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Aldo Ometto

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Life Cycle Assessment of Fuel

Ethanol in Brazil

Prof. Dr. Aldo Roberto Ometto

Production Engineering Department

Engineering School of São Carlos

University of São Paulo

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AGENDA

• Sustainability and Environmental Management in

Agribusiness

• Life Cycle Impact Assessment (LCIA) of sugar cane

fuel ethanol in Brazil

• Sustainable Future Strategies for Fuel Ethanol in

Brazil

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Society

Sustainability Drivers

Sustainability

Social

EconomicEnvironmental

Time

Dimension

Local

Dimension

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Environmental Diversity

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Agribusiness Diversity

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Premise

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Environmental Management

Inventory Analysis

Process and

Product Life Cycle

Environmental

Features

Land Use Planning

Environmental Analysis

MitigationMonitoring

SOUZA (2000)

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Life Cycle

Assessment

Geoinformation

Territorial

Analysis

Analytical

Tools

Soils

Topography

Geology

Hidrography

Infrastructure

Other variables: land use,

socioeconomic aspects

Potentials and

constraints

Source: www. ean-int.org/agr_food_meat_livestock

Environmental Analysis

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Internet / Intranet

Open Source

Life Cycle Units

(Geo) TraceabilityMonitored Products

Life Cycle Unit

IT-Interface

Sensor Input

Actor Output

Processing

Source for LCU: TU Berlin, 2004

Monitoring

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AGENDA

• Brazilian Experience in Fuel Ethanol Production

• Sustainability and Environmental Management in

Agribusiness

• Life Cycle Impact Assessment (LCIA) of sugar cane

fuel ethanol in Brazil

• Sustainable Future Strategies for Fuel Ethanol in

Brazil

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Brazilian Fuel Alcohol

Ethanol: – a renewable fuel (better for global warming);

– less pollutant than fossil fuel during use phase.

System: high potential biomass energy production.

Positive Aspects

Negative Aspects

Environmental impacts and energy losses during

the activities of the life cycle:

– Poor biodiversity; intensive use of

pesticides, water, erosion, burning and others.

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Ethanol Life Cycle Activities

Soil Preparation

Sugar Cane Plantation

Pesticide Application

Irrigation with Recycled Products

Harvesting

Industrial Alcohol Process

Electrical Cogeneration Plant

Transportation

The use of fuel alcohol

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Ethanol Life Cycle Activities

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Soil Preparation Equipment

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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AMA

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Sugar cane milling

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Decanter for the juice

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Fermentators

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Distillation collums

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Vinasse Channels for irrigation

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AMA

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Boiler Energy Generator

Electricity Cogenerator

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Matrix: Life Cycle Impact Assessment

A) Systems Establishing (Acquisition of Land and Equipment, Civil

and Industrial Projects and Civil and Industrial Buildings)

1) Soil Preparation

2) Sugar Cane Plantation

3) Application of agrochemicals

4) Harvesting

5) Industrial Production of Alcohol

6) Steam and electricity cogeneration

7) Irrigation

8) Ethanol Distribution

9) Use of Alcohol as fuel

B) Decommissioning of installations

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Environmental System Life Cycle Fuel Ethanol Activities

Raw Material Extraction Industrial Pos Industrial Environmental Sub-system

Environmental Component

Environmental Factor

A 1 2 3 4 5 6

7 8 9 B

Climate - - -+ - + + Atmospheric Atmospheric

Air quality - -+ - - - - - - + +

Soil Quality and Erosion

- - - - - + + Physical

Agricultural - - -

Vegetation - - - - Biological

Fauna - - - -

Terrestrial

Land Use - - - - -

Rivers - - - - - - - - -

Groundwater - - - - - - - -

Aquatic

Physical-Chemical-Biological

Biodiversity - - - - - - - -

Transport + - - - - Infrastructure

Water use - - -

Habitant - - Demography

Migration - -+ - - - -

Agriculture -+ + -+ - - -+ + + -+

Industry + + + - + + - + -+

Economical

Business + - + + + +

Education - - +

Health - - - - - - -

Life quality

Employment - - - - + + - -

Landscape - Historical - Cultural - - - - +

Cultural - Economic - Social

Political - Institutional -+ -+ -+ - -+ + - - + -

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Matrix Results

1. Harvesting – burning:

Air emissions; health problems; erosion;

Losses of organic matter,

microorganisms, vegetation, industrial

productivity and energy

2. Conventional Soil Conservation; Plantation

and Pesticide Application:

High toxicity: health problems, water and soil

contamination

3. Manufacturing:

High water consumption and

vinasse production

Most harmful activities:

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Main Assumptions

The functional unit of this study is 10000

kilometers.

Considering a mean consumption of 8 km/l, the

reference flow is 1000 kg of ethanol.

The results are calculated assuming the average

sugar cane and ethanol productivity from 2001 to

2008, which are 72t sugar cane/ha and 85 l ethanol/ t

sugar cane, according to the primary data.

For the reference flow (1t of ethanol), the sugar

cane plantation area is 0,20 ha, which is the needed

land-use for this one-year crop cultivation.

EDIP Method

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Fuel Ethanol Product System

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Life Cycle Impact Assessment

EDIP

Environmental Impact Categories

(Impact Potentials)

• Global Warming• Ozone Formation• Acidification• Nutrient Enrichment• Ecotoxicity • Human Toxicity

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Global Warming

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Photochemical Ozone Formation

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Acidification

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Nutrient Enrichment

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Nutrient Enrichment

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Ecotoxicity in Soil

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Ecotoxicity in Water (Chronic)

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Human Toxicity via Air

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Human Toxicity via Soil

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Human Toxicity via Water

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Exergy: work potential that can be obtained as the system changes from the given state to a state of equilibrium with the environment (dead state) while exchanging heat solely with the environment

ex straw = B (LHV + hw Zw) + exw Zw (1)

Life Cycle Impact Assessment

Thermodynamic Analysis

223035.01

27884.0122499.022160.00412.1

CZ

OZ

CZ

HZ

CZ

OZ

CZ

HZ

palha

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• The specific exergy of sugarcane straw is calculated as 17,761.53 kJ/kg

• Bagasse has a specific exergy of 10,259.335 kJ/kg

Life Cycle Impact Assessment

Exergy Results

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AGENDA

• Brazilian Experience in Fuel Ethanol Production

• Sustainability and Environmental Management in

Agribusiness

• Life Cycle Impact Assessment (LCIA) of sugar cane

fuel ethanol in Brazil

• Sustainable Future Strategies for Fuel Ethanol in

Brazil

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Sustainable Future Directions

No Burning

Electricity production from straw

Less pesticides

Less internal transportation

Less fossil fuel use

Less water consumption in industry

Species diversity mantaining natural vegetation

Ethanol combustion otimization in vehicles

Economic, Social and Environmental integrated

system

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GERIPA: Ethanol and Food Production

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Thank you

Prof. Dr. Aldo Roberto Ometto

E-mail: [email protected]

Tel. +55 (16) 3373-8608