ITI/Forschung/Projekte/Vecto
HDV-CO2-Lot4-SR7 - VECTO tool development: completion of methodology to simulate Heavy Duty Vehicles, fuel consumption and CO2 emissions; upgrades to the existing version of VECTO, and completion of certification methodology to be incorporated into a Comi
The Institute develops the future method for the CO2 certification of Heavy Duty Vehicles. The method is based on the measurement of the components relevant for the fuel consumption (mass, rolling resistance coefficient of tires, aerodynamic drag, losses in the drive train, fuel map of the engine, power demand of auxiliaries) combined with the simulation of fuel consumption and CO2 emissions for the entire vehicle using the measured component data. The simulation is using the principles of vehicle longitudinal dynamics and a driver model to compute engine power and engine speed for standardises test cycles. In Lot4 all open issues in the definition of the component test procedures and in the software (“VECTO”) shall be solved to allow the implementation of the procedure in the certification of conventional trucks with gross weights above 7.5 tons. In parallel basic work for light trucks and for hybrid vehicles shall be performed.
Mitarbeiter
Konsortialführer/in bzw. Koordinator/in von mehreren TU Graz Instituten
Stefan Hausberger
Ao.Univ.-Prof. Dipl.-Ing. Dr.techn.
Projektleiter/in an der OE
Helmut Eichlseder
Univ.-Prof. Dipl.-Ing. Dr.techn.
Teilnehmer / Mitarbeiter
Philipp Gretzl
Michael Krisper
Dipl.-Ing. BSc
Raphael Luz
Dipl.-Ing.
Markus Quaritsch
Dipl.-Ing. Dr.techn.
Martin Rexeis
Dipl.-Ing. Dr.techn.
Fördergeber
  • European Commission - Europäische Kommission, EU
Externe Partner
  • International Council on Clean Transportation Europe, ICCT
  • CE Delft
  • TNO - Nederlandse Organisatie voor Toegepast Natuurwetenschappelijk Onderzoek, Building & Construction Research
Forschungsgebiete
  • Industrial Informatics

Ausgewählte Publikationen

2017
Buchkapitel
Michael Krisper, Johannes Iber, Tobias Rauter and Christian Josef Kreiner Physical Quantity: Towards a Pattern Language for Quantities and Units in Physical CalculationsPhysical Quantity: Towards a Pattern Language for Quantities and Units in Physical Calculations Publikation in PURE anzeigen
Michael Krisper, Johannes Iber, Tobias Rauter and Christian Josef Kreiner Insertion SpacesInsertion Spaces Publikation in PURE anzeigen
Tagungsbeitrag
Michael Krisper, Christian Josef Kreiner, Johannes Iber and Markus Quaritsch A Metric for Evaluating Residual Complexity in Software A Metric for Evaluating Residual Complexity in Software 138-149 Publikation in PURE anzeigen
Michael Krisper, Johannes Iber, Tobias Rauter and Christian Josef Kreiner Physical Quantity: A Pattern Language for Quantities and Units in Physical Calculations Physical Quantity: A Pattern Language for Quantities and Units in Physical Calculations Publikation in PURE anzeigen
0
Sonstiger Beitrag
Michael Krisper, Johannes Iber, Tobias Rauter and Christian Josef Kreiner Sortcolumn: Managing the Sequence of Arbitrary Ordered Elements Publikation in PURE anzeigen