In the rapidly evolving world of technology, CoolTank emerges as a game-changer for data centers and cryptocurrency mining facilities. With a bold leap into the future, CoolTank's innovative immersion cooling technology shatters the barriers of traditional air cooling systems. This transformative solution not only boosts server performance by a staggering 400% but also slashes energy costs and water usage, heralding a new era of efficiency and sustainability. As the digital demand surges, particularly in the Middle East's burgeoning market, CoolTank is poised to deliver the cooling revolution that the tech world has been waiting for. Download Pitch Presentation

Hello everyone, I wanted to share some exciting developments in the field of cooling technologies for cryptocurrency mining, particularly in the UAE. Current Cooling Technologies in UAE: We've been observing a variety of cooling methods currently in use. While some are effective, many are not optimized for the specific needs of crypto mining. This has led us to develop a solution that addresses these gaps. Traditional Cooling Methods in 1MW Mining Project: We've recently completed a 1MW mining project using traditional single-phase cooling technology, specifically a water tower. While this method is commonly used, it has significant drawbacks. It's energy-inefficient, expensive, and can limit the potential of mining hardware due to overheating risks. 1MW Mining Project with CoolTank: We've also completed another 1MW mining project, this time using our proprietary CoolTank technology. This project showcases the efficiency and effectiveness of immersion cooling in a real-world mining scenario. 1MW Mining Project In-Depth: For those interested in the technical details, we've prepared an in-depth analysis of the 1MW mining project. This includes a comprehensive breakdown of the setup, operation, and results. CoolTank 75 KW - Fact Sheet & Price: Finally, we've released a fact sheet for our CoolTank 75KW model. This document provides detailed specifications, features, and pricing information. We believe that our CoolTank technology represents the future of cooling in cryptocurrency mining. It offers superior efficiency, increased overclocking potential, and is designed to operate in extreme conditions, making it an ideal solution for mining operations in the UAE and beyond. You can find more information about these topics on our website: https://www.thecooltank.com. We'd love to hear your thoughts and feedback.

Hello everyone, We're excited to share some significant advancements we've made in The CoolTank Project. Our commitment to continuous improvement and innovation has led us to some noteworthy developments that we believe will greatly enhance the performance and reliability of our CoolTank products. Professional PCB Implementation One of the major steps we've taken is the implementation of a professional Printed Circuit Board (PCB). Previously, we were using a custom PCB, but we decided to upgrade to a professional one to ensure optimal performance and reliability. The PCB is a crucial component as it connects all the other components together, including sensors, the Raspberry Pi, and Module Relays. PCB Delivery and Assembly We ordered the new PCB from JLCPCB, a reputable provider known for their high-quality products. The PCB was promptly delivered to us in Dubai, and we've successfully connected all the components together. This marks a significant milestone in our project as it brings us one step closer to our goal of providing the most efficient and reliable immersion cooling solutions in the cryptocurrency mining industry. Firmware Updates In addition to the PCB upgrade, we've also made some important updates to the CoolTank firmware. We've updated the code to improve stability, ensuring that our CoolTank products operate smoothly and reliably. These firmware updates are part of our ongoing efforts to enhance the performance of our products and provide the best possible experience for our users. Remote Dashboard Access We're pleased to invite you to view our remote dashboard, where you can see the performance of our CoolTank products in real-time. You can access the dashboard by following this link: http://75.119.154.54. Please use the following credentials to log in: dashboard_alerts@icloud.com password: CoolTankUser. We're incredibly proud of the progress we've made and we're excited about the future of The CoolTank Project. We'll continue to keep you updated on our advancements and we appreciate your ongoing support.

We're excited to announce the launch of our crowdfunding event for The CoolTank Project! We invite you to join us on this journey as we aim to redefine the cooling landscape for servers and industrial mining operations. Our mission is to deliver efficient, innovative, and environmentally friendly immersion cooling solutions. Our flagship products, the CoolTank 75KW and the upcoming CoolTank 10KW, are designed to significantly boost mining profitability and efficiency. We're now at an exciting juncture in our journey. We're ready to start manufacturing the first samples of CoolTank 75KW and CoolTank 10KW. However, we need your support to make this a reality. Our crowdfunding targets are $50,000 for the CoolTank 75KW and $5,000 for the CoolTank 10KW. These funds will be used to produce major components, assemble, and test the products. The biggest single amount contributor will receive the product as a reward. All others will be rewarded by bringing this product to the market and also the special price will be offered to all contributors who made their payment before the announced deadline, August 8, 2023. We believe in transparency and trust. That's why we're using a Bitcoin wallet for this crowdfunding event. One of the fundamental properties of blockchain is the transparency of transactions, which we'll use for balance tracking and reward applicability verification. Bitcoin Wallet Address to support CoolTank 10KW: bc1qmgrjdf7a652c8awu9hnh3749sj5wahhfer3yca Bitcoin Wallet Address to support CoolTank 75KW: bc1qnwq20kekngfdwq5t9msln6cad507em82s2sl4h By contributing to our Bitcoin wallet, you're not just supporting us, but also becoming a part of a technological revolution. You're helping us bring a game-changing product to the market that can redefine the future of cryptocurrency mining. We're thrilled to have you on this journey with us. Let's revolutionize cryptocurrency mining together. Welcome to the future of crypto mining. Welcome to The CoolTank. Please follow the link for more details.

