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Keep Rockin Eavor, need Matt's e-mail, have some ideas for him from Sask!

How deep do you drill? What is the temperature at the bottom of the bore holes?

th big question is th cost pr megawatt

Aglae Street

That is really inspiring !!! i am working on hard tech right now i am at the early stage this is what i needed as a solo founder an inspiration!! thank you all @eavor keep doing the great work

Ines Ford

Greetings from Geretsried...

I love what you do. I would also love to help in some way, I'm a plumber with a decent understanding of physics, also with good understanding of electronics.

Love it!!

What chemicals are you using at what concentrations and how will it effect ground water you drill through? You really need to address the questions in your comment sections. If not these videos just seem like propaganda for idiots

You're my new favorite scientists! How can I invest in Eavor? I tried reaching out but haven't heard back

I love your technology. It will be a good alternative in places where they won't allow geothermal fracking.

Proposal for Sustainable Geothermal Energy, Basalt Fiber Manufacturing, and Carbon-Neutral Cement in Island Nations I hope this message finds you well. I am writing to present an innovative proposal that leverages the geological resources of island nations, combining geothermal energy with basalt fiber manufacturing and carbon-neutral cement production to drive sustainable development. Island nations, particularly those located along the Pacific Ring of Fire, possess unique geological advantages that can be utilized for creating resilient and sustainable infrastructure. By harnessing these resources, we can support long-term economic growth, address the challenges of climate change, and reduce dependence on imported construction materials. 1. Geothermal Energy: A Renewable and Reliable Power Source Island nations such as Vanuatu and Fiji have abundant geothermal energy potential due to their volcanic activity. This renewable energy can be used to: Power local industries, reducing reliance on fossil fuels and providing energy independence. Be a clean energy source for manufacturing, particularly in energy-intensive processes like basalt fiber production and cement manufacturing. Export excess power, positioning island nations as leaders in renewable energy development. 2. Basalt Fiber Manufacturing: A Sustainable Alternative The volcanic nature of many island nations results in the presence of basalt, which can be refined into basalt fiber. Basalt fiber is a sustainable, eco-friendly material that can be used to replace steel in reinforcing concrete structures. The advantages include: Corrosion resistance: Perfect for maritime and coastal construction. Lightweight strength: Reducing the overall carbon footprint of construction. Sustainable: Basalt fiber production has a lower environmental impact compared to traditional steel production. 3. Carbon-Neutral Cement Production Limestone, formed from coral and shellfish deposits, is another abundant resource on many islands. Using carbon-neutral methods to produce cement, such as pairing it with waste-to-energy plants, ensures a sustainable approach: Waste-to-energy systems produce syngas to fuel cement kilns, reducing fossil fuel consumption. Fly ash from waste combustion can be used as an additive in cement, enhancing strength and durability. Carbon capture technologies, like CarbonCure, can embed CO₂ into cement, reducing its carbon footprint and contributing to climate action goals. 4. Resilient Infrastructure for Climate Change By utilizing geothermal energy, basalt fiber, and carbon-neutral cement, island nations can build resilient infrastructure that is capable of withstanding the effects of climate change, including: Sea-level rise: Coastal defense structures reinforced with basalt fiber and sustainable concrete will be crucial. Stronger storms and typhoons: Durable materials such as basalt fiber-reinforced concrete offer long-lasting protection for homes, roads, and public infrastructure. Conclusion: A Sustainable and Resilient Future This proposal aims to harness the natural geological resources of island nations and couple them with innovative technologies to create sustainable industries. By combining geothermal energy, basalt fiber manufacturing, and carbon-neutral cement, we can support economic diversification, climate resilience, and environmental sustainability. I would be honored to discuss this proposal further with you and explore how we can make this vision a reality for island nations like Vanuatu. I look forward to your thoughts and welcome the opportunity to collaborate. Best regards,

