Nanotechnology in Construction of Buildings and Vehicles: Difference between revisions

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<h4>Genetic Engineering of Hyperaccumulators</h4>
<h4>Genetic Engineering of Hyperaccumulators</h4>


<h4>Chlorinated Polyvinyl Chloride Plastic in Tubing</h4>
<h4>Chlorinated Polyvinyl Chloride Plastic</h4>


<h4>Soil Microbiology and Rhizodegradation</h4>  
<h4>Soil Microbiology and Rhizodegradation</h4>  
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<h5>Breaking Down the Nanite and Reskariaehhrr Alloy Byproduct Toxin</h5>
<h5>Breaking Down the Nanite and Reskariaehhrr Alloy Byproduct Toxin</h5>


<b>Components</b>
<b>Components and Process</b>


<b>Process</b>
<!--The tubing system is comprised of chlorinated polyvinyl chloride tubes that are corrosion-resistant, easily fabricated, and chemical and heat resistant while still being relatively pliable. It is 35% to 40% heavier and more structurally sound than polyolefins such as polyethylene and polypropylene and does not require chemical bonding. A liquid chloride solution is pumped through the tubing to prevent the byproduct from solidifying before reaching the collector.
 
This is connected to the toxin collector made of tritanium and lined with chlorinated polyvinyl chloride. The collector holds the toxic byproduct created when the nanites break down the Reskari alloy, which is then broken down into a nontoxic form. Microbially enhanced soil in the collector is soaked in a liquid phytoremediation mixture comprised of artificial plan enzymes, carbohydrates, and plant acids, which stimulates microorganism activity in the soil. This increased microorganism activity in the collector then increases the breakdown of toxic substances via phytostimulation, polarizing the xenobiotics and rendering the toxin harmless.-->  


<h3>Discussion</h3>
<h3>Discussion</h3>