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| − | <p> Although there are plenty of alternatives to scrap tires, it keeps being an environmental and economical problem to the society. Pneumatic producers are responsible for waste tire collection and destination to recycling companies which transforms it into products such as oil, fuel, boots, carpets, asphalt and others. But it is not enough. Specialists and owners of tire industry seek for an alternative that could valorize the transformed residue and really solve the problem. We see our technology as a potential solution. Different from what is done nowadays, we aim to transform the tire into a high valued new products: jet fuel and fine chemistry industry supplies free of sulfur and pollutant gases. We aim to change the cycle of the rubber and the tire, inserting them in a circular economy that is sustainable forever. As the definition of Synthetic Biology already says, our goal is to design and construct biological machines for a useful purpose. We want to be useful and return to the society the application of our project through a Startup. In the last four months we have been in contact with professors, technology companies, pneumatic industry, lawyer, accountant, intellectual property specialists to better understand our business. We consolidated a business plan focused on raising financial investment for a pilot plant composed of two bioreactors and one reactor | + | Although there are plenty of alternatives to scrap tires, it keeps being an environmental and economical problem to the society. Pneumatic producers are responsible for waste tire collection and destination to recycling companies which transforms it into products such as oil, fuel, boots, carpets, asphalt and others. But it is not enough. Specialists and owners of tire industry seek for an alternative that could valorize the transformed residue and really solve the problem. We see our technology as a potential solution. Different from what is done nowadays, we aim to transform the tire into a high valued new products: jet fuel and fine chemistry industry supplies free of sulfur and pollutant gases. We aim to change the cycle of the rubber and the tire, inserting them in a circular economy that is sustainable forever. As the definition of Synthetic Biology already says, our goal is to design and construct biological machines for a useful purpose. We want to be useful and return to the society the application of our project through a Startup. In the last four months we have been in contact with professors, technology companies, pneumatic industry, lawyer, accountant, intellectual property specialists to better understand our business. We consolidated a business plan focused on raising financial investment for a pilot plant composed of two bioreactors and one reactor |
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| − | We aim to accelerate this process by genetically
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| − | engineering microorganisms to express and secrete two
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| − | crucial enzymes for the degradation of natural
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| − | rubber: <span class="TextoAzul"><b>RoxA</b></span>
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| − | (Rubber oxygenase)
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| − | and <span class="TextoAzul"><b>Lcp</b></span> (Latex
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| − | clearing protein).
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| − | Tires and several other products, however, are composed
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| − | by vulcanized rubber, which ensures its durability and
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| − | increase its elasticity and strength. In this regard,
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| − | for vulcanized rubber degradation, the project may
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| − | include a pre-treatment, which uses Acidithiobacillus
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| − | ferrooxidans, bacteria that naturally devulcanizes
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| − | rubber. Both of these processes will be scaled up in
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| − | bioreactors.
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| − | <h1>Both of these processes will be scaled up in bioreactors!</h1>
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