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Oxford, United Kingdom
1-10 Employees
2021
Refiniti Was Formed To Bring Together Leading Technologies In The Field Of Feedstock Recycling For Polymers. At Refiniti, we developed patented chemical separation technology and knowhow to enable a higher utilisation rate of pyrolysis oil. We are in the midst of a pollution crisis caused by plastic waste in our environment. At Refiniti we strongly support all options to reduce plastic waste and increase sustainability. Our goal is to create even more possibilities in the field of chemical recycling. Pyrolysis is a relatively simple thermal cracking process that is well-known and widely used by the refining and chemical industry. In our process we utilise methods with a focus on minimising energy consumption. This provides flexibility with which to create a full line system that is targeted to produce outputs with characteristics desired by individual sectors of the petrochemical industry.
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Featured
Chemical Recycling
... Learn more about the future of chemical recycling ...
The Woodlands, United States
51-100 Employees
We provide an economic and enviornmentally responsible Chemical waste Disposal alternative for off-spec or surplus chemicals. Chemical USA is a surplus, off-spec, by-product stream buyer that provides an economic, environmentally chemical recycling approach. Our chemists do finished product formulations with the off-spec chemicals avoiding the expensive chemical waste disposal companies. Chemical USA is a surplus chemical buyer that provides marketing disciplined, brand conscious Chemical Companies an economic, sustainable and environmentally responsible alternative for their off-spec chemicals. This provides marketing disciplined, brand conscious Chemical Companies an economic, sustainable and environmentally responsible Chemical Waste Disposal alternative for their off-spec chemicals. This keeps the off-spec chemicals out of the market, preventing decreased premium brand products sales and marketing image. Our end – use ‘finished products’ have use/demand in industrial & oilfield markets. The problem of hazardous chemical waste is the major concern for the en.
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Featured
Chemical Waste Recycling Services | Chemical Recycling Company
... Chemical Waste Recycling Services | Chemical Recycling ...
United Kingdom
1-10 Employees
2019
We are committed to making a difference by aiming to "move the needle" on circular economy plastics volumes. By applying a combination of location, scale, finance and proven technology, we are creating a new and commercially competitive route to return plastics back to their original format - achieving full circularity. Using proven bankable technologies, aligned to global petrochemical providers with strong strategic interests in circular supply chains. With a plastics production forecast of around 1bn tonnes per annum by 2050, achieving meaningful levels of circularity is non-negotiable.
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Featured
Waste Plastic Chemical Recycling Pyrolysis Phigenesis
... Phigenesis: port infrastructure + new commodity supply chains + infrastructure finance = waste plastic chemical recycling. ...
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Featured
The next generation chemical recycling process.
... The next generation chemical recycling process. ...
Albuquerque, United States
1-10 Employees
2010
Curie Environmental Services, LLC (Curie) was founded in September 2010 with headquarters in Albuquerque, NM. The company focus of Curie is to provide recycling for radioactive materials in North America and internationally that would otherwise be disposed. This focus has led to the development of CuriePackSM, which is the first in the nation mail back program for ionizing smoke alarms. Logan is a 36 year waste industry professional and entrepreneur with strong proficiency in radioactive, chemical, and medical waste management, as well as regulatory matters. Logan is a seasoned waste industry executive with 26 years experience in establishing and operating regulated waste companies. Expertise includes successful proposal writing and implementation of multi-state multi-million dollar federal contracts. Logan co-founded Envirosolve (Tulsa, OK), a hazardous, radioactive and medical waste company, in 1991. Curie Environmental Services, LLC is a full service radioactive waste management firm protecting people and the environment from radiation and radioactive waste.
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SourcePackSM Uranium & Thorium Chemical Compound Recycling Kit (DOT Class 7) SOLID
... SourcePackSM Uranium & Thorium Chemical Compound Recycling Kit (DOT Class 7) SOLID | Curie ...
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Mechanical & Chemical Recycling and Energy Recovery pathways
... Mechanical & Chemical Recycling and Energy Recovery ...
