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Evaluation of carbon emission in Evaluation of carbon emission in multi-modal urban transport – multi-modal urban transport – a Sino-French joint research proposala Sino-French joint research proposal
Jean-François Janin Jun Li MEEDDAT AFCDUD
3rd THNS Forum
11-12 September 2010, Shanghai
Why evaluation is necessary? Transport sector accounts for more than 20% (IEA, 2006) of
global carbon dioxide emissions (40% of GHG emissions in California).
Sustainability (of a new THNS line, of the whole transport system of a city, of the whole city including housing ...) implies minimization of energy consumption and CO2 emissions to satisfy the same level of demand for mobility (service or utility).
Strong public willingness to reduce the emissions from transport with co-benefits (mitigation of air pollution, security of energy supply , reduction of congestion, public health)
However, few work has been done to provide simple and efficient tools for decision makers to evaluate (in particular developing countries):
- Performance (in terms of energy and CO2) of an isolated system
- Current emissions of a specific territory
- Forecasts of emissions under certain conditions
Some basic elements for evaluation:
Framework UN Convention on Climate Change recommend actions to identify data to be collected, indicators to be produced to evaluate, communicate and verify the impact of actions taken to reduce impacts of transport on the climate
In ARTEMIS European project (Assessment and Reliability of Transport Emission Models and Inventory Systems), light and heavy vehicles were tested and a data base on emissions in various conditions was created
ADEME (French Agency for Environment and Energy Control) and Deloitte consulting company have evaluate the energy efficiency and GHG emission factors of several transport modes
Surveys on number of vehicles and their use in several Chinese cities
ARTEMIS results Tests were made in 2005 to explore the influence of
many factors:
type of cars various driving conditions (congestion, average speed..;) loading Slope of the road type of fuel used Level of performance (Euro 2 to 4)
The model issued in the project can help to simulate emissions at various levels (macroscopic to microscopic) http://www.inrets.fr/js/ur/lte/publi-autresactions/fichesresultats/ficheartemis/artemis.html
Urban trips become ++ motorized
Source: World Bank
Main drivers of emissions in Chinese cities
Source : World Bank 2009
Empirical studies show extremely high income elasticity of vehicle ownership and fuel consumption in China (LR σis nearly 3!)
Demand for petrol in transport sector will more than triple from 133 Mtoe in 2006 to 465 Mtoe by 2030 (IEA 2006)
Passenger vehicles could increase ten-fold in the next 25 years in China and transport oil consumption is expected to quadruple in 2030 relative to 2005.CATs projected 6-fold increase in total vehicle population in cities
GHG emissions in road transport in 2030 would increase 5 fold in the BAU to exceed the total emission in EU by 2025
Robust methodology and scientific evaluation instruments are needed to tackle the challenge in transport emission control
•
Transport is a daunting challenge to climate change mitigation in China
Cars and HDV account for the bulk of transport emissions in cities
Ways of reducing CO2 in transport • From the above equations, we see there are four
main ways to reduce CO2 emissions from transport :– Operational - reducing energy use and emissions per
vehicle km (vkm) driven.– Strategic - optimisation of the vehicle use, reducing
total vehicle km per passenger km (pkm) or per tonne km (tkm).
– Demand: reducing the overall demand (pkm or tkm) for travel (through smart organisation of urban planning and transport infrastructure)
– Fuel switching : using alternative fuel ( biofuels, electric or hybrid cars, hydrogen…)
Objective of evaluation
From urban planner’s perspective
More refined technical methods need to be developed coupled with macro-analysis
Identifying the key determinants of urban displacement patterns and analysis of energy consumption in urban transport
Building appropriate evaluation tools of urban transport GHG emissions
Devising counter-measures to curtail transport-related
emissions based on quantitative analysis and modelling
Objective (cont’d)From urban dwellers and firms’ perspectives
• Indicators for eco-mobility and green trips
• Can be used as eco-index comparer of different transport modes to citizens
• Provide indicators to firms and enterprises (e.g. logistic companies) in terms of environmental performance
• Promote low-carbon transport modes in computable and transparent fashion
Emission estimation method
World Bank (2009) report approach to estimating energy and emissions E
(1)
(2)
Survey and data accuracy are critical
– Vehicle use survey • Number of trips per day and travelled distance • Km/yr by vehicle type , fuel and use characteristics• Information on traffic condition, load factors
– Fuel consumption • Real use by vehicle type, fuel, drive type • Match to new vehicle consumption to estimate gap• Match to real time testing of local emissions
How to apply the method in Chinese cities ?
• Evaluation will be primarily based on the data generated by Municipal Traffic Management Offices in cities where real-time traffic observations are available. Relevant information from MTMO includes – Number of vehicles-km per hour – Type of circulation
• low-speed traffic flow in city center• High-speed traffic flow in open & fast motor-way • Congested roads…
• Then we estimate emissions by combining the data with hypotheses on types of vehicles and fuels (diesel, gasoline, electricity…)
• The evaluation of traffic will allow to estimate the transport activity (Si in Eq.1) and related emissions taking account of
– Types of vehicles
– Emission factors
Expected results • Comprehensive evaluation of CO2 emissions of urban
transport under different conditions, for instance: – A bus line operated in a dedicated lane for high-level transport service
– Conventional bus/tramway lines – Buses with priorities at crossing roads
• Approximation of specific emission curves of different transport modes under different traffic conditions and time of a day
• Provide citizens a simplified, internet-based and user-friendly emission indicator calculator through protected connection for the purpose of sustainable urban transport
• Create synergy between urban planning and transport management
• Catalyse low carbon transport financing
Evaluation tools can be useful input for researches on transport and urban development Data-oriented estimation of travel and consumption and
evolution for the years to come
Estimates based on means of transport developed and calculations of emissions from various actors (e.g. fuel) and their organisation
Evaluation of the effects of an investment in one or other transport modes under different traffic assumptions, calculations of operating costs and emissions
Simulation of different assumptions on distribution of activities in a territory in relation to the structure of transport and emission estimation for different patterns of urban development.
Towards a user-oriented system
Example of embedded emissions calculator which is integrated in the Paris public transport authority’s online roadmap system
Research perspective Building appropriate evaluation tools of
transport GHG emissions and scenarios analysis to inform low-carbon transport policy
Integration of ITS development in urban transport in Chinese cities
High-performing transport management and integrated multi-modal transport
Technical support for comprehensive urban development and underlying transport planning
low-carbon and ITS-oriented transport financing (programmatic CDM, NAMAs)
Collaborative institutions (tbd)
Chinese partners : Tongji University Chinese Academy of Transportation Sciences ERI Local governments, transport & traffic administration
French partners:MEEDDAT— ITS taskforce Veolia transport ; ADEME ; IDDRI AFCDUD
Suggested participating cities: Shanghai, Changzhou, Nanjing (bus lines operated by Veolia transport ), Wuhan, Shenzhen…?
Questions ?
Thank you!
Merci de votre attention!
谢谢关注!