Responsible Energy Use for Bitcoin Mining
We secure the crypto currency network by verifying data accuracy with application specific integrated circuits.
Our research and development team is discovering new ways to capture industrial waste heat. Liquid cooled immersion mining is allowing us to capture and control heat for additional uses such as agricultural research and HVAC applications.
The 1st phase facility is a renovated, former automotive repair center. The facility features 525 Kw of Thermal Cooling Power for our Liquid Cooled Immersion Mining configuration. Current capacity is 90 ASIC S19j Pro 100Th Machines with rapid expansion to 180 machines to quickly scale. Our facility has additional long term capacity of 360 Machines.
The 2nd Phase will be implemented with "ground up" construction. This will be the most advanced and highly anticipated technological advancement for Bitcoin Mining when complete.
Concentrated Solar Power CSP is more efficient for large scale applications such as Bitcoin Mining. Traditional Photovoltaic PV Panels rely of toxic chemicals and rare metals to perform with a shorter lifespan.
These concentrators will be vital to increasing the temperature differential with in the proposed Stirling Thermal Energy Engine.
A Stirling Engine is a heat engine that is operated by the cyclic compression and expansion of air or other gas (the working fluid) between different temperatures, resulting in a net conversion of heat energy to mechanical work.
Low Grade Industrial Waste Heat is produced by Bitcoin Mining. This thermal energy can be put to use with the Stirling Engine. In conjunction with CSP Solar and Geothermal cooling.
The Stirling Engine depends on temperature differentials. The use of Geothermal Engineering will aid in the increased temperature difference with minimal mechanical energy required.
Cooling lines are drilled or laid in an array. These lines will also go through traditional dry coolers to take advantage of winter weather temperatures.
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