Environmental Comparision
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![Page 1: Environmental Comparision](https://reader033.fdocuments.us/reader033/viewer/2022061300/54c8cf2a4a7959c0638b4597/html5/thumbnails/1.jpg)
Environmental Comparison of Conventional and Organic Technological Routes for Sugar Obtaining Concerning to Greenhouse Gases
Emissions
Charles Prado Monteiro
Marcelo Almeida Costa
Emilia Satoshi Miyamaru
Luiz Alexandre Kulay
InLCA/LCM 2008 – International Life Cycle Assessment & Management 2008 – LCA VIII
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1. INTRODUCTION
• Brazil and India are the largest sugar producer in the world.
• Brazilian sugar represents about 50% of the international sugar market.
• The Brazilian sugar is obtained from the sugarcane.
• Since the sugar is an important product in the human diet, as a source of energy, it is one of the most traded product in the world.
InLCA/LCM 2008 - LCA VIII
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
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2. SUGAR SCENARIO IN BRAZIL
• 2007/2008: 515.8 million tons
of sugarcane produced in 6.7 mil ha.
• 2007/2008: 31.3 millions tons of sugar produced
• 2008/2009 Estimate: 558.7 million tons of sugarcane in 7.1 mil ha.
• 2008/2009 Estimate: 32.8 millions tons of sugar
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
Brazilian Sugar Production - Crop-years
24.926.6 26.2
30.7 31.3
0
5
10
15
20
25
30
35
2003/2004 2004/2005 2005/2006 2006/2007 2007/2008
Un
it -
Mill
ion
to
ns
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2. SUGAR SCENARIO IN BRAZIL/WORLD
• Two technological options:
– Conventional Sugar:
Produced through chemical fertilizers, herbicides
and insecticides.
About 80% of sugarcane is burned before the harvest.
– Organic Sugar:
Vinasse and Filter Cake (wastes from sugar indutrial
process - refinery)
No synthetic chemical inputs in the entire production chain
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
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Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
3. GHG EMISSIONS IN SUGAR LIFE CYCLE –ORGANIC ROUTE X CONVENTIONAL ROUTE
• 3.1 Definition of goal and scope
– Objective: to compare the environmental performance in terms of greenhouse gases (CO2, CH4 and N2O) from organic and conventional routes of sugar production.
– Function: To supply the energetic needs for an adult human being (70 Kg of body mass) for an year.
– Function Unit: supply 730,000 kcal
– Reference Flow: 4,000 kcal/kg of sugar – 182.5 kg of sugar/year
– Approach: cradle to gate
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Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
3. GHG EMISSION IN SUGAR LIFE CYCLE - ORGANIC ROUTE X CONVENTIONAL ROUTE
– Exclusion Criteria: exclusion of Unit Processes and environmental loads:
• Quantitative: contribution below 1.0% were excluded from the product system
• Environmental Relevance
– Data Quality criteria
– Allocation factors
– Impact Assessment Model – IPCC (2001) GWP 100
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3.3 PRODUCT SYSTEM: CONVENTIONAL SUGAR
Sugarcane Cultivation
Sugar Production
Sugarcane burnt
Bagasse Burnt and Generation
of Energy
Bagasse
Energy
Excess EnergySugar
Transportation
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
Vinasse and
Filter Cake
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3.3 PRODUC SYSTEM MODELING Conventional Sugar – Agricultural Phase
• Production cycle: 5 crops in 6 years.
• Yield: 68.7 ton/ha.year
• Fertilizer Comsuption (ha.yr) with Vinasse and Filter Cake:– N – 60 kg – Urea and Ammonium Nitrate– P – 8.3 kg – Single Superphosphate– K – 13.3 kg – Potassium Chloride– Vinasse: 76.2 m3 and Filter Cake: 5.6 ton
• Operational Profile (Crops):– Mechanic Harvest – 35%; Mannual Harvest – 65%– Green Sugarcane – 20%; Burned Sugarcane – 80%
• Transportation– Seed– Sugarcane for Refinary
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
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• Yield: 120 kg sugar/ton sugarcane
• Grinding of Sugarcane– Juice: sugar and molasses (industry of ethanol)– Bagasse: energy production (self-sufficient)
• Primary Treatment - Cush Cush, Sieves and hydrocyclones.
• Chemical Treatment– Addition of SO2 (sulphur dioxide) to the juice– Addition of Ca(OH)2 (hydrated lime) to the juice.