Surat, India
501-1000 Employees
2020
We manufacture Premium Quality Recycled PET Granules (rPET Chips) through the Proprietary Chemical Recycling process. JB rPET Industries Pvt Ltd is a waste bottle recycling company. We have installed state-of-the-art machinery for the whole recycling process. Manufacturing premium quality Recycled PET products from innovative and efficient technologies. PET is a type of plastic commonly used for beverage bottles, food containers, and various other packaging applications. The final Recycled Product will be pure as virgin. By following this method of procuring & chemical recycling, we are creating an impact of more than 5 million plastic bottles every day to create a valuable product fit for the demand! Recycled Polyethylene Terephthalate, or rPET, is a type of plastic chips & granules as well as a form of polyester.
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Featured
JbrPET
... Chemical Recycling – The Future of ...
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Featured
Greenback Recycling Technologies - About Greenback
... able to now eradicate fraud using a combination ofAI, image recognition and smart contracts in a blockchain,whereas advanced chemical recycling tech helps us todrastically increase the supply of quality recycled plasticsfrom post-consumer sources. Greenback py-oil, π-Oil, Enval, ...
Elburn, United States
1-10 Employees
1989
The management of waste, especially hazardous waste, has become complex in recent years. EWS is set apart from the other waste management providers and other shipping companies by the ability to provide environmentally sound waste management alternatives based upon economic and liability factors.
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Featured
Chemical Recycling
... Chemical Recycling ...
London, United Kingdom
11-50 Employees
2010
Our technology converts plastic waste otherwise destined for landfill and incineration into valuable circular products used to produce new plastics.
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Featured
Chemical recycling technology for a plastics circular economy
... With our patented chemical recycling technology, we are able to convert previously non-recycled plastic ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Chemical Recycling
Country with most fitting companies | United Kingdom |
Amount of fitting manufacturers | 74 |
Amount of suitable service providers | 59 |
Average amount of employees | 1-10 |
Oldest suiting company | 1989 |
Youngest suiting company | 2021 |
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Chemical recycling refers to a series of advanced processes designed to convert waste plastic materials back into their original monomers or other valuable chemicals and fuels, thereby offering an alternative to traditional mechanical recycling methods. Unlike mechanical recycling, which merely reprocesses plastics into lower-quality materials through physical means, chemical recycling breaks down polymers at the molecular level, enabling the production of new plastics with virgin-like quality. This innovative approach not only helps in tackling the challenge of recycling plastics that are difficult to process mechanically, such as mixed or contaminated plastics, but also contributes significantly to the circular economy by reducing the dependency on fossil fuel-derived raw materials. By transforming waste into a valuable resource, chemical recycling plays a pivotal role in minimizing the environmental impact of plastic waste, reducing greenhouse gas emissions, and conserving natural resources. Its adoption and integration into waste management systems mark a critical step towards achieving sustainability goals within the plastics industry, fostering a more sustainable approach to plastic production and consumption. The development and scaling of chemical recycling technologies are crucial for addressing the growing issue of plastic pollution, offering a promising pathway to a cleaner, more sustainable future.
1. Efficiency in Managing Contaminated Plastics
Chemical recycling stands out for its ability to process plastics that are heavily contaminated or mixed, which traditional recycling methods often cannot handle. This capability significantly reduces the volume of waste directed to landfills or incineration, promoting a more sustainable approach to waste management.
2. Production of High-Quality Recyclates
A key advantage of chemical recycling is its potential to produce recyclates of a quality comparable to virgin materials. This process breaks down polymers to their monomers, allowing for the creation of new plastics that meet high standards, thus supporting a true circular economy.
3. Flexibility in Feedstock
Chemical recycling exhibits remarkable flexibility in processing a wide range of plastic types. Unlike mechanical recycling, which is limited by the type and quality of the input material, chemical recycling can accommodate diverse plastic waste streams, enhancing the efficiency of recycling programs.
4. Reduction in Carbon Footprint
By converting waste plastics back into valuable chemicals and fuels, chemical recycling can significantly reduce the carbon footprint associated with plastic production and waste management. This process offers a sustainable alternative to the extraction of new raw materials, contributing to the reduction of greenhouse gas emissions.
While evaluating the different suppliers make sure to check the following criteria:
1. Technology Advancement
Evaluate the technological sophistication of the recycling process to ensure high efficiency and minimal environmental impact.
2. Environmental Compliance
Confirm that the supplier complies with local and international environmental regulations to mitigate legal and reputational risks.
