Food3010Food Preservation Chemical Sciences 代写

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  • Food3010Food Preservation  Chemical Sciences 代写

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    School of Chemical Sciences and Engineering
    Food3010Food Preservation:
    Principles and Application
    SESSION 1, 2017
    Contents
    General Course Information  2
    Student Learning Outcomes  3
    Assessment  3
    Course Schedule  4
    Resources for Students  4
    Teaching Strategies  6
    The rationale behind the approach to learning and teaching  6
    Academic Honesty and Plagiarism  7
    Course Evaluation and Development  8
    Other Matters  8
    Course Staff
    Staff
    Contact  Consultation
    A/Prof. Jian Zhao
    jian.zhao@unsw.edu.au
    Chemical Sciences Building, room 814
    Via email or by
    appointment
    Associate Professor Zhao is the course coordinator and primary contact in relation to any
    questions you may have regarding the course. There will be one or two tutors appointed
    for this course, and you may contact them for matters related to the technical content of
    the lectures and tutorials and marking of the quizzes.
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    General course information
    Outline and aims
    This course is designed to give the student an appreciation of the technologies involved
    in the preservation and processing of major food commodities. Specifically, this course
    investigates the characteristics, preservation and processing of meat, cereals, milk,
    eggs, sugar, marine products, fruit and vegetables, fats and oils, coffee and tea, and
    products made from these commodities. These commodities and their products
    constitute the core sectors of the food industry. Furthermore, this course will also
    investigate the principles and application of the major food preservation methods
    including heat and cold processing, dehydration, chemical preservation and hurdle
    technology.
    The overall aim of this course is to provide the student a sound knowledge of the
    technologies involved in the handling, preservation and processing of the commodities
    and their products. More specifically, our aims are:
    •  to examine the properties and processing characteristics of the main components
    of major food commodities;
    •  to study methods and techniques used in the food industry for extending the
    storage and/or shelf-life of these commodities;
    •  to study methods and equipment used in commercial operations for
    manufacturing food products based on these commodities; and
    •  to investigate factors influencing organoleptic and keeping qualities of the
    commodities and their products.
    Requisite knowledge and relationships to other courses
    In designing this course, it is assumed that the student is familiar with the basic
    elements of food chemistry (e.g. structures and properties of protein, carbohydrate, and
    lipid) and food microbiology (e.g. properties of major groups of food poisoning and
    spoilage organisms) and the basic principles of unit operations in food processing (e.g.
    mass and energy transfer, freezing, drying, etc.). These will be frequently referred to,
    but will not be repeated in this course. If students encounter difficulties in understanding
    these concepts, they are advised to review them by consulting appropriate texts.
    This course runs concurrently with Food3020/8020 Food Technology Laboratory, in
    which students will make and assess the quality of a number of foods and food
    ingredients. By doing so, students will reinforce the concepts they have learnt in this
    course and gain ‘hands-on’ experience in aspects of food technology relevant to the
    processing of food commodities.
    Target students and career prospects
    This is a core course of program 3060, the 4-year program in Food Science and
    Technology, the general Bachelor of Science program (major in Food Science and
    Nutrition) and the MAppSc (Food Science and Technology) program. However, it may
    also be of interest to students from a diversity of programs such as nutrition, dietetics
    and industrial chemistry.
    Course Details
    This is a 6UOC course taught concurrently with Food3020, with average contact of 4HPW
    including lecture classes and tutorial sessions.
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    Student Learning Outcomes
    Acquire a sound knowledge of the characteristics, preservation and processing of major food commodities
    S1: Understanding of discipline in interdisciplinary
    context
    Students are assessed based on their depth of
    knowledge in the chemistry, microbiology, processing
    and preservation of major food commodities.
    PE1.3: In-depth knowledge of discipline
    Describe the major factors that can affect the quality of the commodities and their products
    S4: Able to apply knowledge & skill to problem
    solving
    Students are assessed based on their depth of
    understanding of the intrinsic and extrinsic factors
    that can affect the quality of major food commodities
    and their products
    PE1.1: Comprehensive theory-based
    understanding
    Explain the principles of major food preservation methods and apply the principles in “real world” situations
    S2: Capable of independent & collaborative
    enquiry
    Students are required to study the reading materials
    on their own
    PE3.3: Creative, innovative & proactive
    demeanour
    Exercise critical judgment with respect to scientific information
    S7: Information literate  Students are required to submit a major literature
    review as part of the assessment
    PE3.4: Professional use & management of
    information
    Communicate scientific information in a specific style
    S6: Capable of effective communication  Students are required to submit a major literature
    review as part of the assessment
    PE3.2: Effective oral & written communication
    Assessment
    WARNING: THIS COURSE REQUIRES YOU TO MEET TWO CRITERIA TO PASS. MAKE
    SURE YOU READ THIS SECTION VERY CAREFULLY.
