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Dudley, United Kingdom
1-10 Employees
2015
Develop new products, redesign existing products, and perform research and testing on product concepts. More quality, reduce the lead times, simplification of production, reduce handling, improve work flow. We turn your innovative concepts into reality and help you to realise your innovation to invention dreams by making products based on new technology.
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Featured
Do You Have A Waste To Energy Project We Can Help With?
... Do You Have A Waste To Energy Project We Can Help With? Contact Us Who we are We are a fast-growing clean-tech company with the mission to develop innovative solutions to solve the energy trilemma; security, affordability and sustainability. We turn complex ...
Busto Arsizio, Italy
1-10 Employees
2000
Provide outstanding engineering servicessatisfying the needs of our clients and fulfilling the expectations of stakeholderswith a rigorous and creative application of proven design methods and of the best available technologies,in order to support the transition to Circular Economy. WTE can provide a wide range of services, from conceptual and feasibility studies, to engineering, procurement and construction management.WTE can also supply complete “turnkey” solutions in case of mid-sized systems or packages of larger ones. Established in 2000, WTE was set up by professionals with a significant experience in the field of plant engineering.The founder and owner of the company, Mr. As many Italian SME, WTE is a typical networked enterprise. WTE is a small and dynamic, highly specialized and customer-focused engineering firm, specialized to serve clients in the energy from waste, renewables, power industry and environmental services. For an engineering firm, it means that we can offer highly specialized services, flexibility, faster reaction time, and a distinctive capability to think in a creative, original way. We believe instead in a sound approach to engineering, and in the original application of of the best available technology. Rigorous engineering is the key, even when we follow innovation seeking R&D projects.
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Featured
Waste To Energy • WTE-Waste To Energy s.r.l.
... the design of waste incinerators with energy recovery.Even if, over the years, we have diversified our activities, we still maintain a strong specialization in this domain.In almost 20 years, we have served a large number of clients: municipal concerns, owning … Waste To Energy Read More » ...
Hull, United Kingdom
51-100 Employees
2020
We are based in the UK at the manufacturing site of our parent company in Hull. We are unique in that our design, engineering, project management and, crucially, manufacturing is all carried out in-house. Our World Leading Patented design of Circular Waste Heat Recovery Units and Circular Heat Recovery Steam Generators are widely acknowledged by Oil & Gas Majors as offering the best available solution for energy recovery both onshore and offshore. Over the past 20 years our equipment has provided an unparalleled step change reduction in equipment footprint, weight and construction time, leading to significant project cost savings for our customers. We do not outsource the manufacture of our products, all main equipment items are produced to the highest standards of workmanship and material quality in our ASME and ISO 9001 accredited Workshops.
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Featured
Waste to Energy
... Waste to Energy - STRUTHERS ENERGY & POWER ...
Hull, United Kingdom
51-100 Employees
2020
We are based in the UK at the manufacturing site of our parent company in Hull. We are unique in that our design, engineering, project management and, crucially, manufacturing is all carried out in-house. Our World Leading Patented design of Circular Waste Heat Recovery Units and Circular Heat Recovery Steam Generators are widely acknowledged by Oil & Gas Majors as offering the best available solution for energy recovery both onshore and offshore. Over the past 20 years our equipment has provided an unparalleled step change reduction in equipment footprint, weight and construction time, leading to significant project cost savings for our customers. We do not outsource the manufacture of our products, all main equipment items are produced to the highest standards of workmanship and material quality in our ASME and ISO 9001 accredited Workshops.
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Featured
Waste to Energy
... Waste to Energy - STRUTHERS ENERGY & POWER ...
Geldern, Germany
1-10 Employees
2012
Es werden ausschließlich Produkte verwendet, die CO² - neutral erzeugt werden.
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Featured
farmco - waste to energy
... - waste to energy ...
Salem, United States
1-10 Employees
2002
Bio-Clean Industries is a full service waste to energy disposal company that is founded and operated locally. We specialize in all aspects of waste to energy disposal, including bio-hazard waste disposal, pharmaceutical waste disposal, amalgam waste disposal, sharps disposal, OSHA compliance, medical waste management & auditing, and general waste to renewable energy services. As the Willamette Valley’s premiere waste to energy disposal company – we’ve been serving all of Oregon for the past 18 years.
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Featured
Bio Clean Industries - Waste to Energy Disposal - Hazardous Waste
... As the Willamette Valley’s premiere waste to energy disposal company – we’ve been serving all of Oregon for the past 18 years. ...
Oosterbeek, Netherlands
1-10 Employees
2019
Het lijkt erop dat er niets gevonden is op deze locatie.
