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Engineering Frontiers

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Title: Engineering Frontiers


1
Engineering Frontiers
  • Overview of Presentations / Exec. Summ.
  • Introduction to the Future of Electronic
    Electricity Generation
  • 7 February 2001

2
Goals for Today
  • Review Presentation Format
  • Review Executive Summary
  • Overview of Conventional Electric Power
    Technologies
  • Review Non-Faraday Generation Options

3
Research Presentations (40)
  • 40 minute (multimedia) MS-Powerpoint
  • 15 minutes for QA
  • Introduction to Technology / Issue
  • Historical Perspective Background
  • Provide a strong grounding how this technology or
    issue emerged
  • Why did it become important, Is it solving a
    growing or existing problem
  • Was there a market need / societal need?

4
Research Presentation (cont.)
  • Technical Description
  • Describe the Technology or Issue in scientific
    terms
  • What theories or principles govern its operation?
  • Give us a Technology A 1.01 discussion on it
  • Current Challenges / Constraints
  • What are the critical constraints / success
    factors?
  • Technological, basic science, social
  • What needs to be done to get past them?
  • Fundamental research, empirical, consensus
    building
  • Who needs to be involved?
  • What resources need to be mobilized?

5
Research Presentation (cont.)
  • Who are the Principle Players?
  • Discuss each and their motivation(s) for being
    involved
  • What are they doing differently than each other?
  • Approach, funding, partnerships, etc.
  • Who is likely to succeed (first to market or
    major influencer of standards and policy)
  • Impacts on Broader Society
  • Engineering Scientific Community
  • Social Structures Paradigms
  • Governments (local -? multinational)

6
Research Presentation (cont.)
  • Market Impacts Opportunities
  • Quantify size from your research
  • Next 5 years
  • Long Term (creative thinking of applications)
  • After markets - VCR example
  • Quality of Life impacts

7
Research Presentation
  • Summary should include
  • Why you think this is important for engineers to
    know about
  • What the future of this Technology holds
  • Your prediction of its importance and impact
  • What we should be looking for as indicators that
    a breakthrough has been reached
  • Recommended follow on research or investigations
    in this area

8
Executive Summary Biblio.
  • 25 of grade
  • Technical Brief format
  • 2 pages (1 sheet of paper)
  • Competition for format design
  • Prize to the winner
  • All to conform to winning style and format
  • IEEE or other technical paper (2 column)

9
Technical Brief - elements
  • Introduction / Background / History
  • Technology / Issue Summary
  • Key Players Activities
  • Key Factors Affecting Future of Tech/Iss
  • What to look for in the next 5 years
  • Potential Impact on Society Long Term
  • Detailed Bibliography of just the best sources

10
Electricity Today
  • Globally - 1997 Statistics
  • Fossil Fueled Thermal 8.3 Trillion kWhs
  • Hydropower 2.6 Trillion kWhs
  • Nuclear 2.3 Trillion kWhs
  • Geothermal, Solar, Other 0.2 Trillion kWhs
  • Total 13.3 Trillion kWhs
  • 99.9 Faraday Generators

11
Emerging Electric Technologies
  • Renewables Wind, Solar (central receiver, dish
    stirling, trough, ocean thermal and PV), Biomass,
    Ocean (wave, tide, current), Geothermal
  • Non-Renewables Fuel Cells, Microcogeneration
    systems, micro-fission reactor technology

12
Paradigm Shift
  • the mainframe computer historically compared to
    the power and versatility of distributed PC
    networks
  • Technology enabled, market driven
  • Future of centralized generation and distribution

13
Electronic Generators
  • Light - photovoltaics
  • Heat - thermoelectrics
  • Mechanical Motion - piezoelectrics

14
Photovoltaics
  • History Becquerel 1838, Einstein 1905
  • Development Bell Labs in 1950s
  • Operative Parameters
  • Future Market Growth
  • 15 each year
  • Growth to 5B market by 2010

15
PV Cell Types
  • Single-Crystal Silicon (x-Si) Cells
  • Ribbon-Silicon Cells
  • Polycrystalline-Silicon (P-Si) Cells
  • Amorphous-Silicon (a-Si) Cells

16
Thermoelectrics
  • Seebeck Effect (1821)
  • production of an electromotive force (emf) and
    consequently an electric current in a loop of
    material consisting of at least two dissimilar
    conductors when two junctions are maintained at
    different temperatures.

17
Thermoelectrics
  • Peltier Effect (1834)
  • French physicist and watchmaker
    Jean-Charles-Athanase Peltier observed that if a
    current is passed through a single junction of
    the type described above, heating cooling could
    result in the metals
  • Peltier Devices
  • Leading Manufacturer
  • www.melcor.com

18
Market Applications
  • Very early applications on Seebeck devices
  • Japanese watch
  • http//jin.jcic.or.jp/trends98/honbun/ntj990207.ht
    ml
  • Heat scavenging devices for military applications

19
Piezoelectrics
  • Pierre and Jacques Curie (1880)
  • conclusive measurement of surface charges
    appearing on specially prepared crystals
  • (tourmaline, quartz, topaz, cane sugar and
    Rochelle salt
  • When subjected to mechanical stress
  • More info http//www.piezo.com/history.html
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