代写 ENGG1000 Civil & Environmental Engineering

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  • 代写 ENGG1000 Civil & Environmental Engineering 

     
    ENGG1000, Civil & Environmental Engineering Course, SUSTAINABILITY
    Semester 1, 2016
    SUSTAINABILITY ASSIGNMENT
    Assignment type: Individual, take-home report
    Value:  15%
    Due date:  Week 8 Discussion Groups, Thursday 28 April 2016, 3pm
    Delivery:  Hard-copy only. Hand over to demonstrators in the discussion workshops in
    Week 8.
    Late submissions will be penalised with -20% per day.
    Cover sheet:  Use the cover sheet provided on Moodle
    ("ENGG1000_SUSTAINABILITY_ASSIGNMENT_2016_COVER_SHEET.doc")
    Sign the cover sheet!
    Report Format:  The word limit is 1200 words and the page limit is 6 pages, including diagrams
    and tables, but excluding cover page and references. Report format must be:
    • 25 mm margins all round.
    • 12 pt Times New Roman font.
    • Single line spacing.
    • Do not condense or expand your fonts.
    • 1 blank line between paragraphs and, above/below any section headings.
    • Pages to be numbered.
    Referencing:  In answering this assignment, you will be expected to make use of reference
    material in libraries and other sources as appropriate.
    You must supply suitable and immediate acknowledgment of any reference
    material (printed or verbal) that you use; generally source (author) and year are
    given in parentheses in the text, e.g. (Einstein, 1901), and a full citation at the
    end of your report.
    Attributing the thoughts and work of others is a matter of intellectual honesty
    and ethical conduct, and you must ensure you do so at all times! If you use the
    words of others you must use quotation marks! See
    https://student.unsw.edu.au/plagiarism for more information on plagiarism!
    For full citation description refer to UNSW sheets on referencing to be found in
    the library. Source: https://student.unsw.edu.au/harvard-referencing.
    THE ASSIGNMENT
    > FROM THE FOLLOWING PROJECT PAGES, CHOOSE ONE OF THE FOUR AS APPROPRIATE TO
    YOUR DESIGN PROJECT.
    Page 2
    1. LIFE CYCLE ASSESSMENT OF PROGRESSIVE COLLAPSE OF BUILDING STRUCTURE
    Project CVEN01: Progressive Collapse
    Imagine you have been given a contract by UNSW to construct a real-size building based on the
    design that you have developed in ENGG1000. UNSW has requested you conduct a life-cycle
    assessment (LCA) of the building to ensure sustainable and economically efficient use of materials.
    Your specifications are:
    • The building is to be 5 storeys tall and have a square footprint of 200m x 200m.
    • Minimise environmental impacts of the building's life cycle.
    • You are free to choose the building materials as long as structural integrity is guaranteed.
    Your report should contain the following sections:
    • Goals and scope.
    • Inventory analysis.
    o Materials used,
    o Main environmental impacts, and
    o Waste and recycling opportunities.
    • Impact assessment.
    o Describe upstream and downstream effects of all elements of the process.
    • Interpretation/improvement assessment.
    o As you progress with the assignment where appropriate, record and discuss potential
    improvements for both environmental and economic savings.
    You are expected to demonstrate some understanding of the likely environmental, social and
    economic circumstances, and relate these back to core sustainability principles (especially the
    Principles of Sustainable Engineering from Engineers Australia).
    Other considerations:
    • The phrase, "Cradle to Grave" is often used. For this assignment also consider the concept
    of "Cradle to Cradle" LCA.
    • Identify and describe any practical problems you encounter throughout the project.
    Useful References:
    Finnveden, G. (2010) Life cycle assessment. In: Encyclopedia of Earth,
    http://www.eoearth.org/view/article/51cbee567896bb431f6971f9
    Hellweg, S. and Milà i Canals, L. (2014) Emerging approaches, challenges and opportunities in life cycle
    assessment. Science, 344(6188), 1109-1113. http://dx.doi.org/10.1126/science.1248361
    Hammond, G. P. and Jones, C. I. (2008) Embodied energy and carbon in construction materials. Proceedings of
    the Institution of Civil Engineers - Energy, 161(2), 87-98. http://dx.doi.org/10.1680/ener.2008.161.2.87
    > see accompanying database: Inventory of Carbon & Energy (ICE), Version 1.6a, Sustainable Energy
    Research Team (SERT), Department of Mechanical Engineering, University of Bath, UK (posted on Moodle)
    Ibn-Mohammed, T., Greenough, R., Taylor, S., Ozawa-Meida, L. and Acquaye, A. (2013) Operational vs.