Proposal for Pairing Eavor’s Geothermal Technology with Sustainable Industrial Development in Vanuatu Dear Eavor Team, I hope this message finds you well. My name is David Hans Elze, and I am leading a sustainable development initiative focused on building renewable energy and sustainable industrial infrastructure in island nations, specifically Vanuatu. Our vision is centered on using the islands’ geothermal potential to power industrial manufacturing while maintaining their natural beauty, and we believe that Eavor's groundbreaking closed-loop geothermal technology could be a key enabler of this vision. The Vision: Pairing Sustainable Geothermal Energy with Industrial Manufacturing Vanuatu, located within the Pacific Ring of Fire, has tremendous geothermal energy potential that remains largely untapped. Our proposal seeks to not only harness this energy but to pair it with the production of sustainable materials, such as basalt fiber derived from the volcanic rock abundant on the islands. This approach allows us to drive economic diversification in Vanuatu-one of the key needs for island nations heavily reliant on tourism, especially in the wake of global disruptions such as the COVID-19 pandemic. The beauty of Vanuatu's geothermal resources lies in their ability to be utilized underground, preserving the island's stunning landscapes while providing a clean, renewable power source. By integrating Eavor’s closed-loop geothermal systems, which have minimal environmental footprint, we aim to generate sustainable, baseload power for basalt fiber manufacturing and other commercial industries. These industries can then supply sustainable construction materials, which are increasingly in demand due to the global push for green building practices. Eavor’s Role in Realizing this Vision Eavor’s closed-loop geothermal technology is ideally suited for this environment, offering scalability, reliability, and the ability to deliver dispatchable energy. Your technology’s benign environmental impact aligns perfectly with our goals to preserve Vanuatu’s natural beauty, ensuring that power generation remains out of sight and in harmony with the island’s ecosystems. We envision a sustainable manufacturing hub powered by geothermal energy, producing high-value basalt fiber products that can be exported to global markets. Basalt fiber is known for its durability, lightweight properties, and corrosion resistance, making it perfect for construction, infrastructure, and marine applications, especially in climate-vulnerable regions. Vanuatu could become a center of sustainable industry in the Pacific, leading the region in climate-resilient development. Why this Matters: Economic Resilience and Environmental Protection This project aims to solve two of the most pressing challenges facing small island nations today: Economic Vulnerability: Like many island nations, Vanuatu’s economy is heavily reliant on tourism, which makes it vulnerable to global economic shocks. Our proposal for geothermal-powered industry provides long-term economic resilience, creating high-quality jobs in advanced manufacturing and renewable energy while diversifying the country’s economic base. Climate Change and Environmental Stewardship: Vanuatu is also at the forefront of the global fight against climate change, facing threats like rising sea levels. By using clean energy and promoting sustainable industries, this project not only addresses these challenges but transforms them into opportunities for leadership in climate adaptation and green growth. A Sustainable Future for Vanuatu and Beyond Beyond Vanuatu, we believe this model could be replicated across other island nations in the Pacific and beyond. This initiative positions Vanuatu as a leader in sustainable development and showcases how geothermal energy can power not just homes but entire industries, offering a scalable, replicable solution for other nations with geothermal potential. We believe Eavor’s closed-loop technology is key to unlocking this potential, and we would be thrilled to explore how we can work together to make this vision a reality. We would welcome the opportunity to discuss this further with you and your team at your earliest convenience. Thank you for your time and consideration, and I look forward to hearing from you soon. Best regards,

Proposal for Pairing Eavor’s Geothermal Technology with Sustainable Industrial Development in Vanuatu Dear Eavor Team, I hope this message finds you well. My name is David Hans Elze, and I am leading a sustainable development initiative focused on building renewable energy and sustainable industrial infrastructure in island nations, specifically Vanuatu. Our vision is centered on using the islands’ geothermal potential to power industrial manufacturing while maintaining their natural beauty, and we believe that Eavor's groundbreaking closed-loop geothermal technology could be a key enabler of this vision. The Vision: Pairing Sustainable Geothermal Energy with Industrial Manufacturing Vanuatu, located within the Pacific Ring of Fire, has tremendous geothermal energy potential that remains largely untapped. Our proposal seeks to not only harness this energy but to pair it with the production of sustainable materials, such as basalt fiber derived from the volcanic rock abundant on the islands. This approach allows us to drive economic diversification in Vanuatu-one of the key needs for island nations heavily reliant on tourism, especially in the wake of global disruptions such as the COVID-19 pandemic. The beauty of Vanuatu's geothermal resources lies in their ability to be utilized underground, preserving the island's stunning landscapes while providing a clean, renewable power source. By integrating Eavor’s closed-loop geothermal systems, which have minimal environmental footprint, we aim to generate sustainable, baseload power for basalt fiber manufacturing and other commercial industries. These industries can then supply sustainable construction materials, which are increasingly in demand due to the global push for green building practices. Eavor’s Role in Realizing this Vision Eavor’s closed-loop geothermal technology is ideally suited for this environment, offering scalability, reliability, and the ability to deliver dispatchable energy. Your technology’s benign environmental impact aligns perfectly with our goals to preserve Vanuatu’s natural beauty, ensuring that power generation remains out of sight and in harmony with the island’s ecosystems. We envision a sustainable manufacturing hub powered by geothermal energy, producing high-value basalt fiber products that can be exported to global markets. Basalt fiber is known for its durability, lightweight properties, and corrosion resistance, making it perfect for construction, infrastructure, and marine applications, especially in climate-vulnerable regions. Vanuatu could become a center of sustainable industry in the Pacific, leading the region in climate-resilient development. Why this Matters: Economic Resilience and Environmental Protection This project aims to solve two of the most pressing challenges facing small island nations today: Economic Vulnerability: Like many island nations, Vanuatu’s economy is heavily reliant on tourism, which makes it vulnerable to global economic shocks. Our proposal for geothermal-powered industry provides long-term economic resilience, creating high-quality jobs in advanced manufacturing and renewable energy while diversifying the country’s economic base. Climate Change and Environmental Stewardship: Vanuatu is also at the forefront of the global fight against climate change, facing threats like rising sea levels. By using clean energy and promoting sustainable industries, this project not only addresses these challenges but transforms them into opportunities for leadership in climate adaptation and green growth. A Sustainable Future for Vanuatu and Beyond Beyond Vanuatu, we believe this model could be replicated across other island nations in the Pacific and beyond. This initiative positions Vanuatu as a leader in sustainable development and showcases how geothermal energy can power not just homes but entire industries, offering a scalable, replicable solution for other nations with geothermal potential. We believe Eavor’s closed-loop technology is key to unlocking this potential, and we would be thrilled to explore how we can work together to make this vision a reality. We would welcome the opportunity to discuss this further with you and your team at your earliest convenience. Thank you for your time and consideration, and I look forward to hearing from you soon. Best regards,

