SustainablEarth Power boasts that AGS technology has “disruptive” and “transformative” power
SustainablEarth Power Youtube channel broadcasted Eavor’s closed-loop technology in a new video, advocating how Advanced Geothermal Systems (AGS) are a disruptive and transformative technology that has the potential to become a “globally significant solution for clean electricity.” AGS has many advantages over traditional geothermal technologies. Its technology mitigates many challenges and risks associated with drilling systems that traditional geothermal and oil and gas companies use, such as exploratory risk and induced seismicity. Being a form of AGS, this gives Eavor-Loop™ technology the means to be implemented almost anywhere on the planet, as there is a nearly endless supply of heat in the Earth’s mantle continuously heating the bedrock beneath our feet.
Collaborative research between Eavor and Sinton Lab reveals how phase change slurries can optimize closed-loop technology
Published in the Renewable Energy journal, Eavor’s Matt Toews, Michael Holmes, and Vlad Zatonski’s collaborative research with Sinton Lab has unearthed new knowledge about phase change slurries (PCS), proving the fluid’s vitality to enhance closed-loop systems. The publication was showcased in a LinkedIn post by Vikram Soni, where the article titled “Performance Analysis of Phase Change Slurries for Closed-Loop Geothermal System” introduced results of the joint research, which could provide opportunity to utilize this new knowledge in a way that benefits future Geoenergy systems.
Italian publication lists Eavor-Loop technology as a viable example of clean, reliable Geoenergy for EU’s transition to clean power
Italian publication Yahoo Finanzas wrote an article calling for greater attention to be paid to underutilized geothermal resources in Tuscany. Furthermore, the article proposed that Eavor-Loop™ technology could be a viable asset in overcoming investment risk associated with geothermal energy. Situated in Larderello, the world’s most ancient geothermal power site, Enel Green Power harnesses the earth’s heat to generate approximately 5 percent of Italy’s clean energy. This is a model that can be expedited to other European nations, as only about 1GW of renewable electricity capacity is currently being provided by geothermal in the EU as of 2022.
Calgary.tech platforms Eavor’s recent achievements and financial support at Geretsried
Eavor’s Geoenergy technology was featured in an article published by calgary.tech, noting the company’s accomplishments in creating local jobs and enhancing energy security across the globe. The Alberta Government’s $2 million funds to assist Eavor’s first commercial power plant in Geretsried, Germany, was highlighted alongside Rebecca Schulz’s compliments for Eavor’s innovations. Schulz, among various policy makers and politicians, including German Chancellor Olaf Scholz, attended the inauguration of the Geretsried power plant last month, and described Eavor as a “made-in-Alberta success story.”
Germany aims to amp up geothermal energy as a means to sever dependency on fossil fuels
A euronews news article encompasses Germany’s overarching goal to invest exponentially more in clean energy while simultaneously cutting off dependance on Russian natural gas. In the wake of Russia’s invasion of Ukraine, Berlin is actively exploring strategies to reduce its reliance, one project being the repurposing of a disused airport and remaking it into a geothermal site. This increased push for geothermal production will also align with Germany’s objective to enhance energy independence and sustainability.
New Mexico Senator showcases Eavor-Deep™ at the Advanced Energy Tech Conference
Senator Martin Heinrich of New Mexico recently presented Eavor as an innovative cleantech company during his presentation at the Advanced Energy Tech Conference. In showcasing Eavor-Loop™ technology and the successful demonstration of Eavor-Deep™, he presented Eavor’s actions as a pivotal part in New Mexico’s strive for further deployment of geothermal technology.