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Potential of Eichhornia Crassipes for Biomass Refining

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Title: Potential of Eichhornia Crassipes for Biomass Refining


1
Potential of Eichhornia Crassipes for Biomass
Refining
AIChE Conference 2007
  • Jessica E. Hronich, Lealon Martin, Joel Plawsky,
    Henry Bungay
  • November 7th, 2007

2
Introduction
  • Department of Energy goal
  • 60 Bgal/yr ethanol by 20301
  • Current production
  • 5.4 Bgal/yr blended into gasoline for 20062
  • 129 Ethanol plants, and growing
  • The need for diverse feedstocks
  • Corn grain can only meet 15 of transportation
    needs1
  • Cellulosic ethanol can fill remainder
  • Greater energy output/input ratio3

1U.S. DOE. 2006. Breaking the Biological Barriers
to Cellulosic Ethanol A Joint Research Agenda,
DOE/SC-0095, U.S. Department of Energy Office of
Science and Office of Energy Efficiency and
Renewable Energy (www.doegenomestolife.org/biofuel
s/).2 Biofuels in the U.S. Transportation
Sector Energy Information Association, Oct. 15,
2007. (http//www.eia.doe.gov/oiaf/analysispaper/
biomass.html1)3 Bourne, J.K. Green Dreams
National Geographic, 2007. (http//magma.national
geographic.com/ngm/2007-10/biofuels/biofuels-inter
active.html)
3
Feedstock Evaluation
  • Ideal Attributes
  • Wide availability
  • Ease of cultivation
  • Frequent harvest cycles
  • No / low competition with food crops
  • Easy to process
  • Inexpensive
  • Water hyacinth
  • Global invasive nuisance weed
  • Growth can exceed 200 tons DM / ha / yr
  • 2 week harvest cycle
  • Aquatic plant
  • Low-tech processing
  • Millions of dollars spent each year to remove /
    dispose

4
Process Description
  • Cultivation
  • Harvest Collection
  • Pressing
  • Pretreatment / Storage
  • Hydrolysis / Fermentation

5
Cultivation
  • Infested waterways
  • Removal credit
  • Developing countries
  • Hyacinth cultivation (farms)
  • Unused commercial ponds / lakes

6
Harvest Collection
7
Harvest Collection
  • Novel cutter design
  • Simply slice mats
  • Mat width design variable
  • Length dependent on connectivity
  • Use less energy than traditional harvesters
  • Tow swaths of mats to shore
  • Cut pattern to allow re-growth

8
Pressing
  • Can remove approximately 97 wt of the water
  • Will decrease volume for silage
  • Water will be processed (if necessary) and
    returned to lake

9
Pretreatment / Storage
  • Partial Anaerobic digestion
  • Approximately 14 days
  • Less energy intensive
  • Remove loose water
  • Combine with storage to reduce costs

10
Process Cost Estimation
  • Estimation allowed for multiple inputs to affect
    overall cost per ton to produce
  • Referenced current biomass-to-ethanol evaluations
  • Manufacturing cost estimation for chemical
    process industry adapted for agribusiness plan1
  • Key design parameters taken from literature,
    manufacturers, and best guesses

1Ulrich D, Vasudevan T, (2004) Chemical
Engineering Process Design and Economics A
Practical Guide. Ulrich Publishing, 409-435
11
Key Design Parameters
  • Cultivation
  • Lake covered in 300 acres hyacinth
  • Located in United States
  • 100 ton dry matter / ha / yr
  • Harvest / Collection
  • Cut width of 3.5 m
  • Cut speed of 45 m / min
  • Harvested 8 hours / day
  • Pressing
  • 97 wt water removal
  • Power usage 18HP/ton fiber/hr
  • Pretreatment / Storage
  • 14 days to digest
  • Misc.
  • Labor (10 / hr benefits)
  • Overheads
  • Taxes, insurance
  • Depreciation

12
Cost Estimation
Total Cost 28 / ton of dry matter
13
Sensitivity Analysis
  • Lowest possible cost
  • 1 harvester 1 transport boat
  • Cut width greater than 7m
  • Cut speed greater than 45 m/min
  • Operation most likely at 3.5 m and 45 m/min

14
Future Work
  • Investigation of digestion process
  • Temperature
  • pH
  • Residence time
  • Hydrolysis methods
  • Acid
  • Enzymatic
  • Fermentation yields
  • Quality of biomass produced
  • Application to other aquatic nuisance weeds

Photo courtesy of Willey Durden, USDA
Agricultural Research Service, www.forestryimages.
org Image Number 0002100.
15
Summary
  • Water hyacinth as a feedstock
  • Rapid growth rate
  • Wide availability
  • Low cost
  • Exportable low-technology process
  • Cost Estimation / Sensitivity Analysis
  • E. Crassipes is an economically viable biomass
    feedstock
  • A blight on an ecosystem can be used as an
    economic benefit
  • Cost competitive with other feedstocks (less than
    40 per dry ton)

16
Acknowledgements
  • NSF IGERT fellowship
  • Rensselaer Chemical Biological Engineering
  • The Martin Group
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