HBAT

HYBRID

BIOLOGICAL

ARTIFICIAL

TREE

A SYMPHONY OF SUSTAINABILITY

HBAT BY CIVIS TECHNOLOGIES

The Hybrid Biological Artificial Tree (HBAT) is a patent-pending blend of advanced technology, AI and IoT, synthetic biology, materials science, and enviromental engineering.  This bioconversion systemmasterfully migrates synthetic, biological, and advanced technological elements witin it’s leaves, branches, trunk, and planter-style container box, creating a harmonious multifaceted integrationwith unparralleled benefits.

Our approach is centered on using CO2 as a resource to create green energy, significantly contributing to the clean renewable energy sector while actively reducing C)2 emissions ans aimutaneously cleaning the air of toxic pollutants and heavy metals.

HBAT

BY CIVIS TECHNOLOGIES

  • With its novel bioconversion technology, HBAT captires and transforms CO2 surpassing mature urban trees 10-fold.
  • Revolutionizing green energy startegies by converting C)2 into useable renewable energy, our goal is to transform CO2 from a problematic greenhouse gas into a key player in green energy solutions.
  • Advance filtration and significantly purifies air: reducing pollutants, and pathogens, neutralizes airborne viruses, and greatly enhances public health.
  • Equipment AI and IOT sensors for real time monitoring and optimization HBAT seamlessly integrate into smart city infrastructures, enhancing urban environmental management.
  • Modular maintainable the same design: HBAT’s modular structure insures easy maintenance in the ability to adapter upgrade individual components promoting longevity and practicality in urban settings.
  • Versatility and design allows it to be tailored to any tree form, from natural to custom artistic designs and saves valuable urban space making it ideal for densely populated areas.

Significant CO2 Capture

  • Superior Carbon Capture: A single HBAT CO2 absorption capability aims to equal that of 10 mature urban trees. Annually, it can capture, and convert into usable energy, more than 500 lbs of CO2, significantly surpassing the average 48 lbs captured by a mature urban tree. This formidable capacity for carbon reduction positions HBAT as a key player in combating worldwide urban CO2 emissions and enhancing climate resilience.

CO2 As A Resource

  • Renewable Energy Production: HBAT aims to generate 4000kWh to 5000kWh annually to offset significant energy needs and supply supplementary energy. HBAT’s pioneering bioconversion process powers the system itself and generates surplus clean energy. This excess energy can be fed back into the urban electrical grid, supporting city power needs, or stored in supercapacitors or batteries. This integration offers a tangible economic advantage by reducing energy costs and increasing the availability of renewable energy to be used, traded, or sold. CO2 becomes a resource.

Autonomous Sustainability

  • Self-Sustaining Design: We know that self-sufficiency is key. HBAT is equipped with a pioneering bioelectrochemical system that ensures energy autonomy. The system not only generates its own water but leverages advanced hydrogel technology to deliver essential nutrients to its living components continuously. Enhanced by an AI hub and IoT sensors, that keeps HBAT operating at peak efficiency around the clock, ensuring its ecosystem thrives autonomously and sustains its health and productivity without external intervention.

What sets HBAT apart is its seamless integration of multiple environmental solutions into a single, self-sustaining system.  And with its modular design allowing for maintenance of individual parts, and AI overseeing the monitoring of the system, HBAT offers a low-maintenance, cost-effective solution for urban environmental challenges.

HBAT distinguishes itself with a groundbreaking design where it does not require planting into the ground, making it exceptionally versatile for urban environments. The outer shell of HBAT is synthetic, crafted to withstand urban elements and integrate visually into cityscapes, while its core is a sophisticated blend of biological components and cutting-edge technology. This unique combination of biomimicry, environmental engineering, and advanced technology ensures that HBAT can be deployed effectively in diverse urban settings without the limitations of traditional planting, optimizing space and enhancing urban infrastructure.

Streamlined Operation

  • Ease of Maintenance: HBAT’s unique design allows it to function as a self-sustaining and closed-loop system, minimizing waste and maximizing resource utilization.
  • The system’s modular design and AI integration throughout the tree significantly streamlines maintenance and enhances longevity. Completely modular, allowing for repairs of individual parts, and easy upgrades, ensures the system stays current with technological advancements. The AI and IoT-driven operation proactively manages maintenance, optimizing performance, and extending HBAT’s lifespan.

Public Health Benefit

  • Enhanced Air Quality and Health Advantages: HBAT employs an adapted Photocatalytic Oxidation UV-C sterilization system to eliminate over 98.5% of airborne contaminants and particles, including viruses and pathogens. We couple this system with an advanced filtration technology system that traps and stores heavy metal particles from the air. The system significantly uplifts urban air quality, bolstering public health and substantially improving health and quality of life.

Biodiversity Enhancement

  • Revitalizing Urban Ecosystems: By purifying air quality and alleviating environmental pressures, our system not only purifies the air for human benefit but also significantly boosts the strength and growth rate of nearby plants and trees. It actively removes air pollutants while infusing the atmosphere with fresh oxygen, directly contributing to the rapid and robust development of urban greenery, creating a thriving and resilient urban ecosystem.

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Creative Expression

  • Scalable Integration and Customizability: HBAT can seamlessly adapt to diverse settings and environments. Its unique system and utilization of 3D printing allow for tailor-made scalability, ensuring that each HBAT unit can be customized in size and aesthetic style. The design’s inherent flexibility opens the door for incredible creative expression, allowing HBAT to transform into captivating architectural landmarks that attract tourists and serve as iconic symbols.

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  • Economic Viability: Offers potential cost savings in urban maintenance, health improvements, and additional revenue streams from energy generation. In addition, byproducts from the HBAT can be used in waste management treatment and biorefinery and bio-based manufacturing. The significant carbon sequestration capability of HBAT qualifies it for carbon credits, providing an additional revenue stream. These aspects help offset the initial purchase cost.

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  • Future Expansion: The design of HBAT incorporates a forward-thinking approach, envisaging its application in off-planet endeavors. It is engineered to be adaptable for use in space stations and supports the initiatives of Martian colonization and other extraterrestrial missions. This versatility not only enhances its functional scope but also presents even more potential for diversifying revenue streams.

To discuss HBAT proprietary technology please contact us for more information:

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Email

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FAQ

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CONFIDENTIAL AND PROPRIETARY

The information contained in this presentatation is confidential and proprietary and is being shown solely for confidential use with the expressed understanding that persons viewing this will not release proprietsary information or copy any information contained herein or make reproductions of or use the memorandum dor any purpose other than evaluating Hybrid Biological Artificial Tree (HBAT).

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