Low-Carbon Hydrogen Economy Perspective and Net Zero-Energy Transition through Proton Exchange Membrane Electrolysis Cells (PEMECs), Anion Exchange Membranes (AEMs) and Wind for Green Hydrogen Generation

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This paper provides an energy-system perspective on transitioning to a low-carbon, net-zero energy state by generating green hydrogen, focusing on proton exchange membrane electrolysis cells (PEMECs), anion exchange membrane (AEMs), and coupling these technologies with wind power. It discusses the roles of these specific electrolysis membrane technologies within a broader hydrogen-economy and transition framework. The main limitation is that, based on the provided text, no study population, experimental methods, or quantitative outcomes are described, making the contribution appear primarily conceptual rather than empirical. The paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

Even though there has been a rapid increase in the use of hydrogen production techniques in recent years, there is still an exigent need for affordable, sustainable and efficient low-carbon hydrogen generation methods. Based on the current United Nations Sustainable Development Goals, in recent decades, alkaline electrolysers and proton exchange membrane electrolysers have reached high commercial and industrial levels in the hydroprocessing industry. The energy generated from wind and solar energy is integrated with anion exchange membranes (AEMs) and proton exchange membrane fuel cells (PEMFCs), which produce clean hydrogen. Anion exchange membrane (AEM) electrolysers overcome the worst problems of previous types of electrolysers because of their ability to use nonplatinum and nonnafion membrane materials, high hydrogen storage density, and compact microcells recommended for large-scale low-carbon systems. Another technique for hydrogen production via oxidation is ethanol electrocatalysis in PEMECs for ultraclean hydrogen production. In this study, hydrogen production via water electrolysis with the help of anion-conducting solid polymer electrolytes and a novel integrated inorganic membrane electrode assembly (I2 MEA) for anion exchange membrane (AEM) water electrolysis by using inorganic Mg-Al layered double hydroxides (Mg-Al LDHs) as an ionic conductor were also theoretically and economically investigated for the purpose of producing low-carbon hydrogen.
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