What is AERI's Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC, Pioneering Green Transformation (GX)?Part3
Quantum Physicist and Brain Scientist
Visiting Professor of Quantum Physics,
California Institute of Technology
IEEE-USA Fellow
American Physical Society-USA Fellow
PhD. & Dr. Kazuto Kamuro
AERI:Artificial Evolution Research Institute
Pasadena, California
and
Xyronix Corporation
Pasadena, California
Foreword
A. Professor Kamuro's near-future science predictions, provided by CALTECH professor Kazuto Kamuro(Doctor of Engineering (D.Eng.) and Ph.D. in Quantum Physics, Semiconductor Physics, and Quantum Optics), Chief Researcher at the Artificial Evolution Research Institute (AERI, https://www.aeri-japan.com/) and Xyronix Corporation(https://www.usaxyronix.com/), are based on research and development achievements in cutting-edge fields such as quantum physics, biophysics, neuroscience, artificial brain studies, intelligent biocomputing, next-generation technologies, quantum semiconductors, satellite optoelectronics, quantum optics, quantum computing science, brain computing science, nano-sized semiconductors, ultra-large-scale integration engineering, non-destructive testing, lifespan prediction engineering, ultra-short pulses, and high-power laser science.
Building on the outcomes in unexplored and extreme territories within these advanced research domains, AERI and Xyronix Corporation aim to provide opportunities for postgraduate researchers in engineering disciplines. Through achievements in areas such as the 6th generation computer, nuclear deterrence, military unmanned systems, missile defense, renewable and clean energy, climate change mitigation, environmental conservation, Green Transformation (GX), and national resilience, the primary objective is to furnish scholars with genuine opportunities for learning and discovery. The overarching goal is to transform them from 'reeds that have just begun to take a step as reeds capable of thinking' into 'reeds that think, act, and relentlessly pursue growth.' This initiative aims to impart a guiding philosophy for complete metamorphosis and to provide guidance for venturing into unexplored and extreme territories, aspiring to fulfill the role of pioneers in this new era.
B. In the cutting-edge research domain, the Artificial Evolution Research Institute (AERI) and Xyronix Corporation have made notable advancements in various fields. Some examples include:
1. AERI・HEL (Petawatt-class Ultra-High Power Terawatt-class Ultra-High Power
Femtosecond Laser)
◦ Petawatt-class ultra-high power terawatt-class ultra-short pulse laser (AERI・HEL)
2. 6th Generation Computer&Computing
◦ Consciousness-driven Bio-Computer
◦ Brain Implant Bio-Computer
3. Carbon-neutral AERI synthetic fuel chemical process
(Green Transformation (GX) technology)
◦ Production of synthetic fuel (LNG methanol) through CO₂ recovery system (DAC)
4. green synthetic fuel production technology(Green Transformation (GX) technology)
◦ Carbon-neutral, carbon-recycling system-type AERI synthetic fuel chemical process
5. Direct Air Capture Technology (DAC)
◦ Carbon-neutral, carbon-recycling carbon dioxide circulation recovery system
6. Bio-LSI・Semiconductors
◦ Neural connection element directly connecting bio-semiconductors and brain nerves
on a nanoscale
◦ Brain LSI Chip Set, Bio-Computer LSI, BMI LSI, BCI LSI, Brain Computing LSI,
Brain Implant LSI
7. CHEGPG System (Closed Cycle Heat Exchange Power Generation System with
Thermal Regenerative Binary Engine)
◦ Power generation capability of Terawatt (TW), annual power generation of
10,000 TWh (terawatt-hour) class
◦ 1 to 0.01 yen/kWh, infinitely clean energy source, renewable energy source
8. Consciousness-Driven Generative Autonomous Robot
9. Brain Implemented Robot・Cybernetic Soldier
10. Generative Robot, Generative Android Army, Generative Android
11. High-Altitude Missile Initial Intercept System, Enemy Base Neutralization System,
Nuclear and Conventional Weapon Neutralization System, Next-Generation
Interception Laser System for ICBMs, Next-Generation Interception Laser System
for Combat Aircraft
12. Boost Phase, Mid-Course Phase, Terminal Phase Ballistic Missile Interception System
13. Volcanic Microseismic Laser Remote Sensing
14. Volcanic Eruption Prediction Technology, Eruption Precursor Detection System
15. Mega Earthquake Precursor and Prediction System
16. Laser Degradation Diagnosis, Non-Destructive Inspection System
17. Ultra-Low-Altitude Satellite, Ultra-High-Speed Moving Object
Non-Destructive Inspection System
✼••┈┈••✼••┈┈••✼••┈┈••✼••┈┈••✼••┈┈••✼••┈┈••✼
What is AERI's Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC, Pioneering Green Transformation (GX)? - Part3
- Understanding AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC, Paving the Way for Green Transformation (GX) -
1. AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC (AERI Direct Air Capture)
・The AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC, also known as AERI Direct Air Capture (DAC-type carbon dioxide recovery system), utilizes green electricity generated by CHEGPG (geothermal power generation) as a power source. This green electricity is available at a cost ranging from 1 yen/kWh to 0.01 yen/kWh. The AERI synthetic fuel chemical process, powered by this green electricity, is responsible for producing green synthetic fuels such as green methanol, green LPG, green LNG, SAF (alcohol synthetic paraffin ATJ-SPK, etc.). The raw material for these green synthetic fuels is carbon dioxide (CO2), and the ADAC system directly captures CO2 from the atmosphere at an annual rate ranging from 100 gigatons (1 gigaton = 10 billion) to several teratons (1 teraton = 1 trillion). This makes it a substantial source of CO2 for the production of green synthetic fuels.
