Download Biofuels and Renewables: Sustainability and Bioenergy Standards

Survey
yes no Was this document useful for you?
   Thank you for your participation!

* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project

page
1
page
2
page
3
page
4
page
5
page
6
page
7
page
8
page
9
page
10
page
11
page
12
page
13
page
14
page
15
page
16
page
17
page
18
page
19
page
20
Document related concepts
no text concepts found
Transcript 
Biofuels and Renewables
Sustainability and Bioenergy Standards
Jason Clay, Ph.D.
VP and Managing Director, Markets
WWF-US
15 October 2007
It’s not what to think, it’s how to think
Lid
A Latte
208 liters per cup
Water
Cup
Sugar
Milk
Energy
Wrapper
Coffee
142.8 liters
= 1 liter
Agriculture’s Global Footprint
33% of earth’s surface in crops or
grazing but 55% of habitable area
3
World Agriculture and the Environment
•
•
•
•
•
•
Habitat loss—55% and counting
Water take—70% of human use, >60% wasted
Loss of soil—half of topsoil lost globally; 70-90% of farmers loose more
carbon/year than put back
Agro-chemicals—more used in agriculture than any other industry
Pollution—more than any other human activity
Climate change—25-40% of greenhouse gases that contribute to
climate change
And now there is the issue of biofuels and renewables
Bioenergy from Agriculture
ƒ Biodiesel
ƒ Palm oil
ƒ Cellulosic Ethanol
ƒ Canola/Rape
ƒ Crop residue (rice, wheat, corn,
sorghum)
ƒ Soy
ƒ Perennial grasses
ƒ Jatropha
ƒ Temperate tree plantations
ƒ Castor oil
ƒ Tropical tree plantations
ƒ Sunflower
ƒ Safflower
ƒ Bioethanol
ƒ #2 Heating/Furnace Oil
ƒ Palm oil
ƒ Renewable Energy
ƒ Sugarcane
ƒ Crop residue
ƒ Sugar beet
ƒ Temperate tree plantations
ƒ Corn/Maize
ƒ Tropical tree plantations
ƒ Wheat
ƒ Grapes
Key Environmental Impacts
Impacts / hectare and impacts / liter
ƒ Habitat and biodiversity loss
ƒ Net carbon impacts (footprint or LCA)
ƒ Soil health and erosion
ƒ Water use and effluents
ƒ Agrochemicals and total toxicity
ƒ Air Pollution
ƒ Net energy
ƒ GHG and
ƒ Processing
Focus—Better Practices or Performance?
Performance Curve
Performance
Shift
Regulation
Best
Performance
7
Some Key Issues for Each Throughput
ƒ Cost of production
ƒ Compared with petroleum-based products
ƒ Compared with each other
ƒ Energy
ƒ Total energy yields per hectare
ƒ Net energy per hectare
ƒ Non-renewable energy requirements (direct and embedded)
ƒ Subsidies or tariffs
ƒ Which can improve most (e.g. management, genetics)?
ƒ Which can be grown on degraded lands?
Standards for Bioenergy
ƒ Global and for multiple crops—“Meta-standards”
ƒ Principles, Criteria, Indicators, and Standards
ƒ Strategic—target key impacts
ƒ Measurably reduce impacts (e.g. focus on results not BMPs)
ƒ Developed through transparent and multi-stakeholder processes
ƒ On-farm and cumulative impacts
Global Context
ƒ Lack of comparable data to make informed decisions
ƒ No agreed on methodology
ƒ To compare across throughputs
ƒ To make lifecycle analyses
ƒ Focus is on price and profitability, not sustainability or net impacts
ƒ Need to anticipate impacts—where will production shift in 20 years?
ƒ What crops will dominate biofuels—which are dead ends?
Goals:
ƒ Understand how to think about these issues, not what to think.
ƒ Focus research efforts on key issues to enable comparisons.
Energy Productivity (Liters / Hectare / Year)
Liters of
Heating Oil
Liters of
Biodiesel
Liters of
Biodiesel
Liters of
Bioethanol
50,000
Energy Efficiency of Biofuels Compared to
Petroleum
Energy Input to Energy Output
Avg 12-15
Range 2-36
Avg 7-8
Range 1-12
Avg 1.3
Range .5-5.5
40
Greenhouse Gas Production
Soil Impacts
50
Each Commodity Has Key Issues
ƒ Sugarcane
ƒ Burning fields
ƒ Displacement
ƒ Corn/Maize
ƒ Energy in/out and source of energy for processing
ƒ Palm oil
ƒ Deforestation
ƒ No sulphur, less N20
ƒ Soy and canola
ƒ Soil erosion
ƒ Crop rotation
ƒ Cellulosic
ƒ Non-food, monocrop perennials—no food by-products or ability to shift focus
ƒ Direct and indirect habitat loss
Key Issues for Any Standards
ƒ Reasonable people will disagree—need to build consensus
ƒ Appropriate unit for standards
ƒ Farm
ƒ Processing plant
ƒ Watershed or landscape
ƒ Standards Performance
ƒ Minimum performance for all issues
ƒ Average performance
ƒ Continuous improvement (e.g. 10, 30, and 50% GHG reductions over time)
ƒ A single meta-standard for all bioenergy
World Commodity Price Shocks and GDP
Note. Figure shows the impact of a two standard deviation change of the country-specific commodity price index (Deaton Miller index) on real output (GDP) in a typical low-income country
The impact is the percent change in GDP for low income countries, on average.
Source: World Bank staff calculations
Recent Sugar and Corn Prices—And the Future?
Note. Figure shows the impact of a two standard deviation change of the country-specific commodity price index (Deaton Miller index) on real output (GDP) in a typical low-income country
The impact is the percent change in GDP for low income countries, on average.
Source: World Bank staff calculations
Related documents
Math 100: Chapter 2 Review 1. Simplify each algebraic expression
Math 100: Chapter 2 Review 1. Simplify each algebraic expression
“Reviewing the potential and perspectives for Algal Production and
“Reviewing the potential and perspectives for Algal Production and
One million liters of hooch in the ground
One million liters of hooch in the ground
Gas Stoichiometry Worksheet
Gas Stoichiometry Worksheet
WAYS TO SAVE WATER!!!!
WAYS TO SAVE WATER!!!!
To Dr. Beecher`s Weekly Newsletter, please click here!
To Dr. Beecher`s Weekly Newsletter, please click here!
Worksheet Mixture and Solution Problems
Worksheet Mixture and Solution Problems
Volume of distribution
Volume of distribution
Chapter Problems
Chapter Problems
Country Facts Form
Country Facts Form
Name_______________________Period__
Name_______________________Period__
DECC report - BioBased Economy
DECC report - BioBased Economy