Title: Sugarcane Trash and Whole Cane Pyrolysis in Brazil
1Sugarcane Trash and Whole Cane Pyrolysis in Brazil
Luís Cortez UNICAMP/FAPESP
3rd ISBUC Meeting Mauritius, 29-30 June 2009
2State University of CampinasUNICAMP
State University of CampinasUNICAMP
3Not used in the old production model
Sugarcane Trash
Harvest (green cane) Sugarcane trash left on the
soil Level of harvest mechanization São Paulo
State 50-60 Brazil 35-40
Manual harvesting (cane burning) The sugarcane
trash is burned to increase the harvest yield
4NEW PRODUCTION MODEL
USE OF SUGARCANE TRASH
RECOVERY OF SUGARCANE TRASH AFTER HARVEST
Harvesting sugarcane trash scattered field
Accumulation of sugarcane trash
Packing to increase density for transport
Sugarcane trash bales
Transport
5CONVERSION OF SUGARCANE TRASH INTO BIOFUEL
- Biochemical routes
- Acid hydrolysis
- Enzymatic hydrolysis
- Termochemical routes
- Fast pyrolysis
- Gasification
- Gasification catalytic conversion
6WHAT IS PYROLYSIS?
Pyrolysis is a thermochemical conversion process.
It is characterized by the thermal degradation
of a solid fuel with restricted oxygen supply.
It can be used to convert biomass into value
added products.
- Primary products formed during pyrolysis of
biomass - Charcoal
- Bio-oil (Formed mainly by phenolic derivatives)
- Acid (Formed by carboxylic acids)
7Pyrolysis plant ( PPR-200) Partnership Unicamp
and Bioware
Nominal capacity 200 kg/h dry biomass Operating
temperature range 450-500oC Average yields 30
bio-oil, 20 charcoal, 10 acid, 40 gases
8Background of the biomass pyrolysis pilot plant
PPR-200
1996 First prototype built with TERMOQUIP
cooperation
1998 The reactor was used for biomass
gasification
92001 Reactor used for charcoal production
102004 Modification to increase liquids products
yield
112007 Tests with whole Cane
12Schematics of the fast pyrolysis plant PPR-200
13Fast pyrolysis reactor plant PPR-200
Reactor technical specifications
Main physicochemical properties of silica sand
14Bio-oil separation column
Unicamp/Bioware developed a commercial prototype
to cool the gas, use centrifugation to separate
the mist and condensate the bio-oil. Phase
separation into aqueous and oil phases
15Power required in the pyrolysis plant
8.65 kW
16PPR-200 plant in operation
Cyclones for separation of fine Charcoal
Reactor
Feeding silo
Feeding screw
Fine charcoal
17Combustion chamber
Acid Reservoir
Pyrolysis gases
18Extraction of bio-oil
19Energy balance PPR-200
8.65 kW
20Some biomass tested in PPR-200
Fast pyrolysis requires small-particle biomass in
the range of 2 to 4 mm and moisture content up to
15 wt.
21Products yield for some types of biomass
processed in PPR-200
22Fast pyrolysis application products
23(No Transcript)
24Pyrolysis tests with sugarcane trash and whole
cane
25Present situation in Brazil
- the Brazilian Model of simultaneous production
of sugar and ethanol may be reaching its maximum
(today 40-60) - 60 of fuel used in light vehicles (domestic
market) - 30 of world sugar exports (foreign trade)
- Which are the new possibilities for Brazilian
sugarcane?
26Whole Cane vs By-Products Approach
- most likely other production models will appear,
such as new energy plants, dedicated only to
produce ethanol, electricity and bio-products
(e.g. plastics) - in Brazil, it makes sense to produce electricity
from lignocellulosic by-products because we will
have difficulties to expand electricity
generation using hydro resources (Amazon) - another way to convert the whole cane (sugars,
bagasse and trash) with minimum energy use, into
products that can either enter in an oil refinery
or be transformed...
27Energy content of one ton of sugarcane
() Bagasse moisture 50 () Sugarcane trash
moisture 15
28Sugarcane trash reception and pre-treatment
29Whole cane reception and pre-treatment
Whole Cane
Milling
Drying
30Ultimate and Proximate chemical analysis of
sugarcane trash
31Proximate analysis of bio-oil from whole
sugarcane and sugarcane trash
32Ultimate analysis of bio-oil from whole sugarcane
and sugarcane trash
33Pyrolysis productivity (sugarcane trash x whole
cane)
() Bio-oil Charcoal
34Whole cane pyrolysis x Ethanol fermentation
() Energy products/Energy primary sugarcane Not
considering drying energy
35The future may be BTL
Whole cane (880 GJ/ha)
Pyrolysis (Conversion efficiency 80) 704 GJ/ha
Gasification (Conversion efficiency 90) 633.6
GJ/ha
Synthesis FT (Conversion efficiency 90)
Bio-fuels 570 GJ/ha
Overall efficiency 65
36