    Item  Marks Due Date  Rationale and Assessment Criteria
    Class quizzes*  20  Week 5 & 10  There will be two class quizzes, each of approximately 30-40 min,
    which will consist mostly of simple short-answer questions, based
    on the lectures. It is designed to engage you with the content in
    the technical lectures themselves, and complement other
    learning activities that extend from the lecture material.
    Tutorial
    quizzes
    10  Week 3, 7, 9
    and 11
    There will be 4 tutorial quizzes, each of about 15-20 min, which
    will consist of simple answer questions, based on lecture and
    tutorials. They are designed to encourage you to participate in
    tutorials and engage you with the content in the lectures and
    tutorials themselves.
    Literature
    review
    20  Week 11  Information retrieval, processing, interpretation and
    summarisation are a crucial set of skills for a food technology
    graduate. These skills are essential in the professional
    undertakings in the food industry. This assessment item is
    designed to develop as well as to assess your ability in these
    skills. It forms an integral part of the learning strategies for this
    course.
    You are required to submit a literature review of approximately
    5,000 words on one of the following topics:
    • Antioxidants in tea (or coffee, chocolate, fruit and vegetables)
    and their potential health benefits
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    • Recent advances in the processing of whey proteins
    • Recent advances in non-thermal food processing technologies
    • Safety and quality issues associated with minimally processed
    fruits and vegetables
    • Recent advances in meat tenderisation techniques
    • Recent advances in the manufacture of gluten free bread
    • Recent development in the assessment of cereal and flour
    quality
    Assessment is based on the depth of understanding of the topic as
    evidenced by linking ideas together, and on the breadth of
    original literature cited in the review. Students are reminded not
    to copy sections from books, reviews or other published sources.
    This is plagiarism and will result in penalty in accordance with the
    University’s anti-plagiarism policy. Students should also not rely
    heavily on paraphrasing, which is a form of plagiarism and will
    result in severe reductions in marks.
    More information on the assignment including a tutorial on
    literature review will be given during lectures.
    Final exam*  50  Exam period  A final exam is given because the course learning outcomes
    include a significant level of technical learning which can be
    effectively assessed in an exam environment and because exams
    have high reliability. It is primarily designed to align with UNSW
    graduate attributes 2 and 3. The final examination is designed to
    assess your knowledge and ability in the following three crucial
    areas: your familiarity with the basics of the food commodities
    and their products; your depth of knowledge of the fundamental
    concepts covered in the course and your ability to integrate these
    concepts into short essays and to discuss the relevant issues in a
    clear and concise manner.
    100  Total marks for the course
    IMPORTANT NOTE: To pass the course, you must meet two criteria as follows:
    1. Your total marks for the course, calculated by summing all component marks,
    must be at least 50; and
    2. You must achieve at least 46% in the final exam.
    Furthermore, there are may be additional questions in the Quizzes and Final Exam
    for postgraduate students.
    Lecture Schedule
    Week  Tue 12 – 2 pm
    Old Main Building 229
    Friday 3 - 5 pm
    Red Centre Theatre
    1
    Introduction to the Course
    Cereals 1
    Cereals 2
    2
    Cereals 3  Fruit and Vegetables 1
    3
    Fruit and Vegetables 2  Fruit and Vegetables 3
    4
    Dairy 1
    Dairy 2
    5 Dairy 3
    Eggs
    Mid-session quiz 1
    6
    Fats and oils Sugar
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    7
    Soybeans, tea, coffee, cocoa  Meat 1
    14 - 23 April  Mid-session break
    8
    Meat 2  Meat 3
    9 Marine Products  Preservation 1
    Principles
    10 Preservation 2
    Thermal processing
    Preservation 3
    Thermal processing
    Mid-session quiz 2
    11
    Preservation 4
    Low temperature
    Preservation 5
    Chemical preservatives
    12
    Preservation 6
    Traditional and new technologies
    Review
    Resources for Students
    REQUIRED: Potter and Hotchkiss, Food Science, Edn V, Aspen 1998.
