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Title: Lew Fulton lew'fultonunep'org


1
BAQ 2006 Yogyakarta, 13-15 December 2006
GHG Reduction and Transport in Developing Nations
Lew Fulton (lew.fulton_at_unep.org) UN Environment
Program Nairobi Kenya
2
Role of UNEP
  • United Nations Environment Program plays a
    leading role in supporting and promoting
    environmental protection world-wide
  • UNEP is very involved with other agencies in
    multi-attribute assessments
  • Environmental
  • Energy
  • Economic
  • Social
  • Political (policy)
  • UNEP has a variety of projects and programmes
    relating to urban environment and its various
    linkages with these other concerns
  • DTIE (Division of Technology, Industry and
    Energy)
  • PCFV (Partnership for clean fuels and vehicles)
  • DGEF (Division of GEF coordination)
  • WWW.UNEP.ORG

3
What is the GEF?
  • Global Environment Facility, Established in 1991
  • Helps developing countries fund projects and
    programs that protect the global environment.
  • GEF grants support projects related to
    biodiversity, climate change, international
    waters, land degradation, the ozone layer, and
    persistent organic pollutants.
  • UNEP is an Implementing Agency for the GEF

4
GEF Project Info
  • Project Types
  • Full-size projects (1 million and up)
  • Medium-sized projects (up to 1 million)
  • Small Grants Program (up to 50,000)
  • Enabling activities
  • Project Development Funds (PDF-A up to 25,000
    PDF-B up to 350,000)
  • GEF Projects can be executed by
  • Government Agencies
  • UN Specialized Agencies
  • Non-Governmental Organizations
  • Bilateral Development Cooperation Agencies
  • Others from the private sector/institutes

5
The GEF and Transport
  • OP-11 Sustainable Mobility
  • Mode switching efforts
  • Improved transit systems
  • Promotion of non-motorized transit options
  • Support for infrastructure design,
    operation/management systems
  • Travel demand management, pricing
  • Land use planning
  • Limited fuel switching (e.g. electric vehicles,
    fuel cell vehicles)
  • Probably NOT ELIGIBLE
  • Anything related to private vehicles (efficiency
    programs)
  • Biofuels (though under reconsideration)
  • Pollutant emissions reduction efforts

6
Energy-Related CO2 Emissions by Region
Source IEA World Energy Outlook 2004
7
Projected Growth in Fuel Consumption By Sector
and Fuel, 2002-2030
East Asia
South Asia
China
Source IEA World Energy Outlook 2004 Notes
East Asia excludes China MTOE thousand
tonnes oil-equivalent note difference in scaling
of the Y axes.
8
Pollutant v. GHG EmissionsA schematic of
potential impacts from different measures
9
Vehicle / Fuel Measures
  • Low-sulphur diesel
  • requires a few percent more energy to refine,
    means higher GHG emissions
  • Allows use of advanced technology filter systems,
    also may lower fuel economy
  • Allows use of advanced diesel engine designs
    while still meeting emissions control regs, could
    provide large GHG reductions
  • Vehicle Maintenance
  • Basic maintenance (tire inflation, engine tuning)
    can provide a several percentage improvement in
    fuel efficiency, reduction in GHG emissions
  • Inspection and Maintenance programs must target
    these aspects in order to provide GHG reduction
    benefits
  • New vehicle fuel economy improvement
  • Clear direct impact on fuel use, GHG reductions
  • May provide some pollutant emissions benefit
    (e.g. HC) but mostly unrelated

10
Lifecycle GHG emissions from light-duty vehicles
One Set of Estimates (Mark Delucchi) (g/mi
CO2-equivalent and changes)
Source Delucchi. 2003. LEM model. Based on 26
mpg gasoline baseline, year 2010 parameters.
ICEV internal combustion engine vehicle,
EVelectric vehicle, FCEVfuel cell vehicle
11
Lifecycle GHG emissions from heavy-duty vehicles
One Set of Estimates (Mark Delucchi) (g/mi
CO2-equivalent and changes)
Source Delucchi. 2003. LEM model. Based on 26
mpg gasoline baseline, year 2010 parameters.
ICEV internal combustion engine vehicle,
EVelectric vehicle, FCEVfuel cell vehicle
12
How transit systems reduce CO2 emissions
  • Modal shift from smaller vehicles (minibuses,
    cars) to much more efficient larger vehicles
    (buses, trams, and other rail cars)
  • Improved urban traffic flow can yield improved
    in-use efficiency for all vehicles
  • For rail highly efficient electric trains
    provide reductions per vehicle km compared to
    even large buses
  • For bus systems, especially Bus Rapid Transit
    (BRT)
  • Dedicated bus corridors yield much faster speeds,
    smother operation better in-use efficiency
  • Fewer, much larger buses can displace greater
    numbers of smaller buses, improving net
    efficiency
  • Maybe the biggest one LONG TERM PLANNING
  • Long-term planning around a transit system
    backbone allows a city to become much less
    vehicle dependent.
  • Synergies with walking and cycling
  • Changes in patterns of where people live, work
    and shop.
  • Many cobenefits including air quality, safety,
    health, convenience

13
BRT Systems
  • Full BRT
  • Segregated, median busways with median
    stations
  • Pre-board fare collection and fare
    verification
  • Restricted operator access (closed system)
  • Free transfers between corridors
  • Competitively bid concessions
  • High frequency service and low station dwell
    times
  • Clean bus technologies
  • Modal integration

Bus Rapid Transit is a mass transit system that
mimics the rapidity and performance of metros
but utilises buses rather than rail vehicles.
Volvo
14
Mass transit costs
Trams / Light rail US 10 30 million /
km Elevated rail US 50 100 million
Subways US 50 million 300 million / km
BRT US 1 5 million / km
15
Some GHG Cost Reduction Scenarios Fuel Switching
16
Some GHG Cost Reduction Scenarios Mode Switching
Source Wright and Fulton, 2005, Climate Change
and Transport in Developing Nations, Transport
Reviews. Note Estimates based on a city with 10
million trips per day mode shift assumptions
linked to size of investment, based on experience
in cities like Bogotá detailed assumptions
outlined in paper
17
Conclusions
  • Most transport air quality improvement options
    have some impact on GHG emissions, though often
    tangential
  • Vehicle maintenance is promising, though IM
    systems must specifically target efficiency
  • Transit systems, NMT infrastructure combined with
    spatial planning can substantially reduce all
    types of emissions
  • For GHG reduction (and mobility improvements),
    BRT/NMT compares favorably to many
    technology/fuel switching options on a
    cost-per-tonne basis
  • More info Lew.fulton_at_unep.org
  • www.unep.org
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