Investor Yazan Al Homsi Backs Technology That Could End Plastic Waste Crisis – UAE Today Blog

An innovative technological advance in plastic recycling has achieved a rate of 95% unprecedented, potentially transforming the waste management economy and offering a solution to the global plastic crisis. The capitalist of risk, yazan the Homsi, who has invested in this revolutionary technology, believes that it represents a paradigm shift to address one of the most pressing environmental challenges in the world.

The recycling reality gap: why most plastic still ends in landfills

The global plastic waste crisis has reached alarm proportions with only a fraction of the material produced annually effective recycling despite the generalized collection programs and the growing public awareness.

“Less than 10% of the waste plastic is recycled. So, when we do all the work of having our cup, placing it in the right container, so, ultimately, 90% ends up in landfills, the recycling efforts of” high “consumers.

This sad recycling rate comes from fundamental technical limitations in conventional processing methods. Current technologies fight with the levels of complexity and pollution found in the waste currents of the real world, which requires extensive classification and cleaning that significantly increase costs.

“The current technologies that are available have an important limitation when it comes to pollutants,” he explains to Homsi. A little lower pollution can make whole lots or plastic are not suitable for conventional recycling processes, which results in the materials deviate to landfills or incinerators despite consumers’ efforts to recycle.

The pollution challenge extends beyond food waste to the inherent complexity of modern packaging. “Take the example of coffee. The pollutants could literally be the last strip of coffee that is there, and that is a problem. The other problem is that you see this and it has three types of plastics. You have the lid, you have the cup itself, and then you have the cardboard.

This technical reality creates a situation in which extensive manual preprocessing is required before materials can enter conventional recycling currents. “So, the only way you can solve this is basically that you have to have manual preprocessing. So basically take this and take the pieces separately, clean, very expensive and then go to appear or mechanical.” “

The prevalence of thermal processing methods such as pyrolysis introduces additional inefficiencies. “The current approaches that are outside are mainly thermal, and thermal is very bad for the environment, because basically, one is using a lot of energy, so it is not profitable. Capex Opex by Tonngel and Alvys.vyving and Alvys.vyvatting and Alvys.

UAES convenient in comment in the innovation of recycling of chemicals

The advance in chemical recycling technology comes at a particularly relevant time for the EAU, where the government has positioned the country as an emerging center for advanced recycling solutions. With the EAU that generate 1.5 million metric tons of plastic waste annually, but recycle only 4% according to the Petrochemicals of the Gulf and the Chemical Association, the scale of opportunities for revolutionary recycling technologies is substantial.

The strategic positioning of the EAU in the global recycling market is intensive after China’s plastic import restrictions in 2022. As one of the few countries equipped with modern infrastructure and strategic location advantages, the EAU have emerged as a preferred one. The launch of the Government of the Plastic Recycling Exchange Program, described as “an export of Emiratí to the world,” demonstrates the country’s commitment to become a world leader in sustainable waste management solutions.

For investors such as Homsi, which maintains the Vancouver commercial interest voltage to Dubai, the EAU repress a critical testing field for recycling technologies of the next alternation. The consumption of mass plastic in the country, with residents who use an average of 450 bottles of plastic water annually and the nation consumes 11 billion plastic bags annually, creates an ideal environment to implement and climb break solutions.

The recent installation of ABU Dhabi or approximately 120 reverse vending machines and the initiative of the municipality of Dubai to collect and recycle 3 million plastic packages reflect the growing impulse behind the advanced waste management technologies. These infrastructure investments create a support ecosystem for innovative recycling approaches that can previously process the waste currents.

The global chemical recycling market, projected to process around 17 million tons of plastic waste annually by 2034, presents significant opportunities for combens that facilitate the type of efficiency that Braaktthrough demonstrated demonstrated chemical processes. The plastic recycling market of the EAU is expected to grow of 0.84 million tons at 2020 to 1.44 million tons by 2030, which represents an annual growth rate composed of 5.34%, the time for revolutionary recycling technology is.