    There is no single textbook that covers all the material given in this course. The above
    text is one of few available that come closest to meet the requirements. It has a good
    coverage of the basic information of the course material but lacks depth in a number of
    topics. To compensate for the shortcomings, a comprehensive list of reading material is
    provided as follows.
    Cereal science and technology
    Delcour, J.A. & Hoseney, R.C. 2009. Principles of Cereal Science and Technology. AACC
    International.
    Kulp, K., Joseph G. & Ponte, J.G. (ed) 2000. Handbook of Cereal Science and
    Technology, 2 nd ed. Marcel Dekker Inc.
    Stanley P., Cauvain, S.P. & Young, L.S. 2007. Technology of Breadmaking, 2 nd ed.
    Springer.
    MacRitchie, F. 2010. Concepts in Cereal Chemistry. Taylor & Francis.
    Serna-Saldivar, S. O. 2010. Cereal Grains: Properties, Processing, and Nutritional
    Attributes. Taylor & Francis.
    Dairy science and technology
    Walstra, P., Wouters, J.T.M. & Geurts, T.J. 2006. Dairy Science and Technology, 2 nd ed.
    Taylor & Francis.
    Tamime, A.Y. (ed.) 2009. Dairy Fats and Related Products. Blackwell Publishing Ltd.
    Roginski, H., Fuquay, J.W. & Fox, P.F. 2002. Encyclopaedia of Dairy Science. Academic
    Press.
    Fox, P.F., McSweeney, P.L.H., Cogan, T.M. & Guinee, T.P. (eds.) 2004. Cheese:
    Chemistry, Physics, and Microbiology. Vol. 1, General Aspects. Elsevier.
    Fox, P.F., McSweeney, P.L.H., Cogan, T.M. & Guinee, T.P. (eds.) 2004. Cheese:
    Chemistry, Physics, and Microbiology. Vol. 2, Major Cheese Groups. Elsevier.
    Park, Y.W. (ed.) 2009. Bioactive Components in Milk and Dairy Products.
    Wiley-Blackwell.
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    Fruit and vegetables
    Thompson, A.K. 2003. (ed.) Fruit and Vegetables: Harvesting, Handling and Storage.
    Blackwell Publishing.
    Barkai-Golan, R. (ed.) 2001. Postharvest Diseases of Fruits and Vegetables:
    Development and Control. Elsevier.
    Watson, R.R. & Preedy, V.R. (eds.) 2009. Bioactive Foods in Promoting Health: Fruits
    and Vegetables. Academic Press.
    Martín-Belloso, O. & Fortuny, R.S. (eds.) 2011. Advances in Fresh-Cut Fruits and
    Vegetables Processing. CRC Press.
    Hui. Y.H. (ed.) 2006. Handbook of Fruits and Fruit Processing. Blackwell Publishing.
    Nirmal K. & Sinha, N.K. (eds.) 2011. Handbook of Vegetables and Vegetable Processing.
    Wiley-Blackwell.
    Meat Science
    Lawrie, R.A. 1998. Lawrie’s Meat Science, 6 th ed. Woodhead Publishing Ltd.
    Cambridge, UK.
    Warriss, P.D. 2010. Meat Science: An Introductory Text, 2 nd ed. CABI, UK.
    North American Meat Processors Association. 2007. The Meat Buyer's Guide: Beef,
    Lamb, Veal, Pork and Poultry. Wiley.
    Tarté, R. (ed.) 2009. Ingredients in Meat Products: Properties, Functionality and
    Applications. Springer.
    Toldrá, F. (ed.) 2010. Handbook of Meat Processing. Wiley-Blackwell.
    Seafood and eggs
    Sen, D.P. (ed.) 2005. Advances in Fish Processing Technology. Allied Publishers Private
    Ltd.
    Hall, G. (ed.) 2011. Fish Processing: Sustainability and New Opportunities.
    Wiley-Blackwell.
    Alasalvar, C., Miyashita, K. & Shahidi, F. (eds.) 2011. Handbook of Seafood Quality,
    Safety and Health Applications. Wiley-Blackwell.