・AERI's proprietary technology, CHEGPG, is a carbon-neutral and limitless energy source capable of generating power in the Terawatt (TW) range with an annual output of 10,000 terawatt-hours (TWh). This geothermal power generation system produces ultra-low-cost green electricity, priced at approximately 1 yen to 0.01 yen per kilowatt-hour (kWh). Operating 24 hours a day, 365 days a year, CHEGPG provides a perpetual and sustainable source of energy.
2. Research Achievements and Prospects:
・the Artificial Evolution Research Institute (AERI), a general incorporated association (Website: https://www.aeri-japan.com/) located in Pasadena, California, and Xyronix Corporation, a semiconductor design company specializing in biocomputing (Website: https://www.usaxyronix.com/), are proud to be at the forefront among other companies in the development of Direct Air Capture (ADAC) technology. This groundbreaking technology enables the direct recovery of CO2 from the atmosphere at an annual level ranging from 100 gigatons (1 gigaton = 10 billion) to several teratons (1 teraton = 1 trillion).
・According to climate models, in order to limit global warming to below +2°C from pre-industrial levels, it is necessary to remove gigatons (giga tons), or several billion tons, of carbon dioxide from the atmosphere. Carbon removal systems, as exemplified by The AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC, present an appealing option for carbon removal compared to natural solutions like afforestation. This is because they require significantly less land, and the isolation of greenhouse gases can be more reliably measured. However, the development of ADAC, capable of annually removing several billion tons of carbon dioxide, has faced formidable technological challenges, making its progress challenging.
・the Artificial Evolution Research Institute (AERI) is at the forefront as one of the pioneering and cutting-edge research institutes. AERI has successfully operationalized and commercialized The AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC, capable of annually recovering several billion tons of CO2—one of the primary causes of global warming. Utilizing CO2 produced by the ADAC technology as a raw material, The AERI synthetic fuel chemical process (green synthetic fuel production technology) manufactures green synthetic fuels such as green methanol, green LPG, green LNG, SAF (alcohol synthetic paraffin ATJ-SPK, etc.). These green synthetic fuels, encompassing aviation fuel, jet fuel, marine fuel, automotive fuel, kerosene, LP gas, city gas, and more, are intended to be supplied to client companies. AERI stands as a pioneering institute in the forefront of research, aiming to address the challenges of climate change and contribute to a sustainable future.
・the Artificial Evolution Research Institute (AERI) is planning to construct an expandable modular Direct Air Capture (ADAC) plant connected to The AERI synthetic fuel chemical process (green synthetic fuel production technology). This plant will utilize air collectors equipped with special filters to capture and trap carbon, integrating with the CHEGPG geothermal power generation system. the CHEGPG system generates ultra-low-cost green electricity (renewable energy) at a rate of 1 JPY/kWh to 0.01 JPY/kWh. This inexpensive green electricity will serve as the power source for the ADAC plant, enabling the capture of carbon from the atmosphere. The combined efforts aim to create a sustainable system that captures carbon and produces green synthetic fuels using cost-effective and renewable energy sources.
