Wednesday, July 20, 2011

Oh No! A single hydroelectric dam produces as much CO2 as 10 million people burning fossil fuels

According to a paper published online today in the Journal of Geophysical Research, a single hydroelectric dam in the Brazilian Amazon is producing as much greenhouse gas emissions as are generated by almost 10 million people burning fossil fuels. The paper states, "The total annual greenhouse gas emission from Balbina dam, ...was...equivalent to approximately 50% of the CO2 emissions derived from the burning of fossil fuels in the Brazilian metropolis of São Paulo." The 2010 population of Sao Paulo was 19,683,975 inhabitants. Dams are producing this so-called 'pollution' due to outgassing of CO2 and methane from the rush of water through turbines. Another 'green' energy source down the drain?

JOURNAL OF GEOPHYSICAL RESEARCH, VOL. 116, G03004, 11 PP., 2011

CO2 emissions from a tropical hydroelectric reservoir (Balbina, Brazil)

Key Points:

Annual CO2 emissions from Balbina Dam in the Brazilian Amazon were quantified
Emissions below the dam were significant
Reservoirs could contibute significantly to anthropogenic CO2 emissions

Alexandre Kemenes et al

Hydroelectric reservoirs can release significant quantities of CO2, but very few results are available from the tropics. The objective of the present study was to estimate the emission of CO2 from the Balbina hydroelectric reservoir in the central Brazilian Amazon. Diffusive and ebullitive emissions were estimated at regular intervals, both above and below the dam, using a combination of static chambers and submerged funnels. Gas releases immediately below the dam were calculated as the difference between gas flux at the entrance and the outflow of the hydroelectric turbines. An inundation model derived from a bathymetric map and daily stage readings was used for spatial and temporal interpolation of reservoir emissions. Annual emissions of CO2, upstream and downstream of Balbina dam for 2005, were estimated as 2450 and 81 Gg C, respectively, for a total annual flux of 2531 Gg C. Upstream emissions were predominantly diffusive with only 0.02 Gg C yr−1 resulting from ebullition. On average, 51% of the downstream emission was released by degassing at the turbine outflow, and the remainder was lost by diffusion from the downstream river. The total annual greenhouse gas emission from Balbina dam, including the CO2 equivalent of previously estimated CH4 emissions, was 3 Tg C yr−1, equivalent to approximately 50% of the CO2 emissions derived from the burning of fossil fuels in the Brazilian metropolis of São Paulo.

3 comments:

  1. Bugger ...
    Ok - plant more trees downstream. They'll soak it up. I talk to my vegetable patch and it's doing well. Maybe it's because I breath in 0.03% CO2, breath out 4% CO2? Maybe 5% if I've been digging and cussing a lot ...

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  2. I find this hard to believe.

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  3. "The total annual greenhouse gas emission from Balbina dam, including the CO2 equivalent of previously estimated CH4 emissions, was 3 Tg C yr−1, equivalent to approximately 50% of the CO2 emissions derived from the burning of fossil fuels in the Brazilian metropolis of São Paulo."

    CO2 equivilent is NOT CO2. Yes methane will be released in the years imediately after a dam is constructed unless all vegetation is removed from the inundation area first. This reduces over time until it is once again equal to that released by any other body of water that has life in it.

    CO2 outgassing is very rare unless the water is CO2 saturated, in which case the CO2 will outgas naturally over time with or without a dam.

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