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13.8: Sources

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    Sources for the Figures

    All figures provided by the author unless otherwise indicated.

    Figure 13.1.1: Getty Images. https://www.gettyimages.com/creative-images/ royaltyfree.

    Figure 13.1.3: Science Photo Library. https://www.sciencephoto.com/.

    Figure 13.1.6: California Energy Commission. 2018, December. Tracking Progress. https://ww2.energy.ca.gov/renewables...king_progress/ documents/renewable.pdf.

    Figure 13.2.5: California Stationary Fuel Cell Collaborative. http://www.casfcc .org/Map_Of_CA_Fuel_Cell_Installations.html.

    Figure 13.4.3: California Fuel Cell Partnership. https://cafcp.org/stationmap.

    Sources for the Text

    13.1 Introduction

    California Energy Commission. 2018, December. Tracking Progress. https:// ww2.energy.ca.gov/renewables/tracking_progress/documents/renewable. pdf.

    Evelyn, J. 1661. Fumifugium: or The Inconvenience of the Aer and Smoak of London Dissipated. Together with Some Remedies Humbly Proposed. Retrieved from https://books.google.com/books?id=AeI5NYp7WCwC.

    US Energy Information Administration. 2018, October. Electric Power Monthly. https://www.eia.gov/electricity/monthly/.

    13.2 Fuel Cell Technology

    California Stationary Fuel Cell Collaborative. http://www.casfcc.org/Map_Of_ CA_Fuel_Cell_Installations.html.

    13.3 100% Renewable Grid

    Eichman, J. D., et al. 2013. Exploration of the integration of renewable resources into California’s electric system using the Holistic Grid Resource Integration and Deployment (HiGRID) tool. Energy 50, 353–363.

    Saeedmanesh, A., Mac Kinnon, M. A., and Brouwer, J. 2018. Hydrogen is essential for sustainability. Current Opinion in Electrochemistry 12, 166–181.

    13.4 Merging of Transportation

    California Fuel Cell Partnership. https://cafcp.org/stationmap.

    Lane, B., Shaffer, B., and Samuelsen, S. 2019. A comparison of alternative vehicle fueling infrastructure scenarios. International Journal of Hydrogen Energy, in review.

    Margalef, P., et al. 2012. Efficiency comparison of tri-generating HTFC to conventional hydrogen production technologies. International Journal of Hydrogen Energy 37(12), 9853–9862.

    Stephens-Romero, S., et al. 2011. Projecting full build-out environmental impacts and roll-out strategies associated with viable hydrogen fueling infrastructure strategies. International Journal of Hydrogen Energy 36, 14309–14323.

    US Department of Energy. 2013, May. Report of the Hydrogen Production Expert Panel. A Subcommittee of the Hydrogen & Fuel Cell Technical Advisory Committee. https://www.hydrogen.energy.gov/pdfs...eport_2013.pdf.

    13.5 Smart Grid Technology

    Farhangi, H. 2010. The path of the smart grid. Power and Energy Magazine (IEEE) 8, 18–28.

    Gungor, V. C., et al. 2011. Smart grid technologies: communication technologies and standards. Industrial Informatics. IEEE Transactions 7, 529–539.

    Hart, E. K., and Jacobson, M. Z. 2011. A Monte Carlo approach to generator portfolio planning and carbon emissions assessments of systems with large penetrations of variable renewables. Renewable Energy 36, 2278–2286.

    Inman, R. H., Pedro, H. T. C., and Coimbra, C. F. M. 2013. Solar forecasting methods for renewable energy integration. Progress in Energy and Combustion Science 39, 535–576.

    Ipakchi, A., and Albuyeh, F. 2009. Grid of the future. Power and Energy Magazine (IEEE) 7, 52–62.

    Metke, A. R., and Ekl, R. L. 2010. Security technology for smart grid networks. Smart Grid. IEEE Transactions 1, 99–107.

    Potter, C. W., Archambault, A., and Westrick, K. 2009. Building a smarter smart grid through better renewable energy information. Power Systems Conference and Exposition, 2009.

    Sood, V. K., et al. 2009. Developing a communication infrastructure for the smart grid. 2009 IEEE Electrical Power & Energy Conference. Montreal, Canada. http://toc.proceedings.com/07340webtoc.pdf.

    13.6 Microgrid Technology

    Guerrero, J. M., et al. 2011. Hierarchical control of droop-controlled AC and DC microgrids: a general approach toward standardization. Industrial Electronics, IEEE Transactions 58, 158–172.

    Razeghi, G., et al. 2018. A generic microgrid controller: concept, testing, and insights. Applied Energy 229, 660–671.

    Samuelsen, S. 2016, December 5. Why the automotive future will be dominated by fuel cells. IEEE Spectrum. https://spectrum.ieee.org/green -tech/fuel-cells/why-the-automotive-future-will-be-dominated-by-fuel-cells.

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