    Stadelman, W.J. & Cotterill, O.J. 1995. Egg Science and Technology. The Haworth Press.
    Lipids, sugar and confectionary
    Akoh, C.C. & Min, D.B. 2008. Food Lipids: Chemistry, Nutrition and Biotechnology. CRC
    Press.
    O'Brien, R.D. 1998. Fats and Oils: Formulating and Processing for Applications.
    Technomic Pub. Co.
    Birch, G.G. 1999. Sugar: Science & technology. Applied Science Pub.
    Afoakwa, E.O. 2011. Chocolate Science and Technology. Wiley-Blackwell.
    Edwards, W.P. 2000. The Science of Sugar Confectionery. Royal Society of Chemistry
    Coffee, tea and soybean
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    Wintgens, J.N. (ed.) 2009. Coffee: Growing, Processing, Sustainable Production: A
    Guidebook. Wiley-VCH.
    Cu. Y. (ed.) 2012. Coffee: Emerging Health Effects and Disease Prevention.
    Wiley-Blackwell.
    Ho, C., Lin, J. & Shahidi, F. 2008. Tea and Tea Products: Chemistry and
    Health-Promoting Properties. CRC Press.
    Liu, K. 1997. Soybeans: Chemistry, Technology and Utilization. Aspen Publication.
    Endres, J.G. 2001. Soy Protein Products: Characteristics, Nutritional Aspects, and
    Utilization. American Oil Chemists' Society Press.
    Food Preservation
    Fellow, P.J. 2000. Food Processing Technology: Principles and Practice, 2nd ed.
    Cambridge: Woodhead Publishing Ltd.
    Rahaman, M.S. (ed.) 2007. Handbook of Food Preservation, 2nd ed. CRC Press.
    Tewari, G. & Juneja, V. K. (eds.) 2007. Advances in Thermal and Non-thermal Food
    Preservation. Blackwell Publishing.
    Tucker, G.S. (ed.) 2008. Food Biodeterioration and Preservation. Blackwell Publishing.
    Excellent research and review articles discussing topics covered in this course are available
    from a range of journals. Students aiming for higher grades should consult these journals
    as well as chapters in the reference texts. Some of the key journals are:
    ?  Food Technology
    ?  Trend in Food Science and Technology
    ?  Journal of Cereal Science
    ?  Journal of Food Science
    ?  Journal of Meat Science
    ?  Food Chemistry
    ?  Postharvest Biology and Technology
    All these journals can be accessed electronically through the UNSW Library.
    Students seeking resources can also obtain assistance from the UNSW Library.
    Teaching Strategies
    FOOD3010/8010 involves a series of technical lectures, covering both the theoretical as
    well as practical aspects of food preservation technologies. Because the course covers a
    diverse range of food commodities, topics discussed in the lectures will be selective.
    Students are expected to further explore areas not discussed fully in the classes by
    studying reference materials. The literature review assignment is a part of this teaching
    strategy. Through the various learning and teaching strategies, students will also
    acquire or strengthen a number of crucial generic attributes, including formal written
    communication, information literacy and scientific writing.
    The rationale behind the approach to learning and teaching
    Food3010/8010 is a core course of the various Food Science and Technology programs
    at both the undergraduate and postgraduate level. The primary objective of these
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    programs is to prepare the graduates to be competent professionals who can help
    advance the food and allied industries. This will require the students to be: 1) a critical
    thinker with the capacity for exercising reasoned judgment; 2) a problem solver with the
    ability to apply knowledge and skills to deal with "real world" issues; and 3) a lifelong
    learner so that they can continually renew their knowledge and skills. The learning and
    teaching strategies adopted for this course reflect this philosophy. Not all the materials
    will be taught in the lectures in detail. Rather, students are expected to study some of
    the course content by themselves and, by doing so, learn how to distil essential
    information from a large and diverse collection of references. Students are further
    given the opportunity to practice scientific writing in the format of a literature review.
    Such skills in information retrieval, processing, interpretation and summarisation are
    crucial for a food technologist as these skills are frequently required in professional
    undertakings in the food industry.
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    Academic Honesty and Plagiarism
    What is Plagiarism?
