29.05.2026 • Forschung

Mini Review: Renewable Energy Revolution—Transforming Resources with Power-to-X

Fossil fuel combustion remains the dominant driver of global greenhouse gas emissions.

This study thoroughly examines the “power-to-X (PtX) concept,” highlighting its potential to reduce carbon emissions and serve as an attractive alternative to fossil fuel consumption. Various forms of PtX, including power-to-hydrogen (PtH), power-to-ammonia (PtA), and power-to-methanol (PtM), were examined based on their production techniques. The limitations of PtX power plants, including costs, efficiency, and transportation, were discussed. The significance of national and global policies, particularly in providing proper funding to enhance the techniques used in PtX, has been highlighted. We conclude with policy and system-integration levers (carbon pricing, offtake, certification) required to scale PtX.

Dr. Ahmet Güngör, Prof. Emre Erdem, Department of Chemical Engineering, Kocaeli University, Kabaoglu, İzmit

DOI: 10.1002/cite.70058

Batterie

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Im Dossier "Batteriechemie, Batterieproduktion und Batterierecycling" stellen wir industrielle Lösungsansätze für den Batterieanlagenbau dar.

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Trendbarometer für die Chemie- und Pharmaindustrie. Präsentiert von CHEManager und Santiago Advisors Management-Beratung für Strategie und Organisation.

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Uniform Gas Flow Distribution into Several Partial Flows under Consideration of Closable Outlets

Achieving a uniform distribution of a gas flow into a specific number of partial flows poses a challenge in various fields and can be accomplished using static flow distributors.

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A Versatile Setup for Determining Hydrogen and Oxygen Crossover of Electrolyzer Membranes and MEAs

Hydrogen and oxygen crossover in polymer electrolyte membrane (PEM) electrolyzers is critical for both operational safety and product gas purity.

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Mid-Infrared Spectroscopy and Machine Learning for Chlorogenic Acid Quantification in Coffee

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DEXPI 2.0: Synergistic Integration of PFD and P&ID in a Unified Digital Model

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Experimental Parameter Study of the Factors Influencing Dry Dispersion Using Laser Diffraction

The optimization of dispersion processes is crucial for the particle size of the end product and the increase in efficiency of such processes.

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DEXPI 2.0: Synergistic Integration of PFD and P&ID in a Unified Digital Model

Experimental Parameter Study of the Factors Influencing Dry Dispersion Using Laser Diffraction

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