・In 2017, the Artificial Evolution Research Institute (AERI) and Xyronix Corporation inaugurated the world's first commercial Direct Air Capture (ADAC) plant in the United States, integrating it with The AERI synthetic fuel chemical process (green synthetic fuel production technology). They commenced trial supplies of green synthetic fuels, including green methanol, green LPG, green LNG, SAF (alcohol synthetic paraffin ATJ-SPK, etc.), manufactured by The AERI synthetic fuel chemical process using CO2 captured through the ADAC process. These trial supplies were initiated for contracted clients in the aviation, maritime, and transportation industries, marking a significant milestone in sustainable fuel production.
・In 2021, a capital partnership with the Intellectual Property Strategy Research Institute was formed, leading to the initiation of a development project for the world's first commercial Direct Air Capture (ADAC) plant that recovers CO2 and permanently stores it underground.
・In 2023, the project reached a significant milestone by offering the world's first carbon dioxide capture service to contracted clients such as airlines. Additionally, The AERI synthetic fuel chemical process (green synthetic fuel production technology) commenced the full-scale supply of green synthetic fuels, including green methanol, green LPG, green LNG, SAF (alcohol synthetic paraffin ATJ-SPK, etc.), manufactured using CO2 captured through ADAC, to contracted client companies. This represents a substantial step forward in providing comprehensive and sustainable solutions in the field of carbon capture and green fuel production.
3.Research Challenges of AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC:
AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC (Direct Air Capture Technology) is a highly promising approach for capturing carbon dioxide (CO2) directly from the atmosphere. Below, I will provide a detailed explanation of the technical, economic, and environmental research challenges.
a. Energy Cost:
AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC faces the challenge of high energy costs due to the low energy density of removing CO2 from the atmosphere. Significant energy is required for the absorption, separation, and compression stages, necessitating the development of renewable energy sources and efficient energy supply systems.
b. Selection and Regeneration of Absorbents:
Absorbents are a key element in absorbing CO2, and the development of efficient and renewable absorbents is a challenging task. Research is underway to improve energy efficiency during the regeneration stage of absorbents.
c. Scalability:
Scalability is a challenge for the large-scale deployment of ADAC systems to remove CO2 from the atmosphere. The construction and operation of large ADAC plant facilities require substantial capital investment, necessitating the establishment of a financial model.
d. Funding and Economic Viability:
High initial costs for ADAC projects pose challenges in terms of funding. Improving economic viability is crucial, and initiatives such as government grants and market-based mechanisms are being promoted.
e. Environmental Impact:
The construction and operation of ADAC plant facilities may have environmental implications. Considerations include environmental impacts from the energy supply source and environmentally conscious approaches to absorbent manufacturing and waste disposal.
f. Long-Term Safety of Underground Storage:
Concerns exist about the long-term safety of storing CO2 collected by ADAC underground. Research is addressing issues such as leakage and uncertainties in underground geological conditions.
g. Resource Supply:
Limited availability of absorbents and other necessary materials may constrain the deployment of ADAC plant facilities. Ensuring a circular economy and securing sustainable supply sources are crucial.
h. Social Acceptance:
The introduction of AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC requires cooperation and acceptance from local communities and stakeholders. Providing information and communication regarding environmental impacts and the impact on the regional economy are essential.
i. Maintenance and Operating Costs:
AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC requires a large quantity of amines to capture low concentrations of CO2, leading to larger ADAC plant facilities and higher maintenance and operating costs.
Note: Amines refer to compounds where hydrogen atoms in ammonia are replaced by hydrocarbon groups or aromatic atomic groups.
j. Emission of Pollutants and CO2 Due to ADAC plant Operation:
ADAC, being in the early stages of technological development, may encounter technical issues. For instance, solvents and adsorbents used in the ADAC process may be environmentally harmful chemicals, requiring proper treatment. The consideration of greenhouse gas emissions resulting from ADAC plant operation is also necessary.
k. Conclusion:
Addressing these challenges requires collaborative efforts from researchers, industry, and government agencies working towards the development and practical implementation of AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC. Continuous research and innovation are essential for progress in this field.
4.AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology (ADAC) Future Outlook:
・Addressing the issue of climate change requires the urgent establishment of technologies for the capture and utilization of carbon dioxide. Among them, the Direct Air Capture (DAC) technology, which retrieves low-concentration carbon dioxide from the atmosphere, offers potential improvements in efficiency and cost. The development of the new AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC is highly anticipated in this context.