    Plagiarism is the presentation of the thoughts or work of another as one’s own.* Examples
    include:
    •  direct duplication of the thoughts or work of another, including by copying material, ideas
    or concepts from a book, article, report or other written document (whether published or
    unpublished), composition, artwork, design, drawing, circuitry, computer program or
    software, web site, Internet, other electronic resource, or another person’s assignment
    without appropriate acknowledgement;
    •  paraphrasing another person’s work with very minor changes keeping the meaning, form
    and/or progression of ideas of the original;
    •  piecing together sections of the work of others into a new whole;
    •  presenting an assessment item as independent work when it has been produced in whole
    or part in collusion with other people, for example, another student or a tutor; and
    •  claiming credit for a proportion a work contributed to a group assessment item that is
    greater than that actually contributed.†
    For the purposes of this policy, submitting an assessment item that has already been
    submitted for academic credit elsewhere may be considered plagiarism.
    Knowingly permitting your work to be copied by another student may also be considered to be
    plagiarism.
    Note that an assessment item produced in oral, not written, form, or involving live
    presentation, may similarly contain plagiarised material.
    The inclusion of the thoughts or work of another with attribution appropriate to the academic
    discipline does not amount to plagiarism.
    The Learning Centre website is main repository for resources for staff and students on
    plagiarism and academic honesty. These resources can be located via:
    www.lc.unsw.edu.au/plagiarism
    The Learning Centre also provides substantial educational written materials, workshops, and
    tutorials to aid students, for example, in:
    •  correct referencing practices;
    •  paraphrasing, summarising, essay writing, and time management;
    •  appropriate use of, and attribution for, a range of materials including text, images, formulae
    and concepts.
    Individual assistance is available on request from The Learning Centre.
    Students are also reminded that careful time management is an important part of study and
    one of the identified causes of plagiarism is poor time management. Students should allow
    sufficient time for research, drafting, and the proper referencing of sources in preparing all
    assessment items.
    *  Based on that proposed to the University of Newcastle by the St James Ethics Centre. Used with kind permission from the University of
    Newcastle
    Food3010Food Preservation  Chemical Sciences 代写
    † Adapted with kind permission from the University of Melbourne.
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    Course Evaluation and Development
    Student feedback is extremely important as part of continuous quality improvement in
    course design and execution. This doesn't mean accepting all ideas, that might lead to a
    course being 'popular' or 'easy', but rather seeking and, where valid and practicable,
    acting on feedback to create increasingly meaningful courses. One form of feedback is
    gathered using the UNSW Course and Teaching Evaluation and Improvement (CATEI)
    Process, basically a score on performance. However, wherever possible it is preferable to
    gather more detailed, qualitative feedback through open ended survey forms, class
    discussions or focus groups. Students maybe asked from time to time to participate in
    such course evaluation activities.
    Changes since the course last ran
    Change  Need for change  Identified from
    Tutorial quizzes are included as an additional
    assessment item.
    Tutorials are to be run the first time in 2012
    and the quizzes are to encourage students to
    participate in the tutorials.
    Student feedback.
    Other Matters
    Calculators are sometimes required in final exams but are no longer supplied by the
    university. You must provide your own accredited calculator, see university policy at:
    https://my.unsw.edu.au/student/academiclife/assessment/examinations/Calculator.ht
    ml
    School policy on administrative matters relating to undergraduate students, including
    matters relating to examination procedures, and what to do in the event of illness or
    misadventure, may be found on the School’s website at:
    http://www.chse.unsw.edu.au/current/ug_school_policy.html
    Information on UNSW Occupational Health and Safety policies and expectations may be
    found at:
    http://www.riskman.unsw.edu.au/ohs/ohs.shtml
    Students who have a disability that requires some adjustment in their learning and
    teaching environment are encouraged to discuss their study needs with the course
    convener prior to, or at the commencement of the course, or with the Equity Officer
    (Disability) in the Equity and Diversity Unit (9385 4734). Information for students with
    disabilities is available at:
    http://www.equity.unsw.edu.au/disabil.html
    Issues to be discussed may include access to materials, signers or note-takers, the
    provision of services and additional examination and assessment arrangements. Early
    notification is essential to enable any necessary adjustments to be made.
    Changes since the Course Outline was released this semester
    Changes will not ordinarily be made to Course Outlines once published, especially so for
    assessment structure. Sometimes, however, it may be necessary to adjust the course
    schedule. Such changes should be documented here.
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    Food3010Food Preservation  Chemical Sciences 代写