Proposal for Pairing Eavor’s Geothermal Technology with Sustainable Industrial Development in Vanuatu Dear Eavor Team, I hope this message finds you well. My name is David Hans Elze, and I am leading a sustainable development initiative focused on building renewable energy and sustainable industrial infrastructure in island nations, specifically Vanuatu. Our vision is centered on using the islands’ geothermal potential to power industrial manufacturing while maintaining their natural beauty, and we believe that Eavor's groundbreaking closed-loop geothermal technology could be a key enabler of this vision. The Vision: Pairing Sustainable Geothermal Energy with Industrial Manufacturing Vanuatu, located within the Pacific Ring of Fire, has tremendous geothermal energy potential that remains largely untapped. Our proposal seeks to not only harness this energy but to pair it with the production of sustainable materials, such as basalt fiber derived from the volcanic rock abundant on the islands. This approach allows us to drive economic diversification in Vanuatu-one of the key needs for island nations heavily reliant on tourism, especially in the wake of global disruptions such as the COVID-19 pandemic. The beauty of Vanuatu's geothermal resources lies in their ability to be utilized underground, preserving the island's stunning landscapes while providing a clean, renewable power source. By integrating Eavor’s closed-loop geothermal systems, which have minimal environmental footprint, we aim to generate sustainable, baseload power for basalt fiber manufacturing and other commercial industries. These industries can then supply sustainable construction materials, which are increasingly in demand due to the global push for green building practices. Eavor’s Role in Realizing this Vision Eavor’s closed-loop geothermal technology is ideally suited for this environment, offering scalability, reliability, and the ability to deliver dispatchable energy. Your technology’s benign environmental impact aligns perfectly with our goals to preserve Vanuatu’s natural beauty, ensuring that power generation remains out of sight and in harmony with the island’s ecosystems. We envision a sustainable manufacturing hub powered by geothermal energy, producing high-value basalt fiber products that can be exported to global markets. Basalt fiber is known for its durability, lightweight properties, and corrosion resistance, making it perfect for construction, infrastructure, and marine applications, especially in climate-vulnerable regions. Vanuatu could become a center of sustainable industry in the Pacific, leading the region in climate-resilient development. Why this Matters: Economic Resilience and Environmental Protection This project aims to solve two of the most pressing challenges facing small island nations today: Economic Vulnerability: Like many island nations, Vanuatu’s economy is heavily reliant on tourism, which makes it vulnerable to global economic shocks. Our proposal for geothermal-powered industry provides long-term economic resilience, creating high-quality jobs in advanced manufacturing and renewable energy while diversifying the country’s economic base. Climate Change and Environmental Stewardship: Vanuatu is also at the forefront of the global fight against climate change, facing threats like rising sea levels. By using clean energy and promoting sustainable industries, this project not only addresses these challenges but transforms them into opportunities for leadership in climate adaptation and green growth. A Sustainable Future for Vanuatu and Beyond Beyond Vanuatu, we believe this model could be replicated across other island nations in the Pacific and beyond. This initiative positions Vanuatu as a leader in sustainable development and showcases how geothermal energy can power not just homes but entire industries, offering a scalable, replicable solution for other nations with geothermal potential. We believe Eavor’s closed-loop technology is key to unlocking this potential, and we would be thrilled to explore how we can work together to make this vision a reality. We would welcome the opportunity to discuss this further with you and your team at your earliest convenience. Thank you for your time and consideration, and I look forward to hearing from you soon. Best regards,

