previous experimental study. After the hardening studies are presented, the topic of continuous freezing is discussed. The actual ice cream continuous freezing process is inherently complex, and therefore simplifying assumptions are utilized in this work. Simulation is achieved through combined computational fluid dynamics (CFD) and PBE modeling of a sucrose solution. By assuming constant fluid viscosity, a two-dimensional cross section is able to be employed by the model. The results from this thesis provide a practical advancement of previous ice cream simulations and lay the groundwork for future studies.
Author: Mark J. Miller
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Book Description
Energy consumption due to dairy production constitutes 10% of all energy usage in the U.S. Food Industry. Improving energy efficiency in food refrigeration and freezing plays an important role in meeting the energy challenges of today. Freezing and hardening are important but energy-intensive steps in ice cream manufacturing. This thesis presents a series of models to address these issues. The first step taken to model energy consumption was to create a temperature-dependent ice cream material using empirical properties available in the literature. The homogeneous ice cream material is validated using finite element analysis (FEA) and previously published experimental findings. The validated model is then used to study the efficiency of various package configurations in the ice cream hardening process. The next step taken is to consider product quality by modeling the ice crystal size distribution (CSD) throughout the hardening process. This is achieved through the use of population balance equations (PBE). Crystal size and corresponding hardened ice cream coarseness can be predicted through the PBE model presented in this thesis. The crystallization results are validated through previous experimental study. After the hardening studies are presented, the topic of continuous freezing is discussed. The actual ice cream continuous freezing process is inherently complex, and therefore simplifying assumptions are utilized in this work. Simulation is achieved through combined computational fluid dynamics (CFD) and PBE modeling of a sucrose solution. By assuming constant fluid viscosity, a two-dimensional cross section is able to be employed by the model. The results from this thesis provide a practical advancement of previous ice cream simulations and lay the groundwork for future studies.
Author: Hadi Karia Purwadaria
Publisher:
ISBN:
Category : Frozen foods
Languages : en
Pages : 346
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Author: Q. Tuan Pham
Publisher: Springer
ISBN: 1493905570
Category : Technology & Engineering
Languages : en
Pages : 163
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Book Description
Freezing time and freezing heat load are the two most important factors determining the economics of food freezers. This Brief will review and describe the principal methods available for their calculation. The methods can be classified into analytical methods, which rely on making physical simplifications to be able to derive exact solutions; empirical methods, which use regression techniques to derive simplified equations from experimental data or numerical calculations and numerical methods, which use computational techniques such as finite elements analysis to solve the complete set of equations describing the physical process. The Brief will evaluate the methods against experimental data and develop guidelines on the choice of method. Whatever technique is used, the accuracy of the results depends crucially on the input parameters such as the heat transfer coefficient and the product's thermal properties. In addition, the estimation methods and data for these parameters will be reviewed and their impacts on the calculations will be evaluated. Freezing is often accompanied by mass transfer (moisture loss, solute absorption), super cooling and nucleation and may take place under high pressure conditions; therefore methods to take these phenomena into account will also be reviewed.
Author: Hussein Osman Abdalla
Publisher:
ISBN:
Category : Finite element method
Languages : en
Pages : 310
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Author: Mark Nicmanis
Publisher:
ISBN:
Category :
Languages : en
Pages :
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Author: Grant Campbell
Publisher: Elsevier
ISBN: 0128104597
Category : Technology & Engineering
Languages : en
Pages : 464
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Book Description
Bubbles give novelty and distinctiveness to many food and drink products including the most important and interesting ones such as bread, beer, ice cream, whipped cream, soufflés and champagne. Understanding the creation and control of bubbles in food products is key to the success of the domestic chef or the industrial food manufacturer. This new volume presents the proceedings of the conference Bubbles in Food 2: Novelty, Health and Luxury. This book is fully updated and expanded from the original Bubbles in Food book published in 1999. This new title brings together up-to-date information on the latest developments in this fast moving area. Bubbles in Food 2 includes novel experimental techniques for measuring and quantifying the aerated structure of foods (e.g. ultrasonics, MRI imaging, X-ray tomography, microscopy, rheology, image analysis), and novel analytical approaches for interpreting aerated food properties and behavior. These techniques and approaches provide stimulus for new product development or for enhancing the understanding of the manufacture of existing products, leading to enhanced quality and greater product differentiation. Bubbles in Food 2: Novelty, Health and Luxury aims to enhance the appreciation of aerated foods and to provide stimulation and cross fertilisation of ideas for the exploitation of bubbles as a novel and versatile food ingredient.
Author: P. Barreiro
Publisher:
ISBN:
Category : Agri-food chain
Languages : en
Pages : 452
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Author:
Publisher:
ISBN:
Category : Hydrology
Languages : en
Pages : 952
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Author:
Publisher:
ISBN:
Category : Dissertations, Academic
Languages : en
Pages : 598
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Author:
Publisher:
ISBN:
Category : Aquatic biology
Languages : en
Pages : 330
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