• Evaporation / Crystallization
• Separation and drying– Sugar – Molasses
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
3.3 PRODUC SYSTEM MODELING Conventional Sugar – Industrial Phase
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3.4 PRODUCT SYSTEM: ORGANIC SUGAR
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
Sugarcane Cultivation
Sugar Production
Green Sugarcane
Bagasse Burnt and Generation
of Energy
Bagasse
Energy
Excess EnergySugar
Transportation
Vinasse and
Filter Cake
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3.4 PRODUCT SYSTEM MODELING Organic Sugar – Agricultural Phase
• Production cycle: 5 crops in 6 years.
• Yield: 81.7 ton/ha.year
• Fertilizer Applied:– Green Manure (Cotrolaria juncea)– Cattle’s Manure – 2.45 ton/ha.yr – Vinasse: 90.7 m3/ha.yr– Filter Cake: 6.66 ton/ha.yr
• Operational Profile (Crops) – Mechanic Harvest – 100%– Green Sugarcane – 100%
• Transportation– Seed– Sugarcane for Refinary
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
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Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
3.4 PRODUCT SYSTEM MODELING Organic and Conventional Sugar – Industrial Phase
• Yield: 147.5 kg organic sugar/ton sugarcane
• Sugar refining: the same for organic and conventional routes.
• Brazilian model of sugar refining - two products: sugar and molasses
• Molasses: ethanol production
• Economic Allocation: 86% sugar; 14% to ethanol
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InLCA/LCM 2008 - LCA VIII
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
4. RESULTS AND DISCUSSIONS
Kg CO2 eq./FU – Industrial Phase
Organic Sugar 22,631
Conventional Sugar 26,100
Kg CO2 eq./FU – Agrictural Phase
Organic Sugarcane - 806.68
Conventional Sugarcane - 631.89
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Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
4. RESULTS AND DISCUSSIONS
• Difference between GHG emissions are related to agricultural stage –sugarcane cultivation.
• Direct GHG emissions from the conventional sugarcane (ha.year):
– N2O: 3.05 kg - 58% nitrogenous fertilizers, 15% Biomass burnt, 13% vinasse and 14% filter cake
– CH4: 15.17 kg – Biomass burnt
• Direct GHG emissions from the organic sugarcane (ha.year):
– N2O: 1.86 kg - 46% manure cattle’s, 29% filter cake and 25% vinasse
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Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
4. RESULTS AND DISCUSSIONS
• Agricultural stage of the organic sugarcane emits less GHG, compared with the cultivation of the conventional sugarcane
• Organic sugarcane harvesting is carry on by through mechanized equipments (diesel consumption).
• In this specific subject, the organic sugarcane emits more GHG than the conventional sugarcane (mechanized crop represents 35% of the production).
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Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
• GHG direct emissions in industrial stages: bagasse burned and energy generation.
• Process Control Measures: residual CH4 and N2O
• Direct GHG emissions from the conventional
and organic sugar (boiler):
– CH4: 4.75x10-6 kg/Kg sugar
– N2O: 1.00x10-3 kg/kg sugar
• Electricity: average energy generation: 16.83 KWh/ton sugarcane
– 65% Refinary comsuption
– 35% Sold to the concessionary
4. RESULTS AND DISCUSSIONS
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Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
4. RESULTS AND DISCUSSIONS
• Analyzing the Life Cycle Assessment of the sugar industrial phase, we noticed a high emission of GHG:
– CO2 eq. Fossil (70% of total): comsuption of natural gas, coal and heavy oil in chemical production industry – soda powder, lime and sulphur dioxide.
– CO2 eq. Biogenic (12% of total): it burns of biomass for generation of energy and Brazilian Grid (3.2% it burns of biomass).
– The other 18% are regarding several stages included in the LCA sugar model, such as model, such as industrial process, transport, equipments and structures.
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• The greenhouse gases emission were higher in conventional route than organic sugar process.
• Cultivation by conventional route without sugarcane burnt – legal exigency in 2014 in Sao Paulo – emits more GHG than the organic cultivation, because the emissions of N2O from the nitrogenous fertilizers are higher than N2O generated due to the cattle manure.
• The most significant GHG emissions are in the industrial phase. Three main products responsible for this are sulphur dioxide (53%), Soda Powder (33%) and Lime (14%).
5. CONCLUSION
Greenhouse Gases Emission in Sugar Life Cycle: Organic Route x Conventional Route
InLCA/LCM 2008 - LCA VIII
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InLCA/LCM 2008 - LCA VIII
THANKS FOR YOUR ATTENTION!!!
Contact:
Charles Prado Monteiro: [email protected]