    embodied emissions in buildings—A review of current trends. Energy and Buildings, 66(0), 232-245.
    http://dx.doi.org/10.1016/j.enbuild.2013.07.026
    Ainger, C. M. and Fenner, R. A. (2013) Sustainable Infrastructure: Principles into practice. ICE Publishing.
    http://www.icevirtuallibrary.com/content/book/102850
    > see relevant chapters!
    Harding, R., Hendriks, C.M. and Faruqi, M (2009) Environmental Decision-Making: Exploring Complexity and
    Context. Federation Press, Leichhardt, NSW 2009
    > see relevant chapters!
    McDonough, W and Braungart, M (2002) Cradle to Cradle: Remaking the way we make things. North Point Press,
    New York 
    Page 3
    2. ENVIRONMENTAL IMPACT ASSESSMENT OF HIGH-RISE BUILDING
    Project CVEN02: Seismic Response
    Company AllHigh is proposing to build a new skyscraper in Sydney's Darling Harbour. Since this is a
    major development you are being tasked to produce a brief environmental impact report (similar
    to an EIS but substantially abbreviated) with sections that reflect an understanding of the key EIA
    processes:
    • Site description and project background.
    • Screening (determines if and why an EIA is necessary).
    • Analysis of likely impacts (judging their likely significance by assessing their magnitude
    and importance).
    • Public consultation (engaging the community and relevant stakeholders).
    • Assessment (making judgements about the needs, risks and alternatives).
    You are expected to demonstrate some understanding of the likely environmental, social and
    economic circumstances, and relate these back to core sustainability principles (refer to the NSW
    Environmental Planning and Assessment Regulation 2000 , Schedule 2 Environmental impact
    statements, Part 3 General provisions, 7 Content of environmental impact statement ).
    Other considerations:
    • Identify and describe any practical problems you encounter throughout the project.
    Useful References:
    Environmental Planning and Assessment Regulation 2000, Schedule 2 and Schedule 3.
    http://www.legislation.nsw.gov.au
    Elliott (2014) Environmental Impact Assessment in Australia: Theory and practice. Federation Press,
    Annandale NSW. 6th edition by Mandy Elliott, 2014; 5th Edition by Mandy Elliott & Ian Thomas, 2009
    (available in UNSW Library)
    Ainger, C. M. and Fenner, R. A. (2013) Sustainable Infrastructure: Principles into practice. ICE Publishing.
    http://www.icevirtuallibrary.com/content/book/102850
    > see relevant chapters!
    Harding, R., Hendriks, C.M. and Faruqi, M (2009) Environmental Decision-Making: Exploring Complexity and
    Context. Federation Press, Leichhardt, NSW 2009
    > see relevant chapters!
    Ponce, V.M., The Leopold Matrix for evaluating environmental impacts,
    http://ponce.sdsu.edu/the_leopold_matrix.html
    Page 4
    3. LIFE CYCLE ASSESSMENT OF WAVE GENERATOR PROJECT
    Project CVEN03: Wave Energy from the Oceans
    One of the options available in the renewable energy field is that of using the oceans as a source
    of energy for the generation of electricity. Prior to commencing a project to conceive, design, build
    and commission a wave generator, you are asked to create a Life Cycle Assessment (LCA).
    For this assignment you will undertake and create an LCA for a wave generator.
    Your report should contain the following sections:
    • Goals and scope.
    • Inventory analysis.
    o Materials used,
    o Main environmental impacts, and
    o Waste and recycling opportunities.
    • Impact assessment.
    o Describe upstream and downstream effects of all elements of the process.
    • Interpretation/improvement assessment.
    o As you progress with the assignment where appropriate, record and discuss potential
    improvements for both environmental and economic savings.
    You are expected to demonstrate some understanding of the likely environmental, social and
    economic circumstances, and relate these back to core sustainability principles (especially the
    Principles of Sustainable Engineering from Engineers Australia).
