International workshop 30 May 2013 Varese (Italy) JRC Measurement and Monitoring CO2 Emissions from HDV UITP input Ulrich Weber Expert, UITP EU Department
UITP A Worldwide Organisation for Public Transport The International Association of Public Transport (UITP) is the international network for public transport authorities and operators, policy decision*takers, scientific institutes and the public transport supply and service industry. All modes of public transport: metro, bus, light rail, regional and suburban rail, and waterborne transport. Connecting the world of public transport UITP acts as a platform for worldwide co* operation, business development and the sharing of know*how between our 3,400 members from 90 countries. UITP is the global advocate for public transport and sustainable mobility, and the promoter of innovations in the sector.
Index UITP: Comprehensive approach for bus systems and CO2 emission reduction Electrification of Bus systems Development of SORT cycles Interaction SORT cycles with EC preparation CO2 measurement HDV
UITP approach to CO2 emission reduction from Bus Systems UITP, the European public transport undertakings and bus manufacturers jointly produced their approach to decarbonisation of transport and GHG emission reduction Comprehensive approach: Comprehensive approach: Modal shift: the best carbon reducing strategy Traffic management Infrastructure and operational issues Smart energy use in vehicles Electrification bus systems Combined mobility
Operational Concept: Major Factor for Energy Consumption! City traffic Energy use per person (g eq petrol / passenger km) 80 60 40 20 0 250;750 cc 125;250 cc BRT* TramMetro MC Bus <2L >2L Cars Source: ADEME, Volvo * Volvo data on BRT and hybrid performance related to respective traffic conditions
Electrification of Bus Systems (1) UITP Bus Committee Activities Fuel & Traction Systems Observatory (FTSO) + TrolleyBus Working group Follow evolution of technologies and relative market take;up, exchange of experiences: hybrids, fuel cells and hydrogen buses, electric buses Europe and worldwide new developments on gas and bio;fuel buses few developments of H2 / Fuel Cells buses sustained sustained interest in hybrid buses growing interest in electric bus systems Monitoring development and exchange on trolleybus systems
Electrification of Bus Systems (2): Bus Electrification Studies (Project EBSF/European Bus System of the Future) Bus Electrification Study Source: Müller;Hellmann, VDV
Electrification of Bus Systems (3): Bus Electrification Studies (Project EBSF/European Bus System of the Future) Bus Electrification Study In;depth evaluation of different technical options for fully electric bus operation Various cost elements, technical/ operational evaluation, feasibility, environmental benefits, etc. Promising options if in best operational conditions
Electrification of Bus Systems (4) ; ZeEUS Project ZeEUS aims to be the main EU activity for following experiences and developments of electric urban bus systems UITP answered to the Call by preparing together with 40 partners the project proposal (November 2012) ZeEUS Zero Emission Urban Bus Systems Objective: demonstrate the economic, environmental and societal feasibility of electric urban bus systems Large European Demonstration Project Adoption by European Commission in April 2013 Negotiation with European Commission on; going Launch second half 2013
ZeEUS Partners Associations UITP; EURELECTRIC; VDV; UTP; ASSTRA; POLIS; HyER; EARPA Bus Manufacturers ALEXANDER DENNIS; VOLVO; VDL; SOLARIS; SKODA; IRIZAR PT Operators and Authorities TMB; TfL; ATAC; SWMU; SWBN; PMDP; SL; SPT; Veolia TransdevFinland; Energy Suppliers, Company ENDESA; VATTENFALL, PT, SSE, UK Power Network; ELECNOR; University and Research Centers VTT, UPC; RWTH; FRAUNHOFER IVI, UWB, FH LA, SAPIENZA Technology Suppliers, Engineering, Consultant FAAM, D Appolonia, ENIDE, IDIADA, BERENDS, GMV, TTR, TRL, PE, VIKTORIA
ZeEUS Demonstrations in 8 cities Barcelona Bonn Glasgow London Full electric, Plug-in Full electric Plug-in Plug-in 4 x 12m vehicles 4 x 12m vehicles 4 x 12m vehicles 4 x DD vehicles 12m 12m 12m double deck Overnight slow charging at the bus depot Different technologies. Effect of auxiliaries Fast charging at terminal stops, slow charging at bus depot Full scale operation. Inductive charging at end stations Targeted at air quality management areas (GPS controlled switch) Inductive charging at end stations, slow charging at bus depot 24h operation Muenster Plzen Rome Stockholm Full electric Full electric Trolley bus retrofit Plug-in 5 x 12m vehicles 2 x 12m vehicles 4 x 12m vehicles 8 x 12m vehicles 12m 12m 18m 12m Fast charging at end stations and at depot Robotic charging system. Energy buffer at charging stations. Fast charging at bus terminals, slow charging at bus depot Nano-tech batteries. Automatic collector connection Fast charging using trolley grid, when within the coverage area Catenary-free operation for large part of the line Fast charging at end stations, automatic to the roof of the bus Full scale operation
UITP SORT Initiative SORT Standardised On Road Test cycles (since 2002) #2
SORT: what is it? from engine tests to vehicle tests (bus operators best practices): relationship engine type;approval tests emissions and vehicle emissions in practice yesterday : ORT SORT aims standardisation of the ORT to obtain results measurable to obtain results repeatable to obtain results simple #8 to obtain results comparable
Building SORT cycles common denominator for different variables
Building SORT cycles SORT driving cycle for fuel consumption measurement
Building SORT cycles
SORT measurement conditions external test conditions road weather conditions vehicle set.up vehicle fuel adblue #13
How to use SORT Example: very heavy urban lines a = 1.3 b = 0.0 c = 0.0 Importance of the choice of the coefficients! It s the responsability of the operator! #15
UITP Bus Committee Activities on further SORT development Standardised On; Road Test Cycles (SORT) Developed by the UITP Bus Committee in collaboration with bus manufacturers. Addressing the lack of comparable information on bus fuel consumption Allow to compare offers during a call for tenders UITP Bus Committee SORT WG has developed new SORT;Hy for hybrids on by 28 th February validation on 18 th April Launch UITP World Conference 26 th ; 30 th May New version for electric busses SORT;E in development on by 2013
Outlook : Computer simulation as currently developed within the EC Measurement of CO2 Emissions Preparations Future perspectives of computer simulation opens door to simulate consumption data for buses of any kind of size. Why not? 2 requirements are essential for the purchaser of new buses: 1. To be able to compare at tender stage the consumption data 2. To be able to check such initially provided SORT values For UITP and its members it was important to coordinate SORT and the current EC preparations
Roadmap update 2010 SORT.Hy, SORT.E 1 UITP SORT Tendering ; MEASUREMENT SYSTEM release 2004 2 EC CO2 Legislation HDV Simulator ; TRUCK, BUS Lot1 Lot2 Lot3 3 ACEA WG CO2.HDV TF5 (bus & coach) TF2 (Simulation Tool Demo) 4 UITP WG Platform for dialogue and exchange ; MEASUREMENT SYSTEM 2002 2012 2016 2020?
Coordination between UITP SORT and ACEA Six meetings in 2011 and 2012 Major Bus manufacturers (through ACEA, coordination Daimler Evobus), ZF/Voith and UITP Bus Committee o Comparison of extensive ZF/Voith operational data (from 60 largest city bus operators in EU) with SORT cycles very close o Findings were provided as input in ACEA works and LOT 2 study
Thank you for your attention! ulrich.weber@uitp.org