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Is Hydrogen a Viable Fuel Alternative for a Traditional Tunnel Brick Kiln?

verfasst von: Fritz Mödinger

Erschienen in: Interceram - International Ceramic Review | Ausgabe 1/2021

Abstract

Abstract: Hydrogen has an established history as a chemical feedstock in industrial applications, but its use as an energy source on a commercial basis remains largely untested and undeveloped. In 1874-1875 Jules Verne advanced in 'Mysterious Island' the concept that water, split into its components, would someday be the fuel of the future. Is the use of hydrogen as an energy source still in the realm of fantasy?

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[1]

The GRHYD demonstration project: https://www.engie.com/en/businesses/gas/hydrogen/power-to-gas/the-grhyd-demonstration-project

[2]

www.engie.com/en/businesses/gas/hydrogen/power-to-gas/the-grhyd-demonstration-project

[3]

https://www.theguardian.com/environment/2020/nov/30/scottish-green-hydrogen-fife

[4]

European Commission (2020) Communication from the Commission to the European Parliament, the Council, The European Economic Committee and the Committee of the Regions - A hydrogen strategy for a climate-neutral Europe

[5]

Council for a Strategy for Hydrogen and Fuel Cells(2016) The Strategic Road Map for Hydrogen and Fuel Cells - Industry-academia-government action plan to realize a "Hydrogen Society" - https://www.meti.go.jp/english/press/2019/0312_002.html

[6]

IEA (2020), Hydrogen, IEA, Paris https://www.iea.org/reports/hydrogen and IEA, Low-carbon hydrogen production, 2010-2030, historical, announced and in the Sustaina-ble Development Scenario, 2030, IEA, Paris https://www.iea.org/data-and-statistics/charts/low-carbon-hydrogen-production-2010-2030-historical-announced-and-in-the-sustainable-development-scenario-2030

[7]

The Institution of Chemical Engineers (IChemE). Transitioning to hydrogen - As-sessing the engineering risks and uncertainties https://www.theiet.org/media/4095/transitioning-to-hydrogen.pdf

[8]

Hydrogen Council (2020) Path to hydrogen competitiveness - A cost perspective

[9]

IEA (2019), The Future of Hydrogen, IEA, Paris https://www.iea.org/reports/the-future-of-hydrogen

[10]

Moedinger, F. (2004) The utilization of biogas in a brickworks. ZI - Ziegelindustrie International No. 5/2004

[11]

Rentz, O.; Schmitting, A., Jochum, R.; Schultmann, F. (2001) Forschungsprojekt 298 94 313/07 Exemplarische Untersuchung der praktischen Umsetzung des integrierten Umweltschutzes in der Keramischen Industrie unter Beachtung der IVU-Richtlinie und der Erstellung von BVT-Merkblättern.

[12]

Adolf, J.; Balzer, C.H.; Louis, j.; Schabla, U.; Fischedick, M.; Arnold, K.; Pastowski, A., Schüwer, D. (2017) Shell Hydrogen Studiy - Energy of the Future? Sustainable Mobility through Fuel Cells and H ₂ www.shell.de/h2study / www.shell.com/hydrogen. Pub-lished by Shell Deutschland Oil GmbH.

[13]

Hinkley, J. et al. (2016) Cost assessment of hydrogen production from PV and elec-trolysis. Report to ARENA as part of Solar Fuels Roadmap, Project A-3018

[14]

Santos, D. M. F., Sequeira, C- A. C., & Figueiredo, J. L. (2013). Hydrogen production by alkaline water electrolysis. Química Nova, 36(8), 1176-1193. https://dx.doi.org/10.1590/S0100-40422013000800017

[15]

IRENA (2018), Hydrogen from renewable power: Technology outlook for the energy transition, International Renewable Energy Agency, Abu Dhabi.

[16]

https://www.energy.gov/eere/fuelcells/doe-technical-targets-hydrogen-production-electrolysis

[17]

ENEA Consulting (2016) The Potential of Power-to-Gas - Technology review and eco-nomic potential assessment

[18]

Kougias I, Szabó Sá. (2017)Pumped hydroelectric storage utilization assessment: Forerunner of renewable energy integration or Trojan horse?, Energy

[19]

Graph based on data by Entso-E Transparency Platform September 2020 and https://www.next-kraftwerke.de/wissen/negative-strompreise (2020) et al

[20]

Hermanns, R. T. E. (2007). Laminar burning velocities of methane-hydrogen-air mix-tures. Technische Universiteit Eindhoven. https://doi.org/10.6100/IR630126

[21]

BDEW-Strompreisanalyse Januar 2020 Haushalte und Industrie and EPEX Spot

[22]

Ecofys (project leader), Fraunhofer Institute for Systems and Innovation Research. Öko-Institut (2009) Methodology for the free allocation of emission allowances in the EU ETS post 2012 - Sector report for the ceramics industry

[23]

Moedinger, F. (2020) Decarbonization of the Heavy Clay Industry. Interceram - In-ternational Ceramic Review, 03/2020

Titel: Is Hydrogen a Viable Fuel Alternative for a Traditional Tunnel Brick Kiln?
verfasst von: Fritz Mödinger
Publikationsdatum: 01.04.2021
Verlag: Springer Fachmedien Wiesbaden
Erschienen in: Interceram - International Ceramic Review / Ausgabe 1/2021
Print ISSN: 0020-5214
Elektronische ISSN: 2523-8957
DOI: https://doi.org/10.1007/s42411-020-0436-6

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