We're thrilled to share with you our latest demonstration of the CoolTank 25KW in action. In our newest video, we push the CoolTank to its limit, running it at full capacity with the maximum number of miners inside. This is more than just a test of our cooling system's capabilities. It's a testament to the durability, efficiency, and reliability of CoolTank under the most demanding conditions. As the video clearly shows, the CoolTank doesn't skip a beat, even when operating at maximum capacity. This demonstrates how our innovative technology can be a game-changer for crypto miners looking to optimize their operations and push the boundaries of their mining rigs' potential. Experience the power and reliability of CoolTank 25KW for yourself by watching the full video here. We're proud of the results and we're eager to help crypto miners around the world to boost their mining efficiency and profitability. If you're interested in learning more about the CoolTank and how it can transform your crypto mining operation, visit our website at www.thecooltank.com. Stay tuned for more updates as we continue to push the boundaries of immersion cooling technology. Happy mining!

Data centers are the backbone of the digital world, housing everything from emails and CRM databases to big data, artificial intelligence, and the images and articles we share online. However, these facilities consume a significant amount of energy, with estimates suggesting that data centers use between 200-400 TeraWatt Hours of energy annually, equating to roughly 1-1.2% of global energy demand. As the demand for data center capacity continues to rise, there is a pressing need for more efficient cooling solutions. A 2022 case study by LiquidStack, a leader in immersion cooling solutions, explores the potential of Two-Phase Liquid Immersion Cooling (2-PIC) as a game-changing technology for data centers. The study compares two 36 MW data center concepts located hypothetically in Quincy, WA: a traditional direct evaporative air-cooled data center and a 2-PIC data center. The Power of Two-Phase Liquid Immersion Cooling 2-PIC is a data center cooling methodology that cools by submerging racks in a non-conductive liquid, replacing traditional air-cooled methods. The study found that 2-PIC requires almost zero gallons of makeup water per year, compared to air-cooled systems, which can consume up to 8.25 million gallons annually. Moreover, 2-PIC can provide similar cooling results with less energy consumption, saving up to 7,900 MWh per year compared to air-cooled data centers. This is partly due to the reduction in Power Distribution Units (PDUs), making the electrical distribution systems for 2-PIC systems more efficient. Space and Cost Efficiency In addition to being more efficient in terms of water and energy consumption, 2-PIC also offers the opportunity to reduce the total campus footprint compared to air-cooled systems. The study found potential savings of up to 32% in lot area and a 60% reduction in the data center building size. These reductions translate into a significant decrease in total project cost, equipment, and construction fees. The study estimated a potential savings of $123.5M for a 2-PIC system over an air-cooled system that provides the same computing power, with an average savings of over $3M/MW for a 2-PIC system versus air-cooled. Looking Ahead The study's findings suggest that 2-PIC could be a revolutionary solution for the data center industry, offering significant savings in energy, water, space, and cost. As the demand for data center capacity continues to rise, technologies like 2-PIC could play a crucial role in creating more sustainable and efficient data centers. However, widespread adoption of this technology will require further research and development, as well as a shift in industry standards and practices. In terms of savings, the study estimates that a 2-PIC system could save up to $123.5 million in total project cost over an air-cooled system. This includes savings in equipment, construction fees, and operational costs. The average savings per MW for a 2-PIC system is over $3 million compared to an air-cooled system. Furthermore, the energy savings could be up to 7,900 MWh per year, and the water savings could be nearly 8.25 million gallons per year. These savings not only make 2-PIC a cost-effective solution but also a sustainable one.

