In this paper the authors examine the potential air quality impacts of hydrogen transportation fuel from a lifecycle analysis perspective, including impacts from fuel production, delivery, and vehicle use. They assume that hydrogen fuel cell vehicles are introduced in a specific region, Sacramento County, California. They consider two levels of market penetration where 9 % or 20 % of the light duty fleet are hydrogen fuel cell vehicles. The following three natural gas to hydrogen supply pathways are assessed in detail and compared in terms of emissions and the resulting changes in ambient air quality: (1) onsite hydrogen production; (2) centralized hydrogen production with gaseous hydrogen pipeline delivery systems; and (3) centralized hydrogen production with liquid hydrogen truck delivery systems. All the pathways examined use steam methane reforming (SMR) of natural gas to produce hydrogen. The source contributions to incremental air pollution are estimated and compared among hydrogen pathways. All of the hydrogen pathways result in extremely low contributions to ambient air concentrations of NO(x), CO, particulates, and SO(x), typically less than 0.1 % of the current ambient pollution for both levels of market penetration. Among the hydrogen supply options, it is found that the central SMR with pipeline delivery systems is the lowest pollution option available provided the plant is located to avoid transport of pollutants into the city via prevailing winds. The onsite hydrogen pathway is comparable to the central hydrogen pathway with pipeline systems in terms of the resulting air pollution. The pathway with liquid hydrogen trucks has a greater impact on air quality relative to the other pathways due to emissions associated with diesel trucks and electricity consumption to liquefy hydrogen. However, all three hydrogen pathways result in negligible air pollution in the region.


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    Title :

    Lifecycle impacts of natural gas to hydrogen pathways on urban air quality


    Additional title:

    Lebenszyklus-Einflüsse beim Übergang von Erdgas auf Wasserstoff für die städtische Luftqualität


    Contributors:


    Publication date :

    2007


    Size :

    12 Seiten, 21 Bilder, 8 Tabellen, 17 Quellen




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English




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