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Featured
Waste to Energy Gasification: The ultimate solution?
... Waste to Energy Gasification: The ultimate solution? - ...
United Kingdom
1-10 Employees
Our services include, but not limited to, analysis of operations with recommendations for improvements in efficiency and design for energy production, ash generation and use, pollution control devices, risk management, and design of energy crop variety studies. Questbrook Energy is a global clean energy consultancy company established to bridge the renewable energy gap in emerging and overlooked markets of the world. We believe that all products (including waste) are a useful resource. Questbrook Energy collaborates with carefully chosen leading renewable energy companies, with strong and wealth of experience in the industry to deliver a tailor-made renewable energy solution with reference to the client’s location. Questbrook Energy, its team, and its partners have over 35 years of experience in energy production, waste management, and environmental services. With Biomass, green energy production can continue indefinitely.
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Featured
Services – Questbrook Energy | Waste to Energy Expert
... Questbrook Energy provides the following waste to energy services in sub-Saharan ...
Gold Coast City, Australia
11-50 Employees
2019
With our head office located on the Gold Coast, Queensland, Australia, Green H2 4U Pty Ltd is an Australian registered company within the H2 4U Pty Ltd group. We specialise in High Temperature Waste Gasification (HTGW) Plants that convert almost 100% of waste materials into energy and valuable by-products utilising our proven technology. Our Mission is to provide a two-fold solution to de-carbonize the world by reducing toxic waste & producing green hydrogen in a safe, environmentally sound & competitive means, using the process of gasification to become a world leader in green energy supply. Our vision is to continuously challenge ourselves to understand the evolution of green energy, while offering market leading solutions domestically & globally to safely produce Green Energy as world leader in clean energy supply. Our unique design and technology for High Temperature Waste Gasification has reached a maturity level where we can roll it out with confidence.
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Featured
A Waste to Energy Company for the Future
... A Waste to Energy Company for the ...
Finland
ECOMATION Technology has been internationally awarded as the best circular economy and carbon neutrality innovation. The pyrolysis oils made from rubber and waste plastics using the Ecomation process are excellent fuels.
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Featured
WASTE TO ENERGY SOLUTIONS
... WASTE TO ENERGY ...
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 Waste-to-Energy
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 344 |
| Amount of suitable service providers | 389 |
| Average amount of employees | 1-10 |
| Oldest suiting company | 2000 |
| Youngest suiting company | 2020 |
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Waste-to-Energy (WtE) refers to the process of generating energy in the form of electricity or heat from the primary treatment of waste. Utilizing advanced technologies, this process involves the thermal treatment of waste material, such as incineration, pyrolysis, gasification, or anaerobic digestion. Through these methods, waste, which would otherwise pollute landfills, is transformed into valuable energy sources, significantly reducing the volume of waste by up to 90%. The energy produced can be utilized directly for heating or to generate electricity, contributing to a reduction in dependency on fossil fuels and enhancing energy security. WtE plays a pivotal role in integrated waste management and sustainable energy policies, serving as a bridge in the transition towards a circular economy. By converting waste into energy, it not only addresses the challenge of waste disposal but also contributes to the generation of renewable energy, thereby reducing greenhouse gas emissions and supporting environmental conservation efforts. The strategic importance of WtE has been increasingly recognized worldwide, as it presents a viable solution to both waste management and renewable energy production, aligning with global efforts to combat climate change and promote sustainability.
1. Reduction in Landfill Usage
Waste-to-energy technology significantly reduces the volume of waste that ends up in landfills, thereby extending their lifespan. By converting waste into energy, this method is an effective solution to the growing problem of limited landfill space in many regions around the world.
2. Renewable Energy Generation
One of the most compelling benefits of waste-to-energy processes is their capability to generate renewable energy. This energy, often in the form of electricity or heat, is produced from the combustion of waste materials, making it a sustainable alternative to fossil fuels.
3. Reduction of Greenhouse Gas Emissions
Waste-to-energy facilities can help mitigate climate change by reducing greenhouse gas emissions. This is achieved through the diversion of waste from landfills, where it would otherwise decompose and produce methane, a potent greenhouse gas. Additionally, the energy produced displaces the need for energy from fossil-fuel sources, further reducing carbon emissions.
4. Waste Management Efficiency
This approach offers a highly efficient method of waste management, processing large amounts of waste while simultaneously generating energy. This dual benefit makes waste-to-energy a practical and attractive waste management solution compared to traditional methods that only focus on disposal or recycling.
1. Technology Efficiency
Ensure the supplier uses the latest and most efficient waste-to-energy technology, which maximizes energy output while minimizing waste.
