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GHG Management Approach

GHG Management Approach. - Layout - Practical Example - Local Context. Gainesville Energy Advisory Committee (GEAC) May 21,2002. _. +. +. What Where When How much. _. _. +. Volume Location Year. Lots and lots of info. Source. Sink.

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GHG Management Approach

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  1. GHG Management Approach - Layout - Practical Example - Local Context Gainesville Energy Advisory Committee (GEAC) May 21,2002

  2. _ +

  3. + • What • Where • When • How much _

  4. _ +

  5. Volume Location Year Lots and lotsof info Source Sink

  6. On gallon turns into 172 cubic feet / 4.87 cubic meters of CO2.

  7. 1 ton of CO2 takes up 19,000 cubic feet / 556 cubic meters space

  8. Creating a Volumetric GPS Timestamp (VGT), or CarbonMap™ Example: Width = 8.12 m Length = 8.12 m Height = 8.12 m Volume = 536 m³ Temperature = 15º C Pressure = 760 torr Weight = 1000 kg CO2 GPS coordinates: North: 29º40.403’ West: 082º24.835’ Elevation: 64m

  9. Use Temperature to Establish Relative Values 0.59ºC 0.40ºC 0.22ºC 1990 2000 2010 v t

  10. Event Level • Source • Communicate

  11. Intercept Existing Data Streams • Volume x Carbon Factor • Lots of Data Out There • Standard Applications

  12. Shumard Oaks (Quercus shumardii) on campus Tree 1:7 years oldVolume = .11 m3Tree 2:19 years oldVolume = .69 m3Tree 3:32 years oldVolume = 3.2 m3

  13. Carbon Bank, stores amount of carbon in transaction, the source device, the sink, and the various people / organizations involved (edited for security) CREATE TABLE [dbo].[bank] ( [SERIAL] [int] IDENTITY (1, 1) NOT NULL , [original_mass] [int] NOT NULL , [net_mass] [int] NOT NULL , [compound_id] [int] NOT NULL , [producer_id] [int] NULL, [prod_owner_id] [int] NULL , [prod_affiliate_id] [int] NULL , [prod_manufacturer_id] [int] NULL , [prod_unit_price] [money] NULL , [sink_id] [int] NULL , [sink_owner_id] [int] NULL , [sink_affiliate_id] [int] NULL , [sink_manufacturer_id] [int] NULL , [sink_unit_price] [money] NULL , [date_entered] [datetime] NULL , [date_modified] [datetime] NULL , [sink_comment_id] [int] NULL - Yukon - Carbon Buddy - Exact Match

  14. Much reduction is needed to reach stability Human emission rate in billion t/C/yr 8 4.7 Equilibrium Emissions the earth absorbs in billion t/C/yr t Latent atmospheric C is about 188 billion ton

  15. To reduce local emissions by 20%, how much is it worth? How much does it cost? 3 MtCO2e x 20% x $15/tCO2e = $9 million for ~ 10 years = $90 million total 3.46¢/l or 16.25¢/gl 3 MMTCO2/yr = 41 km²/yr Alachua County = 2623 km² or 192,528,200 tCO2 maximum absorption or 63 years

  16. - Nice meeting all of you • Participate in Project 100 • http://www.icbe.com/carbondatabase/reductions.asp • http://www.climatesafe.com/intro/intro_flash.asp • Mark van Soestbergenmark@icbe.com • 352 367 1144 tel • 352 335 9140 fax • Toward Climate Stability™

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