Chemical innovation: a technology that changes the game

The technology in question, Hydrochemolytic ™ Technology (HCT ™) developed by Aduro Clean Technologies (Nasdaq: ADUR), uses an advanced chemistry to break plastic waste. Unlike conventional thermal methods, which generally lose up to 30% or the input material as residues per product, this chemical approach achieves remarkable efficiency.

“Aduro AnnoCed They Ran A Sample On Their Continuous Flow Demo for 240 Samples, and or Feedstocks, and What They Got 95% Yield. And Out of That, Only 2% Is Char. If you compare that to Charmal Solutions, Alsins, Alsins, Alsis Solutions,” “” “” “” “” “” “” “” “” “” “” “” “” “” “” “” ” Alsi Solutions, “” Alsi Solutions, “” Alsi Solutions, “Alsi, All Hans Solutions,” “Alsi Solutions,” “Alsi, all solutions”, “Alssi”, Alssi “, Alssi, all solutions.

The implications of this efficiency gain are substantial for both environmental impact and economic viability. “The problem with Char, basically you have no use. There is nothing you can do with him. It is burned material,” he says to Homsi. By minimizing this wasteful by -product, technology drastically improves the use of resources.

The quality of the output materials also represses a significant advance in conventional methods. “Then, the immediate elevation is that its raw material is getting into something, it is improving, it is having an immediately of higher quality products on the back of this,” he adds to the Homsi.

These performance improvements address fundamental economic barriers that have limited recycling rates worldwide. By efficiently processing contaminated and mixed materials with minimum pre -registration requirements, technology drastically expands the range of plastics that can be recycled economically.

The unique technology approach focuses on controlled chemistry instead of the thermal methods of brute force. This focus of precision of molecular bonds allows the system to process the raw material with much higher levels of contamination than conventional methods can tolerance, and the central technical challenge that has limited recycling rates are addressed.

Aduro’s HCT ™ uses soft water and catalysts in soft conditions to selectively break carbon bonds, more like using molecular scissors than a sled hammer. The process incorporates renewable hydrogen donors that immediately stabilize reactive fragments, avoiding unwanted reactions and maximizing valuable outputs. This methodology represents a fundamental deviation from high temperature pyrolysis, which allows the processing of mixed and contaminated plastics that would not be suitable for recycling.

From technical innovation to market transformation

The remarkable technical performance of this recycling advance is translated directly into commercial benefits that could promote extensive adoption. When addressing the pollution challenge that has a limited conventional recycling, technology allows companies to process materials previously irrecicable efficiently.

The ability of technology to handle contaminated materials without extensive preprocessing eliminates the need for expensive manual classification, substantially improving the operational economy. This capacity is particularly valuable for mixed plastic waste currents that conventional technologies cannot process economically.

The combination of higher performance rates and better quality results fundamentally changes the economy of plastic recycling. Instead of operating as cost centers justified mainly by environmental objectives or regulatory compliance, recycling operations used by this technology can potentially generate positive financial returns, transforming waste management of a cost to a profit center.

The main actors in the industry have recognized the potential of this approach. Shell has partnered with Aduro Clean Technologies through its Gamechanger program to potentially validate and climb technology. This collaboration provides not only technical validation but also a route towards commercial implementation through an established global network.

For investors such as Homsi, the convergence of environmental impact and economic potential makes this technology attractive. The global market of $ 300 billion for waste management solutions repeats a substantial opportunity for technologies that can address the plastic crisis efficiently.

As intense regulatory pressures worldwide, partly in Europe, where financial sanctions for non -recycled plastics can reach millions of euros annually, the commercial case of advanced recycling technologies will only be strengthened. Companies that develop solutions that allow higher recycling rates for difficult materials face a growing demand for manufacturers that seek to avoid regulatory sanctions and address consumer expectations for sustainable practices.

The 95% yield marks a critical milestone to make plastic recycling economically viable at scale, potentially changing the course of the global plastic waste crisis through technological innovation and intelligent economy. By enabling the efficient processing of previously unrelent materials, this chemical approach could finally close the gap between recycling aspirations and real results, addressing one of our most pressing Threathal through good consumption will or regulatory mandates.