・The ADAC research and development special research team, composed of over 60 Ph.Ds in engineering from the Artificial Evolution Research Institute (AERI: Pasadena, California, HP: https://www.aeri-japan.com/) and over 130 engineers from Xyronix Corporation specializing in biocomputer semiconductor design (Pasadena, California, HP: https://www.usaxyronix.com/), has successfully developed a new ADAC system. This system utilizes phase separation to enhance the carbon dioxide absorption rate and achieve the separation of products from the reaction system. Even under gas flow conditions, it can remove carbon dioxide concentrations exceeding 200,000 ppm at an efficiency of approximately 94.7% or higher.
・The AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology ADAC, developed by the Artificial Evolution Research Institute AERI, demonstrates a carbon dioxide absorption rate approximately 16,800 times faster than existing technologies. It is expected to be practical as a state-of-the-art and innovative DAC system.
・The AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology (ADAC) is expected to play a crucial role in future climate change mitigation efforts. The development and implementation of this new ADAC technology by AERI is anticipated to enable efficient and cost-effective carbon dioxide capture and utilization. This advancement is poised to make a significant contribution to achieving a zero-carbon society.
a. Contribution as a Major Means of CO2 Emission Reduction:
The AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology (ADAC) is expected to make a significant contribution to the reduction of carbon dioxide (CO2) emissions in climate change mitigation efforts. When reducing emissions from existing sources becomes difficult or impossible, ADAC can be utilized as a complementary means for capturing and offsetting CO2 emissions. In the future, ADAC is anticipated to be widely adopted as part of carbon offset strategies.
b. Achieving Carbon Neutrality:
AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology (ADAC) becomes a powerful means for companies, countries, or regions to achieve carbon neutrality. By removing CO2 from the atmosphere through ADAC and either storing or reusing it, a balance between emissions and capture is achieved, contributing to a sustainable carbon-neutral future.
c. Sustainable Contribution to the Environment:
The future outlook for AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology (ADAC) includes a sustainable contribution to the environment. Optimization is underway to minimize environmental impact when removing CO2 from the atmosphere, such as using renewable energy sources and optimizing the absorption agent regeneration process to reduce energy costs and environmental impact.
d. Utilization of Useful CO2:
CO2 collected by ADAC can be reused for valuable products and processes. For instance, repurposing collected CO2 for synthetic fuels, chemical products, building materials, or carbonation sources for beverages enables efficient resource utilization. This facilitates the promotion of a circular economy and sustainable resource use.
e. Maturation of Technology and Cost Reduction:
AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology (ADAC) is expected to mature further and reduce energy costs. Technological advancements, such as efficient absorption agents, optimized energy supply, and improved scalability, are anticipated to bring costs to competitive levels.
f. International Cooperation:
The future of AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology (ADAC) necessitates international cooperation. International agreements and regulations are expected to be established, creating frameworks for the widespread adoption and sustainable implementation of the technology.
g. Summary:
AERI Carbon Neutral Carbon Recycling Carbon Dioxide Circulation Recovery Technology (ADAC) is a promising approach in climate change mitigation. In the future, it is expected to play a crucial role in aspects such as emission reduction, achieving carbon neutrality, sustainable contributions to the environment, efficient resource utilization, technological maturation and cost reduction, and the promotion of international cooperation. However, addressing these challenges requires continuous research, innovation, and international collaboration.
END
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Quantum Brain Chipset & Bio Processor (BioVLSI)
♠♠♠ Kazuto Kamuro: Professor, PhD, and Doctor of Engineering ♠♠♠
・Doctor of Engineering (D.Eng.) and Ph.D. in Quantum Physics, Semiconductor Physics, and Quantum Optics
・Quantum Physicist and Brain Scientist involved in CALTECH & AERI
・Associate Professor of Quantum Physics, California Institute of Technology(CALTECH)
・Associate Professor and Brain Scientist in Artificial Evolution Research Institute( AERI: https://www.aeri-japan.com/ )
・Chief Researcher at Xyronix Corporation(https://www.usaxyronix.com/)
・IEEE-USA Fellow
・American Physical Society Fellow
・email: info@aeri-japan.com
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【Keywords】
・Artificial Evolution Research Institute: AERI, Pasadena, California
HP: HP: https://www.aeri-japan.com/
・Xyronix Corporation, Pasadena, California
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