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Whole-systems modelling of alternatives for future domestic transport


Reference:

Samsatli, S., Ramos, A., Matchett, M., Brandon, N. P., Shah, N. and Samsatli, N. J., 2016. Whole-systems modelling of alternatives for future domestic transport. Computer Aided Chemical Engineering, 38, pp. 457-462.

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    Official URL:

    http://dx.doi.org/10.1016/B978-0-444-63428-3.50081-3

    Abstract

    Two alternatives for future domestic transport, powered by renewable wind energy, were compared from a whole-systems point of view using a mixed-integer linear programming model that accounts for the pathways from the primary energy source to the end use. The model simultaneously determines the number, size and location of conversion and storage technologies and the structure of the transmission network, as well as their hourly operation over an entire year. The integrated wind-electricity-hydrogen network presented in Samsatli et al., 2015 (for hydrogen fuel cell vehicles only) was extended to include grid-scale batteries and electricity demands from electric cars, accounting for the aggregate charge state of the vehicles’ batteries. Two cases were considered: one where the electric vehicle batteries could only be charged overnight and one where some of the vehicles could also be charged in the afternoon (e.g. while the owners are at work). The former case results in a more expensive network due to the grid-scale battery storage required; both cases are cheaper than satisfying transport demand using fuel cell vehicles mainly because of the much higher cost of the hydrogen distribution network.

    Details

    Item Type Articles
    CreatorsSamsatli, S., Ramos, A., Matchett, M., Brandon, N. P., Shah, N. and Samsatli, N. J.
    DOI10.1016/B978-0-444-63428-3.50081-3
    DepartmentsFaculty of Engineering & Design > Chemical Engineering
    Research Centres?? WIRC ??
    EPSRC Centre for Doctoral Training in Statistical Mathematics (SAMBa)
    RefereedYes
    StatusPublished
    ID Code51775

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