2. Environmental Compliance
Check for compliance with local and international environmental regulations to ensure the supplier's operations contribute positively to sustainability goals.
3. Economic Viability
Assess the cost-effectiveness of the supplier's solution, including initial investment, operational costs, and potential savings or revenue from energy production.
4. Operational Reliability
Investigate the supplier's track record for reliable and continuous operation to ensure consistent energy production and minimal downtime.
5. Scalability
Confirm the supplier's system is scalable to accommodate future increases in waste production or energy demand.
6. Support and Maintenance
Evaluate the supplier's commitment to providing ongoing support and maintenance services to ensure long-term operational efficiency.
Waste-to-Energy (WtE) technologies offer innovative solutions for managing waste while generating energy, and their application spans various industries. In the manufacturing sector, companies utilize WtE systems to convert production waste into electricity and heat, serving both to reduce waste disposal costs and to supply energy for operations. This dual benefit makes WtE an attractive option for manufacturers looking to improve sustainability and operational efficiency. In the agricultural industry, WtE finds a significant use case through the processing of organic waste. Farms and agri-businesses can transform animal waste and crop residues into biogas, which is then used to generate electricity. This process not only provides a renewable energy source but also mitigates the environmental impact of agricultural waste. Urban municipalities represent another prevalent B2B use case for WtE. City governments and waste management companies collaborate to treat municipal solid waste as a resource rather than a burden. Through WtE facilities, they can reduce the volume of waste sent to landfills and produce electricity or heat for public buildings and services, showcasing a public-private partnership model that benefits the community and the environment. The hospitality industry also adopts WtE solutions to manage food waste. Hotels and restaurants can utilize biodigesters to convert food scraps into biogas for heating or cooking purposes. This approach not only reduces waste disposal fees but also contributes to the establishment's green initiatives, enhancing their appeal to eco-conscious consumers.
Waste-to-Energy (WTE) technologies, a critical component in managing municipal solid waste while generating energy, currently operate within a high Technology Readiness Level (TRL), typically between TRL 7 to TRL 9. This advanced TRL range signifies that WTE methods, including incineration, gasification, and anaerobic digestion, have not only been demonstrated in a controlled environment but have also been fully deployed and operational in real-world settings. The placement within this TRL spectrum is largely due to significant technical advancements and extensive operational experience that have addressed earlier challenges related to efficiency, emissions control, and energy conversion rates. For instance, modern incineration plants now incorporate advanced flue gas treatment systems to minimize environmental impact, while gasification technologies have evolved to process diverse waste streams, converting them into syngas with higher energy content. Additionally, the integration of anaerobic digestion for organic waste highlights technological maturation in producing biogas, a renewable energy source. The progression to these high TRL levels underscores a broader acceptance and reliability of WTE solutions, backed by continuous improvements in technology, compliance with stringent environmental regulations, and the growing emphasis on sustainability and waste reduction in energy production.
In the Short-Term, advancements in Waste-to-Energy (WtE) technologies are expected to focus on improving the efficiency of existing incineration and gasification processes. Enhanced combustion techniques and the integration of artificial intelligence for operational optimization are anticipated. These improvements aim to increase energy recovery rates from waste, reduce emissions, and lower operational costs, making WtE facilities more environmentally friendly and economically viable. Moving into the Mid-Term, the development of biochemical conversion processes, such as anaerobic digestion, is forecasted to gain momentum. These technologies will be refined to process a wider range of waste materials, including those with high moisture content, which have traditionally been challenging to treat. Additionally, the integration of carbon capture and storage (CCS) technologies with WtE plants is expected to become more prevalent, significantly reducing greenhouse gas emissions and aligning WtE processes with global sustainability goals. In the Long-Term, innovation is set to revolutionize the WtE sector with the introduction of advanced thermochemical conversion technologies, such as plasma gasification. These technologies promise to deliver higher energy conversion efficiencies and the ability to process virtually any type of waste material, including hazardous and medical waste, with minimal environmental impact. Moreover, the focus will shift towards the development of modular, scalable WtE systems that can be deployed more flexibly across various locations, supporting decentralized waste management frameworks and promoting circular economy principles.
Some interesting questions that has been asked about the results you have just received for Waste-to-Energy
What are related technologies to Waste-to-Energy?
Based on our calculations related technologies to Waste-to-Energy are Water/Ocean Cleaning Technologies, Waste Management, Renewable Energy, Sustainable Fashion, Smart Grid
Which industries are mostly working on Waste-to-Energy?
The most represented industries which are working in Waste-to-Energy are Energy, Professional Services, Sustainability, Science and Engineering, Manufacturing
How does ensun find these Waste-to-Energy 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.