"Hello! I am from Ukraine and I am studying the basic principles of geothermal energy. I really enjoy your videos, and they improve my knowledge. Thank you!"

A moving optimistic story.

This needs to be implemented in northern communities in Canada. What is holding up the roll out of this technology?

The difficulty in the USA is cooling. The A/C system requires much higher air circulation than forced hot air heating. It's impossible for greenhouse gas behavior to cause global warming. Global warming was officially stated at 1.1°C in 1991 and 1.06°C in 2022. There is no mechanism that would allow greenhouse gas behavior to cause global warming. The back of the United Nation's IPCC science report states it took its greenhouse gas samples at 20,000 meters altitude where it is common high school level knowledge there is no greenhouse radiant energy. This is typical practice for deceptive marketing to state legal data transparency protecting the perpetrators from fraud prosecution. Earth's greenhouse effect is frequently used as a primary example to high school students of a system always in saturation from the strong greenhouse gas water vapor absorbing all the greenhouse radiant energy from the earth with greenhouse gases within 20 meters of the surface that is all around us everyday and can't have its overall effect changed. There is no further greenhouse radiant energy to interact with greenhouse gases. At 1% average tropospheric water vapor over 99% of earth’s greenhouse effect is from water vapor. Water vapor would hold earth's greenhouse effect in saturation if it were the only greenhouse gas in the atmosphere. Arctic warming is taking place with the proving mechanism being warm Atlantic Ocean waters migrating deeper and more frequently into the Arctic Ocean warming it and the region. That warmer water is causing a few weeks less of reflective snow and ice coverage resulting in more solar heat gain to the Arctic region surface. Atmospheric CO2 levels of 1200 ppm about three times what they are today would greatly invigorate C3 plants the majority of plant life on earth greatly greening the planet. 0.4% of the atmosphere is CO2 and on average 1% is H20 water vapor. (1% H20)/(0.4% CO2) = 25. Water vapor is 25 times more present in the atmosphere on average than CO2. Water vapor has an CO2e of 18, 18 X 25 = 450 CO2e total for water vapor to 1 CO2e for CO2. The Earth’s oceans have 3-1/2 million sea floor volcanic vents warming the water and changing it’s chemistry that have not been systematically accounted for.

All sizzle no steak. I would like to hear about the technical detail of the eavor loop. At what down hole temperatures and depths is a well pair economically viable? Will the eavor barefoot completion work in water sensitive shale.

Western Canada builds it, eastern Canada takes the profit then turns around and shits on alberta

Probably the most interesting and exciting new energy idea in over a decade because it looks viable unlike the many MANY to come before it, its just a matter of getting the cost of drilling, or in their case vaporizing the rock down which should have a lot of scope to do so. They already frack with similar technology, extract what is there for X years and then its done while this could carry on for decades longer making heat and energy. I hope they get funded up the wazoo and get this idea proven and scaled faster than any technology in history.

Have you ever done drilling on foothills of mountains to get more overlaying Rock to reduce drilling cost? Let me know what you thing of this idea.

Great video ans inspiring story! What REALLY bothers me is the Governmental Blindness of insecure countries like mine, Norway. There are more than 70 armed conficts right now, and next door is the crazyest and most irrational invaders of all: Vladolf Putler. All kinds of power infrastructure is blown up more or less every day in his current 3 day invasion turned 3 year war on the other side of our border. As a super rich, well connected country sporting world leading oil industry used to drilling thousands of very deep and very accurate wells and making huge underground facilities this really should be a no brainer. Yet we still keeps on ruining our environment with senseless use of materials, nature and economy with stuff like wind farms to get "Green" (LOL) energy. How tall, long and wide space do you currently need for drilling the wells? For reference, how much power could you get from Gjøvik Hall the worlds largest underground cavern 8 years ago and how big of a room do you need to add for providing Gjøvik's 30 563 inhabitants with Putin Proof Power? I'll close this Question/Rant with a quote from The Science Of YOG channel: The Nuke Proof facility didn't turn out to cost more than a vulnerable facility on top would!