    Other considerations:
    • The phrase, "Cradle to Grave" is often used. For this assignment also consider the concept
    of "Cradle to Cradle" LCA.
    • Identify and describe any practical problems you encounter throughout the project.
    Useful References:
    Finnveden, G. (2010) Life cycle assessment. In: Encyclopedia of Earth,
    http://www.eoearth.org/view/article/51cbee567896bb431f6971f9
    Hellweg, S. and Milà i Canals, L. (2014) Emerging approaches, challenges and opportunities in life cycle
    assessment. Science, 344(6188), 1109-1113. http://dx.doi.org/10.1126/science.1248361
    Hammond, G. P. and Jones, C. I. (2008) Embodied energy and carbon in construction materials. Proceedings of
    the Institution of Civil Engineers - Energy, 161(2), 87-98. http://dx.doi.org/10.1680/ener.2008.161.2.87
    > see accompanying database: Inventory of Carbon & Energy (ICE), Version 1.6a, Sustainable Energy
    Research Team (SERT), Department of Mechanical Engineering, University of Bath, UK (posted on Moodle)
    Ibn-Mohammed, T., Greenough, R., Taylor, S., Ozawa-Meida, L. and Acquaye, A. (2013) Operational vs.
    embodied emissions in buildings—A review of current trends. Energy and Buildings, 66(0), 232-245.
    http://dx.doi.org/10.1016/j.enbuild.2013.07.026
    Ainger, C. M. and Fenner, R. A. (2013) Sustainable Infrastructure: Principles into practice. ICE Publishing.
    http://www.icevirtuallibrary.com/content/book/102850
    > see relevant chapters!
    Harding, R., Hendriks, C.M. and Faruqi, M (2009) Environmental Decision-Making: Exploring Complexity and
    Context. Federation Press, Leichhardt, NSW 2009
    > see relevant chapters!
    McDonough, W and Braungart, M (2002) Cradle to Cradle: Remaking the way we make things. North Point Press,
    New York
    Page 5

    代写 ENGG1000 Civil & Environmental Engineering 
    4. ENVIRONMENTAL IMPACT ASSESSMENT FOR CONVENTION CENTRE AT UNSW
    Project CVEN04: DIY Aerial Mapping
    Following your preliminary survey and land development options assessment, an extension of the
    Barker Street Apartments is proposed for the UNSW campus site.
    Based on NSW EIA Guidelines you are to produce a brief environmental impact assessment
    Screening Report to determine if a full EIS is required and if so what issues and impacts will need
    to be addressed within the EIS. The Screening Report is expected to include sections that reflect an
    understanding of the key EIA processes:
    • Site description and project background.
    • Screening (determines if and why an EIA is necessary).
    • Analysis of likely impacts (judging their likely significance by assessing their magnitude
    and importance).
    • Public consultation (engaging the community and relevant stakeholders).
    • Assessment (making judgements about the needs, risks and alternatives).
    You are expected to demonstrate some understanding of the likely environmental, social and
    economic circumstances, and relate these back to core sustainability principles (refer to the NSW
    Environmental Planning and Assessment Regulation 2000 , Schedule 2 Environmental impact
    statements, Part 3 General provisions, 7 Content of environmental impact statement ).
    Other considerations:
    • Identify and describe any practical problems you encounter throughout the project.
    Useful References:
    Environmental Planning and Assessment Regulation 2000, Schedule 2 and Schedule 3.
    http://www.legislation.nsw.gov.au
    Elliott (2014) Environmental Impact Assessment in Australia: Theory and practice. Federation Press,
    Annandale NSW. 6th edition by Mandy Elliott, 2014; 5th Edition by Mandy Elliott & Ian Thomas, 2009
    (available in UNSW Library)
    Ainger, C. M. and Fenner, R. A. (2013) Sustainable Infrastructure: Principles into practice. ICE Publishing.
    http://www.icevirtuallibrary.com/content/book/102850
    > see relevant chapters!
    Harding, R., Hendriks, C.M. and Faruqi, M (2009) Environmental Decision-Making: Exploring Complexity and
    Context. Federation Press, Leichhardt, NSW 2009
    > see relevant chapters!
    Ponce, V.M., The Leopold Matrix for evaluating environmental impacts,
    http://ponce.sdsu.edu/the_leopold_matrix.html

    代写 ENGG1000 Civil & Environmental Engineering