Chemical Technologies in the Energy Transition -

Chemical Technologies in the Energy Transition

Buch | Hardcover
270 Seiten
2024
Royal Society of Chemistry (Verlag)
978-1-83916-214-5 (ISBN)
198,25 inkl. MwSt
In the first book to address this topic, readers are introduced to the concepts, challenges, steps forward and necessity for integration of the energy and chemistry sectors.
The ongoing energy transition will require a number of emerging technological concepts (e.g. Power-to-X and Hydrogen Economy, etc.) which will ultimately combine renewable energy, novel chemical production/conversion processes and innovative, integrated devices/systems to produce sustainable platform molecules, fuels and materials.


In this book, readers are introduced to selected concepts, challenges, steps forward and necessities relating to the technologies required to deepen the integration between the energy and chemical sectors.


Selected key technologies to support this integration will be discussed, with particular emphasis on the catalytic systems and devices required to enable the transition including electrochemical cells, CO2 hydrogenation and plasma-assisted processes. Several chapters will discuss evolving and emerging technologies and tools (e.g. LCA) that will be required to enable a green and successful energy transition.


The book will be of interest to graduate students and researchers in renewable energy, catalysis, chemical engineering and chemistry, wishing to have an introduction to the topic and associated technologies.

Dr. White holds a doctorate from University of York (UK), concerning the development of porous polysaccharide-derived materials, carbonaceous derivatives and the associated Spin-off company Starbon Technologies® Ltd. He worked previously at the Max Planck Institute of Colloids & Interfaces, the Technische Universität Berlin, and the Institute for Advanced Sustainability Studies. Between 2015 and 2019, Dr. White led the R&D group “Sustainable Catalytic Materials” at the Fraunhofer Institute for Solar Energy Systems (Freiburg, Germany), as financed through a “Fraunhofer Attract” award. In 2017, he was awarded the “Young Researcher Award” by the Global Green Chemistry Centres Network. Since 2018, he sits on the advisory board of the Royal Society of Chemistry journal “Reaction Chemistry & Engineering”. He is currently working at TNO as a senior scientist, with R&D focused on catalysis, electrons to fuels, photons to fuels, materials and sustainable chemistry. His R&D interests relate to catalytic material/process design and evaluation, synthetic fuels/platform molecules, and CO2/biomass conversion with the aim to support the elaboration of renewable energy driven “Power-to-X” schemes (where X = chemicals, intermediates, materials etc.). Dr. Figueiredo is an assistant professor in electrochemistry at the TU/e where her research is devoted to electrocatalysis and electro(catalytic)synthesis for sustainable processes and production of high value chemicals like fuels and organic molecules from “waste” substrates as for example, carbon dioxide and biomass. The principle aim of her group’s R&D is to understand, develop and optimise electrochemical reactions under practical relevant conditions in order to give a step further on the usage of electrochemistry at industrial scale. Dr. Figueiredo studied chemistry at Porto University (Portugal) where she obtained her MSc degree in 2008. From 2009 to 2012, she completed her PhD in electrocatalysis (topic: reduction of nitrogen containing compounds) under the supervision of Prof. J. Feliu. Following postdoctoral positions at different Universities (Kallio Group, Aalto University (FIN); Koper Group, Leiden University (NL); Rosmeisl and Escribano Groups, University of Copenhagen (DK)), Prof. Figueiredo worked as a Jr Scientist at Avantium (Amsterdam, NL) on CO2 electrochemical conversion. Since April 2019 she has held the position of assistant professor at the Inorganic Materials Chemistry research group at TU/e.

Introduction
Water Electrolysis Technology and Challenges
Development of Reactors for Direct Solar Water Splitting
Plasma Chemistry for Power-to-X
Electrochemical CO2 Activation and Reactor Design
Principles of Electrochemical Valorization of Biomass
N2 Electrochemical Activation
Mechanism and Structure–Activity Relationships of Catalytic CO2 Methanation
Learning from the Life Cycle Assessment of Power-to-hydrogen Systems

Erscheinungsdatum
Reihe/Serie Energy and Environment Series ; Volume 33
Verlagsort Cambridge
Sprache englisch
Maße 156 x 234 mm
Gewicht 563 g
Themenwelt Naturwissenschaften Biologie Ökologie / Naturschutz
Naturwissenschaften Chemie Physikalische Chemie
Technik Elektrotechnik / Energietechnik
ISBN-10 1-83916-214-7 / 1839162147
ISBN-13 978-1-83916-214-5 / 9781839162145
Zustand Neuware
Informationen gemäß Produktsicherheitsverordnung (GPSR)
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UTB (Verlag)
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