Potential Bio-Energy Resources Are Plentiful in Florida - Let's Develop Them Right
- Pierre Bull
- Policy Analyst, Air & Energy, New York City
- Blog | About
- Posted August 11, 2009 in Moving Beyond Oil , Solving Global Warming , U.S. Law and Policy
I recently presented at the 2009 Florida Farm to Fuel® Summit (airing on the Florida Channel this Thu, Aug 13 at 8 AM) with the message that bio-energy development - including biofuels and biomass, which is potentially very abundant in the South and Florida - should happen only when benefiting four crucial aspects: (My colleague, Nathanael Greene, provides an excellent primer on these four principles here.)
(1) Energy Security
(2) Greenhouse Gas Emissions
(3) Biodiversity
(4) Sustainability of the Food Supply
Our message is not popular, especially among those who feel that our position sets too high of a standard for bio-energy producers to meet. It is not our intent to be "against bio-energy development". Instead, it's what science tells us - essentially concluding that the environmental trade-offs for significant bio-energy growth can easily come at a cost to any of the four aspects above.
A recent paper published by Jason Evans and Matthew Cohen of the University of Florida School of Forest Resources and Conservation, titled, "Regional Water Resource Implications of Bioethanol Production in the Southeastern United States", models the land, water, and energy requirements that would be needed to meet the massive new biofuel production targets legislated by the 100+ billion gallon renewable fuel standard in the Energy Independence and Security Act (EISA) 2007.
This target implies an appropriation of regional primary production for dedicated feedstocks at scales that may dramatically affect water supply, exacerbate existing water quality challenges, and force undesirable environmental resource trade-offs. Using a comparative life cycle approach, we assess energy balances and water resource implications for four dedicated ethanol feedstocks - corn, sugarcane, sweet sorghum, and southern pine - in two southeastern states, Florida and Georgia, which are a presumed epicenter for future biofuel production. . . .
Utilization of existing waste biomass sources may ameliorate these effects, but does not obviate the need for dedicated primary feedstock production. Careful scrutiny of environmental trade-offs is necessary before embracing aggressive ethanol production mandates.
Granted, it's fair to say that not all of the 100 billion gallons will be produced in Florida; but it is reasonable to conclude that with the nearly year-long growing season of Florida's climate, a significant portion of the feedstock for biofuel production could be developed in this state.
Understanding and backing clear scientific evidence of the environmental impacts of bio-energy production is our reason for being deeply engaged in its development today. In developing this important domestic energy resource, we can't afford to compromise our planet's imperiled biodiversity, increase global warming pollution and limit the resources within our globally interconnected food supply.
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Comments
Dr. James Singmaster — Aug 11 2009 06:31 PM
Unfortunately biofuels production by fermentation only recycles carbon dioxide removing not one molecule of CO2 from the environmentally damaging and growing overload of that gas already in our biosphere. What needs to be done use pyrolysis especially applying the process to the massive ever-expanding messes of organic wastes and sewage. By pyrolyzing those messes or wood from timber planted to recover despoiled lands, 50% of the carbon present gets converted to inert charcoal, while fermentation to bioethanol sends off that 50% as CO2. The other 50% of the carbon gets expelled as a gaseous mix of organic chemicals that can be collected and refined to get a renewable fuel of raw materials for the chemical industry with no fossil fuels involved especially foreign oil.
It is ridiculous to be touting bioethanol involving fermentation, in which 50% of the biochemical carbon gets reemitted as CO2, when pyrolysis of waste messes, having no field costs or use of needed water, converts the 50% of that carbon in the messes into inert charcoal, completely removing it from recycling again. Charcoal from timber production operation could have use in iron ore smelting to substitute soft coal eliminating the messes in mining it and the emitting of more trapped CO2 plus the other pollutants such as mercury and oxides of nitrogen and sulfur.
We need to realize that the messes of organic wastes and sewage can be a resource to get control of the looming climate crisis.
If the pyrolysis of those messes stops unneeded reemitting of GHGs that's stopping emissions just as well as reducing emissions from vehicles and power plants. No one seems to have any awareness that the messes due to natural biodegrading processes are a part, a needless part, of the total GHG emissions picture.
Dr. J. Singmaster
Pierre Bull — Aug 12 2009 11:35 PM
Correction: The Renewable Fuels Standard should say 100+ billion Liters or approximately 30 billion Gallons