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EMERGY & ENERGY SYSTEMS

EMERGY & ENERGY SYSTEMS. Session 4 Short Course for ECO Interns, EPA and Partners. Emergy Evaluations. Tables and metadata Calculations Locating data. Reading an Emergy Table. Note number. Reading an Emergy Table. Note number Item. Reading an Emergy Table. Note number Item

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EMERGY & ENERGY SYSTEMS

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  1. EMERGY & ENERGY SYSTEMS Session 4 Short Course for ECO Interns, EPA and Partners

  2. Emergy Evaluations • Tables and metadata • Calculations • Locating data

  3. Reading an Emergy Table • Note number

  4. Reading an Emergy Table • Note number • Item

  5. Reading an Emergy Table • Note number • Item • Input data and units

  6. Reading an Emergy Table • Note number • Item • Input data and units • Unit emergy

  7. Reading an Emergy Table • Note number • Item • Input data and units • Unit emergy • Emergy SPECIFIC EMERGY CALCULATION

  8. Reading an Emergy Table • Note number • Item • Input data and units • Unit emergy • Emergy • Emdollars

  9. <1 Reading an Emergy Table • Clumping inputs

  10. <1 Reading an Emergy Table • Clumping inputs • Output energy/yields

  11. <1 Reading an Emergy Table • Clumping inputs • Output energy/yields • Calculated values

  12. Reading an Emergy Table • Clumping inputs • Output energy/yields • Calculated values • Arranging rows • Notes

  13. Matching Table to Diagram • Diagram first • Labeling components

  14. Example of State Diagram

  15. Matching Table to Diagram • Labeling components

  16. Tide Deep Heat Earth cycle Ocean & Atmosphere Rain Wind Sun Sun Land Area Planet Earth Wind Rain Earth cycle Sun Local Analysis Identifying Key Components • List but don’t double count

  17. Different Tables • Transformity • Are all inputs necessary?

  18. Different Tables • Net benefits • List everything, positive or negative • Use labels to define benefits minus costs from different perspectives Benefit to farm: A+B+D+H+F+J-crop Benefit to Region: A+B+C+I-L-exported crop

  19. Different Tables • Storages • Not annual flows, anything more than a year in turnover time

  20. Notes as Metadata • Spreadsheet tracking

  21. Notes as Metadata Notes Table 1 1. Transformity 1 by definition. Solar insolation calculated using solar constant of 2 Langleys/sec and integration over changing surface area for a one year period at latitude 27.00 N, longitude 82.00 W: 6.9 E9 J/m2/yr. Albedo 8% (NASAeosweb). Annual energy = (Avg. total annual insolation J/yr/m2)(Area m2)(1 - albedo). 2. Transformity for evapotranspiration 15,423 sej/J (Odum, 1996) corrected by factor of 1.68 (Odum et al., 2000). Grain evapotranspiration = 2.33 E10 J/acre/yr (ASFIRS estimate, Smajstrla, 1990). Annual energy = (evapotranspiration J/acre/yr)(area ha)(2.47 acres/ha). 3. Erosion rate estimated as less than 0.01 g/m2/yr for aquaculture. 4. Fuel includes diesel, gasoline and lubricants and uses petroleum products transformity 6.60 E4 sej/J (Odum 1996) corrected by factor of 1.68 (Odum et al., 2000). Gallons of fuel/ha/yr from FAECM data (Fluck, 1992). Annual energy = (Gallons fuel)(1.32 E8 J/gal). 5. Transformity for electricity from average U.S. coal plant 1.60 E5 sej/J (Odum, 1996) • Spreadsheet tracking • Verbal for final

  22. Notes as Metadata • Raw data and source

  23. Notes as Metadata • Conversion factors, equations, unit emergy ratios

  24. Converting Data • Joules for energy

  25. Converting Data • Grams for materials

  26. Accurate Inputs • The point is to make sure you are calculating to the right endpoint, dry weight for food, active ingredients for chemical reactants, etc. • Dry versus wet weight

  27. Physical Conversion Calculations • Tides Energy(J) =(shelf)(0.5)(tides/y)(mean tidal range)2(density of seawater) (gravity) =(____m2)(0.5)(____/yr)(____m)2(_____kg/m3)(9.8m/s2) • Rain chemical potential Energy (J)= (land area + shelf area)(rainfall)(Gibbs energy of rain) = (____m2)(____m)(1000kg/m3)(4.94E+03J/kg)

  28. Websites Will post list on website In the notes ENERGY DATA LINKS U.S. Department of Energy – data and prices USGS Energy Databases Renewable Energy Policy Project Distributed Energy Resources Center U.S.D.O.E. Fossil Fuels Hawaii Department of Business, Economics and Tourism http://www.state.hi.us/dbedt/ert/energy.html http://www.hawaii.gov/dbedt/ert/ert_hmpg.html Internet Resources--Government Agencies United Nation's Food and Agricultural Organization Weather Educational Material US Dept. of Agriculture World Agricultural Outlook Board U.S. Geological Survey (USGS) Homepage Etc., etc., etc. Finding Data

  29. Using Money as Data • $$ paid does not cover actual raw material or energy • Separating services Fuel Fertilizer River Rain Services Soil Sun Wind Harvest Market Forest

  30. Annual Rates versus Storages • Determining annual flows from initial resources • Prorating use • Long term rates • Start up rates • Storages • Turnover times >1 year

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