Barony Power Corp. is embarking on a collaborative project with the University of Tasmania and Deakin University to pioneer the production of 3D printed components for Green Hydrogen Electrolysers and Fuel Cells. The initiative aims to transform the manufacturing landscape of Green Hydrogen by leveraging innovative 3D printing techniques to mass-produce essential components. The success of this project could lead to a substantial reduction in manufacturing costs and delivery times, thereby enhancing the competitiveness of Green Hydrogen as an energy source. Green Hydrogen, generated from renewable sources such as wind and solar, is positioned as a sustainable alternative to conventional fossil fuels, offering a clean energy solution that can be utilized across industries like transportation, electricity generation, and heating. The development of Green Hydrogen technologies is projected to play a pivotal role in reducing global greenhouse gas emissions. The potential growth of the green hydrogen market is substantial, with Deloitte predicting a value of $1.4 trillion annually by 2050 and the creation of millions of jobs. Barony Power Corp.'s focus on technological innovation and academic collaboration underscores its commitment to driving the transition towards a more sustainable and green energy future.