One advantage with this is that you dont need to keep moving the drilling rig. That means less downtime.

What's the average service life of one of these systems? . . . Do they degrade over time?

Inspiring to see how you didn't let yourselves be put off and even used the negative press to your advantage. I wish you every success in your endeavors!

I have enjoyed following Eavor loop for the past 4 years. I have been speaking about this company and technology Eavor since. I am a surveyor in the State of Virginia and wish to see this tech for Dominion and Duke Energy. I have 4 solar farms I am staking out at present and would love to see that as a compliment to geothermal (Eavor Loop) base load energy.

A successful story indeed, however it's not over yet. Now it's about time to move from the experimental/testing phase and scale up this technology for as many nations and people as possible. Can u do that? World is watching and price with availability matters a lot.

Sell to Finland, guys! There are tens of district heating networks, which will be willing to swap the fuel costs for your solution

Love you guys, Alberta's drillers are the best! Heat not hydrocarbons. Bravo, I've been mentioning you every time I comment.

You got CEO Redfern to smile - amazing! This was much more entertaining than I expected, and it was very interesting to hear about the early story of Eavor. I learned about your company several years ago and have been following ever since, and rooting for you too. It's a very important project. Whenever I hear of plans to make solar and wind energy provide baseload power, for many billions of dollars, I cringe. Good luck and carry on! BTW, I am an investor in Aptera and am on the waiting list to buy one. Your project and Aptera go hand-in-hand.

It would be nice to know a little more about the current construction progress and the construction site here in Germany. From what I know, there will be some follow-up projects here in Germany. Not much is known about that. Japan also seems to have made a decisive contribution. Will there be projects in Japan?

So Cool. How can I invest $1000 ?

Great, well, you're got 2,000 subs on YT, some of us have been following your progress for a while now. First time I clicked on one of your vids was because I had the same "look round " on the internet for someone doing what seemed obvious to me ass you did. Unlike you though, I didn't find "no one" I found you. (& a couple of other interesting plays on the same theme) Point is, I was sold on the idea before I got here. Given that, how do I or anyone else, who you didn't ask for either investment or help yet, get in on things? Shame I didn't know you when you came to Japan, As that's where I was when the idea came to me. (their lack of natural energy resorces coupled with their "onsen" was what put me onto it. Well, that and living 100km from Fukushima when the Tsunami hit. If I knew you were in Japan, I would have taken you guys out for a beer. When were you there for that meeting btw? I've pitched ideas to Japanese firms before & I've got to say, those meeting didn't go quite as easy as your's did. Anyway, Let us know how to come along for the ride perhaps, Cheers and keep the updates coming.

Eavor and Quaise are the only two companies that have a viable geothermal solution to global warming. Does Eavor have any plans on working with Quaise?

Your technology is awesome. Go Eavor!!

Carbon isn't the problem. Global Warming is a scam based on lies. Geothermal, however, could supply cheap heat and electricity to billions of people worldwide. The government of Canada should give EAVOR anything they want and could provide all of Canada and nearby border cities in the U.S. with cheap, clean energy. Canada should seize the opportunity to become a world leader in this technology. It's been proven with pilot programs. Time to take the lead rather than lose it.

It would be nice to see Eavor active in their comment section. And it would have been nice of them to say what rock types Rock-Pipe is compatible with. For example could you drill water sensitive shale with an oil base mud then swap the well over to Rock-Pipe?

“Hermetically sealed well bore” 😂😂😂😂😂😂 Fracking industry used that LIE

How do you match the endpoint of one hole with the other's one ? closing the loop underground so deep looks challenging. Is it already done ?

7 minutes of bullshit. You could have stated the whole content in 3 sentences. It's even more interesting what you don't say in those 7 minutes.

60km of drilling. Very long on hype, zero details. No cost per km. No prediction of continuous heat production. No cost per MW. Just "we're going to change the world!!!!!"

What is the estimated cost of construction? It's my understanding that you need to go down 5 - 10 miles in geographically stable (non-volcanic) areas before you get enough heat for steam generation. That would seem to be costly and challenging, but I'm no engineer, so I'm sure they've thought it out.

Is this partially in response to the paper discussing the reduction of the ambient heat present in the rock?

How do they make it leak proof? 12 lateral holes. How is all that positioned correctly to connect?

How many MWs are they expecting?

Fantastic

Incredible