3. Capacity and Scalability
Assess the supplier's operational capacity to handle your volume needs and their ability to scale operations in line with your growth.
4. Cost-Effectiveness
Consider the overall cost, including processing fees and potential savings from recycled materials, to ensure the partnership is economically viable.
5. Quality Assurance
Ensure the supplier has strict quality control measures in place to deliver consistently high-quality recycled materials.
6. Supply Chain Transparency
Look for suppliers who provide clear visibility into their supply chain and recycling processes, enhancing trust and collaboration.
7. Innovation and Research
Prioritize suppliers investing in research and development to stay ahead in chemical recycling technologies and solutions.
Chemical recycling, a process that converts waste plastics back into their original monomers or other useful chemicals, has several B2B applications across industries. In the packaging industry, companies are increasingly adopting chemical recycling to recover polymers from used packaging materials. This approach allows for the creation of new packaging materials that meet the same standards as virgin plastics, supporting a circular economy. The automotive sector benefits from chemical recycling by utilizing recovered polymers to manufacture high-quality, durable components. This use of recycled materials helps reduce the industry's carbon footprint and dependence on virgin plastics. Within the textile industry, chemical recycling offers a solution to the challenge of recycling blended fabrics. By breaking down polymers to their basic chemicals, it's possible to separate and recover fibers from mixed materials, enabling the production of new textiles. Lastly, the construction industry leverages chemical recycling to produce insulation materials and other construction products from recycled polymers. This not only diverts waste from landfills but also contributes to the creation of sustainable building materials. These examples illustrate the versatility of chemical recycling as a tool for industries to enhance sustainability and operational efficiency.
Chemical recycling, a promising approach for converting waste plastics back into original or new materials, currently hovers around the TRLs 4 to 6. This range indicates that the technology has moved beyond basic principles (observed and reported in TRL 1-3), undergoing validation in laboratory settings (TRL 4) and in relevant environments (TRL 5-6). The primary technical reason for this positioning is the complexity and variability of waste plastic feedstocks, which pose significant challenges in scaling up from controlled, lab-scale processes to industrially relevant conditions. Additionally, the energy requirements and efficiency of chemical recycling methods, such as pyrolysis, depolymerization, and gasification, are areas of ongoing research. These processes must prove not only their technical viability but also their economic and environmental sustainability at larger scales. As such, while advancements are promising, achieving a higher TRL necessitates overcoming these technical barriers, particularly in terms of process optimization, feedstock flexibility, and integration with existing recycling and waste management infrastructures.
In the Short-Term, advancements in chemical recycling are poised to enhance efficiency and lower the energy requirements of current processes. Immediate innovations include the development of more effective catalysts that speed up the breakdown of polymers into their monomers. This phase is also seeing improvements in sorting technologies, which are critical for separating recyclable materials more accurately, thus reducing contamination and improving the quality of recycled products. Looking at the Mid-Term horizon, the focus shifts towards scaling up chemical recycling facilities to handle a broader array of plastics, including those traditionally considered non-recyclable. Breakthroughs in enzymatic recycling processes are expected to come to fruition, offering a more environmentally friendly alternative by operating under milder conditions compared to conventional methods. This period will also witness the integration of artificial intelligence and machine learning for optimizing recycling processes, further reducing costs and enhancing output purity. In the Long-Term, chemical recycling is anticipated to revolutionize the plastics industry by achieving a truly circular economy for plastics. Advanced technologies, such as molecular recycling, where plastic waste is converted back into its original raw materials, will become more prevalent. These innovations promise to significantly reduce the reliance on virgin materials, minimize plastic waste, and lower greenhouse gas emissions. Additionally, regulatory and industry-wide support will likely ensure the widespread adoption of these technologies, making chemical recycling a cornerstone of sustainable development.
Some interesting questions that has been asked about the results you have just received for Chemical Recycling
What are related technologies to Chemical Recycling?
Based on our calculations related technologies to Chemical Recycling are Water/Ocean Cleaning Technologies, Waste Management, Renewable Energy, Sustainable Fashion, Smart Grid
Who are Start-Ups in the field of Chemical Recycling?
Which industries are mostly working on Chemical Recycling?
The most represented industries which are working in Chemical Recycling are Manufacturing, Science and Engineering, Energy, Professional Services, Sustainability
How does ensun find these Chemical Recycling Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.