In the realm of high-performance computing, effective cooling solutions are paramount. GIGABYTE, a global leader in server technology, offers a range of advanced cooling solutions to ensure optimal performance and longevity of their servers. Single-Phase Immersion Cooling: A Dive into Efficiency Single-phase immersion cooling involves submerging server components in a dielectric fluid. This fluid absorbs the heat from the components, providing efficient cooling. GIGABYTE has partnered with several companies, including Asperitas, GRC, and Submer, to implement this innovative cooling method. This cooling technique offers several benefits, including reduced energy consumption, lower operational costs, and increased hardware lifespan. Furthermore, it allows for higher server density, enabling more computing power in a given space. Two-Phase Immersion Cooling: The Cycle of Cool Two-phase immersion cooling takes the concept of single-phase immersion cooling a step further. The dielectric fluid used in this method has a low boiling point. When it comes into contact with hot server components, it turns into vapor, effectively absorbing the heat. The vapor then condenses and returns to the liquid phase, creating a cycle that efficiently cools the components. GIGABYTE collaborates with LiquidStack to implement this advanced cooling method. Two-phase immersion cooling offers the same benefits as single-phase immersion cooling, but with even greater efficiency due to the phase change of the cooling fluid. Direct Liquid Cooling: A Direct Approach to Heat Management Direct liquid cooling is another advanced cooling method offered by GIGABYTE. In this method, a coolant is directly circulated to the components that generate the most heat, such as the CPU and GPU. This targeted approach provides efficient cooling and can handle higher heat loads compared to traditional air cooling. GIGABYTE has partnered with CoolIT Systems to implement this cooling method. Direct liquid cooling not only enhances server performance but also reduces noise and energy consumption. In conclusion, GIGABYTE's advanced cooling solutions offer efficient and effective ways to manage heat in high-performance servers. By continually innovating and partnering with leading companies in the field, GIGABYTE is paving the way for the future of server cooling technology. For more detailed information, please refer to the original page here.

In the ever-evolving data center industry, the quest for efficient and effective cooling solutions is unending. LiquidStack, a leading provider of advanced cooling solutions, has published a white paper that delves into the science of Two-Phase Immersion Cooling (2-PIC) and dispels common misconceptions about this innovative technology. Understanding Two-Phase Immersion Cooling Two-Phase Immersion Cooling is a method where electronic components are submerged in a dielectric fluid with a low boiling point. When the fluid comes into contact with heat-generating components, it vaporizes, effectively absorbing the heat. The vapor then condenses and returns to the liquid phase, creating a cycle that efficiently cools the components. Despite the proven efficiency of 2-PIC, there are numerous myths and misconceptions surrounding the technology, particularly concerning the safety, cost, and sustainability aspects of the fluids used. However, when used within the manufacturer's recommendations, 2-PIC fluids are safe to handle, non-flammable, non-ozone depleting, and offer superior heat transfer capability. Comparison of Cooling Methods Here is a comparison of the Power Usage Effectiveness (PUE) and average cooling annual energy consumption for a 10MW data center for different cooling methods: Today's Air Cooling: This method has a typical PUE of 1.57 in the US. The average annual energy consumption for cooling a 10MW data center is 25 GWh. 1-PIC HC Oil: This method has a typical PUE of 1.06. The average annual energy consumption for cooling a 10MW data center is 2.6 GWh. 2-PIC PFC: This method has a typical PUE of 1.03. The average annual energy consumption for cooling a 10MW data center is 1.3 GWh. 2-PIC HFE: This method also has a typical PUE of 1.03. The average annual energy consumption for cooling a 10MW data center is also 1.3 GWh. 2-PIC HFOs / FKs: This method also has a typical PUE of 1.03. The average annual energy consumption for cooling a 10MW data center is 1.3 GWh. Conclusion Two-Phase Immersion Cooling is a revolutionary solution that offers a multitude of benefits, from energy savings to improved performance and reliability. By continually innovating and partnering with leading companies in the field, LiquidStack is paving the way for the future of server cooling technology. The comparison data clearly illustrates the energy efficiency advantage of 2-PIC, particularly when compared to traditional air cooling and single-phase immersion cooling with hydrocarbon (HC) oil. For more detailed information, please refer to the original document here.

It was a long trip. Now I am ready to start production stage, but before that I want to understand the market grip and demand for this 75 KW model. I want to invite everyone to bring my product to the market. I have the following thoughts. It can be a volunteer that will purchase the 1st sample of the CoolTank 75KW without my sales premium. Nevertheless, the 1st sample may not be flawless, but anyway, it will be able to work safely. Or I can create a crowdfunding event or even go to a Startup incubator for financing. I am keen to know your opinion on what is the best way to proceed. Please leave your comments.

You can checkout the latest pictures of the CoolTank in my Telegram channel following the link https://t.me/theCoolTank/50

Hello! I am happy to invite you to join my Telegram channel. https://t.me/theCoolTank There I am posting the latest project updates. Ask subscribers to vote for different product features. It is an open channel and you are welcome to propose new features of the CoolTank and rise your questions.

Engineering design is ongoing. Here is a picture of new CoolTank