Roberto Hroval, the founder of the multi-billion-dollar business environment Themis Ecosystem (TE), just announced that two of its leading technologies got final approval to purchase up to three diamond-making reactors. Consequently, the final product will not be green electricity but high-quality diamonds, allowing them to create almost ten times higher revenue, taking into account the latest electricity prices.
These technologies, also called the drivers, are Project Phoenix8 (PP8) and Biomass Ultima. The first creates green electricity from plastic waste and discarded tires, while the second produces green electricity from wood waste. Both are known for their top-notch technologies and unique functions, including zero emissions, green electricity, CO2 negativity, and the highest efficiency on the market.
The diamond-making reactors use the latest HPHT (High Pressure, High Temperature) technology and will produce class E (colorless) diamonds, round shaped and marked as VS1. The rocks will be confirmed by IGI (International Gemological Institute), the world’s largest independent lab for testing and grading diamonds, gemstones, and jewelry, with twenty-nine labs and eighteen schools in ten countries.
The diamonds will be produced under the Zeta Quantum Diamonds (ZQD) brand and sealed in official IGI certification packaging. By purchasing, each buyer will receive a special custom-made ZQD box for the safekeeping of up to fifteen carats of diamonds.
Themis Ecosystem is Pushing Beyond Possible
Themis Ecosystem (TE) is well-known for its innovations. They are silver linings that go through every component of the system. Not only is the construction of TE itself innovative, but the deeper you go, the more innovations you discover.
For example, examining the Biomass Ultima plant reveals that the technology didn’t achieve the highest rate of economic efficiency by merely optimizing a standard wood waste–to–energy process.
The key distinguishing factor resulting in off-the-chart efficiency is the extreme extraction of byproducts from “leftovers” of the production process. For example, the innovative technology captures particles and wood dust that usually go to waste. These “wastes” produce high-demanding products, such as organic wood vinegar, organic tar, organic carbon, and organic fertilizer.
Another innovation is the intelligent usage of a surplus of electricity produced. With it, the plant powers a separate, stand-alone module for green vertical farming under the brand John’s Organic Roots. With these and many more unique approaches, it is not hard to recognize why Biomass Ultima technology is currently the world’s leading wood waste–to–energy process.
Swapping Electricity For Diamonds, A Win-Win Ticket
The founder announced that a special team worked for more than two years on evaluating the lab-grown diamond-making process, choosing the technology, and determining the possibility of implementing it for Themis Ecosystem and its driver.
After considering all parameters, they discovered that producing high-quality lab-grown diamonds as a primary product instead of selling electricity will create about ten times more profit without being dependent on the market.
“After getting the data, we faced another problem,” Robert Hroval said. “That is, how to get the latest diamond-making reactors. You can’t just go to the factory, order the plant, and buy it, no matter how much money you have or how influential you are. It is a closed, inner circle community that protects its interests.”
That was one of the main tasks the team worked on for the last year. “We finally got a green light to buy up to three reactors,” Hroval said, “thanks to the friends from the University who referred us.”
The reactors will be added as a stand-alone function to both processes. As the Biomass Ultima plant is almost ready to kick off, the first reactor will go there. The plan is to make electricity for six months. After that period, the team will add and power the reactor with all the electricity produced.
Hroval revealed that the second and the third reactors would be added after installing the first one. The Biomass Ultima plant produces enough electricity to power all three. Based on current operating conditions, one reactor can produce up to thirty-three carats per month with an average price of 2,500 USD (approx. 1,964 GBP) per carat.
However, one of the challenges is adopting the process as quickly as possible while following the highest standards. Producing lab diamonds is not just pushing a button; it is half art and half science, and not many people are skilled enough to run the process effectively.
For that reason, the team invited two foreign experts to join them. The first is a leading technology engineer, while the second is a diamond cutter expert with over twenty years of experience. With their help, the process will be implemented more smoothly, quickly, and professionally.
Diamonds to Upgrade the Themis Ecosystem Experience
The founder said that the decision to make Zeta Quantum Diamonds (ZQD) didn’t come out of the blue but resulted from extensive research.
Lab-grown diamonds are emerging as the preferred choice for many environmentally conscious individuals and are steadily entering the mainstream market. Unlike traditional mining, producing lab-created diamonds does not involve drilling massive holes into the Earth’s surface. This process generates 4,000 times less waste than mining, uses nearly seven times less water, and requires ten times less energy per carat.
A study by Frost & Sullivan, a research and analysis firm with a fifty-year history, found that creating synthetic diamonds uses half the energy required for mining natural diamonds. In the case of TE, the energy is even less problematic because the reactor will use 100% of green alternative energy.
In a comparison by researchers at Stanford University, it was noted that natural diamond production emits 143 pounds of carbon dioxide per carat. In contrast, lab-grown diamonds produce only 26 pounds of carbon dioxide per carat.
Lab-grown diamonds are more ethical, as their production does not involve exploiting workers or children. This method is widely regarded as being more humane and animal-friendly.
With all that in mind, the TE will not just produce beautiful rocks but support the highest ethical standards for living and working, create CO2 negativity, help preserve the planet, drastically reduce waste from drilling, save water, and save energy.
However, creating diamonds is just the first part of the story for TE. Selling diamonds is equally important. To avoid having diamonds sit in storage, there must be regular buyers to purchase the entire production.
For TE, the situation is unique. One of their innovations is the method of compensating their supporters. Those who bought the special e-voucher PP8 IRMU to support the launch of TE can sell them for cash or choose from one of the byproducts generated by the processes.
Diamonds are the most practical and appealing among all of the “driver’s” products that will initially be produced within the Themis Ecosystem. Offering diamonds instead of cash while establishing a solid network to sell them anytime completes the cycle, and the team anticipates that TE will not need external buyers to sell its diamonds.
This solution is like a trademark of TE – a closed circle of maximum efficiency for the highest yield and maximal satisfaction of all involved.