Relevant bibliographies by topics / Power-to-Hydrogen (PtH2

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Academic literature on the topic 'Power-to-Hydrogen (PtH2'

Author: Grafiati
Published: 5 June 2025
Last updated: 2 August 2025

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Journal articles on the topic "Power-to-Hydrogen (PtH2"

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Ramya, G., D. Jayalakshmi, Ashish Raghuwanshi, L. Hussien Jasim, Sanjeev Kumar Shah, and Nitin P. Sherje. "Optimization of Multi-Energy Systems for Efficient Power-to-X Conversion." E3S Web of Conferences 540 (2024): 08003. http://dx.doi.org/10.1051/e3sconf/202454008003.

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This paper reviews the work in the areas of optimization and efficiency enhancement of multi-energy systems (MES) for power-to-X conversion. The first study delves into the deployment of Power-to-Hydrogen (PtH2) within district-scale MES, emphasizing the role of PtH2 in achieving zero operational CO2 emissions, especially in systems with high renewable energy generation. The study also highlights the significance of heat pump efficiency, battery capital cost, and lifetime in influencing PtH2 implementation. The second investigation focuses on the integration of energy strategies for the transp
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Zou, Bokang, Yuanshi Zhang, Qirui Chen, et al. "Low‐carbon economic schedule of the H2DRI‐EAF steel plant integrated with a power‐to‐hydrogen system driven by blue hydrogen and green hydrogen." IET Renewable Power Generation, August 2024. http://dx.doi.org/10.1049/rpg2.13064.

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AbstractHydrogen direct reduction iron coupled with electronic arc furnace (H2DRI‐EAF) technology, as an important technology for decarbonisation in the iron and steel industry, has the advantages of high electrification and low carbon emissions. However, the large demand for hydrogen in this technology relies significantly on the production of electrolytic hydrogen, leading to a substantial increase in power consumption in the steel production process. Moreover, the use of an unclean power source in electrolytic hydrogen production leads to increases in indirect carbon emissions, reducing the
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Sina, Heidari, and Weber Christoph. "Hydrogen in the Integrated Energy System of the Future - A Case Study for the European Energy Transition." January 14, 2023. https://doi.org/10.5281/zenodo.7500859.

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Among the available options to reduce greenhouse gas emissions, one is to substitute fossil fuels for hydrogen from low-carbon sources. In some industrial sectors such as chemical industries, steel manufacturing and shipping, options to decarbonize processes are limited and therefore hydrogen represents an attractive option to substitute the current fossil fuels. In the present work, we use an integrated model of power, natural gas and carbon markets to analyze the substitution of fossil fuel and particularly natural gas for hydrogen. We consider three scenarios, representing three different p
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Book chapters on the topic "Power-to-Hydrogen (PtH2"

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Touili, Samir, Salaheddine Amrani, Hanane Ait Lahoussine Ouali, Ahmed Alami Merouni, and Hassane Dekhissi. "Evaluation of Photovoltaic, Wind and Hybrid Energy Systems for the Power-to-Hydrogen (PtH) Concept in Eastern Morocco." In Lecture Notes in Electrical Engineering. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-6223-3_79.

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Conference papers on the topic "Power-to-Hydrogen (PtH2"

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Medina-Almazán, A. L., G. Galicia-Aguilar, J. C. Zenteno-Suárez, C. Arganis-Juárez, N. López-García, and M. Marín-Almazo. "Effect of Uncontrolled Hydrogen Injection on SCC Susceptibility of 304L Steel in High Temperature Water." In ASME 2017 Pressure Vessels and Piping Conference. American Society of Mechanical Engineers, 2017. http://dx.doi.org/10.1115/pvp2017-65040.

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For operation of existing nuclear power plants (NPPs) beyond their design lifetime (up to 80 years), one of the main issues is the assessment of the performance of its structures, systems and components (SSC) during the period of extended operation. In Boiling water reactors (BWR), the reactor pressure vessel internals (RPVI) components are submitted to both, Neutron irradiation and high oxidizing environment which lead (together, by itself or mixed with a sensitized condition) to stress corrosion cracking (SCC) [1–4]. One of the measures to mitigate SCC in BWR is the decrease of the Electroch
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