Evaluation method for development of electric road system network in Sweden – an analysis within the Feasibility study E22-project
This report is the result of the work package on Evaluation method within the project “Feasibility study of the electric road system pilot E22”. The original objective with the work package was to describe an evaluation method for the introduction of electric road systems. Important objectives for electric road system (ERS) projects and parameters for measuring goal achievement and, customer satisfaction was to be defined. The results are based on documentation from comparable infrastructure projects, workshops and interviews with stakeholders and project partners. The method was kept as originally outlined but instead of identifying objectives, which can depend on the actor that initiates/is the owner of the ERS, we have taken the existing framework and the processes for evaluation of large-scale infrastructure projects that is already established as the starting point. The existing processes and methods are described at the Swedish Transport Administrations websites for industry. The evaluation process is done according to established calculation and evaluation tools with corresponding manuals. The project has focused on identifying parameters that are unique to ERS or of specific importance for the outcome of an ERS project. Consideration was taken to the fact that ERS is a new technology and that there are knowledge gaps especially for the implementation and operational phases that needs to be filled. For these phases extra evaluations could give important feedback during the development of a larger ERS network. The study has not assumed a specific technology for implementation or for the transmission of electricity to the vehicles, i.e., neither overhead line nor road based. The results from this work package shows that there is an existing framework for evaluations that can be used, and many important parameters are already included in this framework. Some additions to the framework´s methods and tools of parameters specific for ERS needs to be done. Examples of parameters for which new evaluation tools need to be developed and included in the existing framework include: • profitability from a business perspective and in comparison, to other alternatives, • climate impact from a life cycle perspective that also includes the vehicle and fuels/energy used for propulsion and • the optimal level of the user fee from a socioeconomic perspective. How often follow-ups are made also needs to be adjusted in the existing framework. Follow-ups needs to be done more frequently and more parameters needs to be evaluated. There is also a need for a learning process and knowledge sharing framework to enable a fast enrollment of electric road systems in a cost-efficient way. Additional evaluations are also required for ERS since it is new technology that has not been implemented on a large scale. Examples of such parameters include operational and maintenance for ERS, accidents, noise, emissions of particulates, impact on plant and animal life, electromagnetic fields and electromagnetic compatibility. As a next step to develop the evaluation methods for the build-out of ERS we recommend to using the first permanent stretch being built between Örebro and Hallsberg to develop a learning process framework and a process for knowledge sharing of planning, procurement and building of ERS. At this first permanent stretch, parameters with uncertainty should also be evaluated. A direct continuation of this project would also be to connect the results from the work-packages on evaluation and upscaling to quantify uncertain parameters to better evaluate their real importance.