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Houston, United States
BD Energy Systems, LLC located in Houston, Texas, USA is a world leader in plant revamps and modernizations specialized in executing turnkey projects, revamps, modernizations and supply of engineered process equipment including furnaces for:. BD Energy Systems will be pleased to provide references for the projects executed. BD Energy Systems offers training from industry leading experts to enhance your knowledge on steam reformer design, operation, maintenance, reliability, turnarounds, revamps for capacity increase, efficiency and energy improvements. With extensive experience in design, process, construction, start-up, commissioning and operations of Syngas, Petrochemical and Refinery plants, BD Energy Systems, LLC is equipped to execute lumpsum turnkey projects of any scale involving fast track revamp projects to relocation projects. Established in 2012 in the heart of energy corridor in Houston, Texas, USA – BD Energy Systems, LLC (BDE) celebrates 10 years of service to the Syngas Industry. Since its inception, BDE has sustained steady growth, offering single-point process and EPC turnkey solutions for steam methane reformer upgrade and plant relocation projects. TrueBlue Methanol™ achieves greater than 92% reduction of CO2 emissions compared with conventional SMR based processes, delivering CO2 as a product stream, while maintaining a favorably competitive cost of production.
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Waste Heat Recovery Units (WHRU)
... Waste Heat Recovery Units (WHRU) – ...
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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Traditional Waste Heat Recovery Units
... Traditional Waste Heat Recovery Units - 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
Traditional Waste Heat Recovery Units
... Traditional Waste Heat Recovery Units - STRUTHERS ENERGY & POWER ...
Lewes, United Kingdom
1-10 Employees
2009
We have extensive experience of integrating best available proven Heat Recovery technologies into manufacturing industries operating kilns, furnaces, incinerators, and ovens. Successful projects require a turnkey system designed to operate with significant reduction in carbon emissions, minimal operating cost and maximum financial return. At the heart of a Heatcatcher System generating hot water, a High Temperature Heat Pump (HTHP) recovering low temperature heat rejected from cooling systems, exhaust ducts or effluent water into high temperature hot water above 70°C. With the market for High Temperature Heat Pumps (HTHP) developing rapidly, with many manufacturers across Europe offering both standard range and larger bespoke equipment, Heatcatcher is independent and best placed to select and integrate the best available technology to match your waste heat source. At the heart of a Heatcatcher System for generating electricity is an Organic Rankine Cycle (ORC) capable of converting waste heat temperatures as low as 80°C into carbon free electricity. With over 30 different manufacturers producing ORC generators across Europe and North America all with differing technology ranges and costs per kW of power generation, Heatcatcher is independent and best placed to select and integrate the best available technology to match your waste heat source. Adil is a chartered mechanical engineer with electrical supply experience in the design and project management of low carbon energy generating technologies for energy intensive industries. Graham is an Electrical/Energy Management/BMS Controls Engineer with over 25 years’ experience delivering energy conservation projects for Commercial and Industrial applications.
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Heatcatcher | About Us | Waste Heat Recovery Systems
... Decarbonising heat in manufacturing industries by integrating Waste Heat Recovery (WHR) systems with High Temperature Heat Pumps (HTHP) hot water generators and Organic Rankine Cycle (ORC) electricity generators. ...
Brandesburton, United Kingdom
51-100 Employees
1933
We are an ASME U&S Stamp company, authorised UK ASME Boiler Shop and UK ASME fabrication. CF Struthers, Established 1933, are renowned for the supply of high quality equipment worldwide to the Oil & Gas, Petrochemical, Power Generation, Renewables and Waste to Energy sectors. Specialists in the manufacture of Circular and Traditional Waste Heat Recovery Units (WHRUs) and Circular Heat Recovery Steam Generators (CHRSGs). Unique, patented in-house manufacturing techniques have been developed and refined over the past 20 years. Our Millennium Works opened in 2001, purpose built adjacent to Hull Docks. Ability to deliver modules up to 10 metres in width, 50m in length and 400 tonnes with no height restrictions and the unique facility for direct loading and shipping worldwide. We offer full design or alternatively subcontract to customer specification, from simple steel fabrications and structures to complex offshore mechanical handling equipment, pressure and non-pressure parts, steam boilers, condensers, heat exchangers, pressure piping systems and associated plant. CF Struthers is a privately owned British design, engineering and manufacturing group of companies.
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Waste Heat Recovery Units (WHRU)
... Waste Heat Recovery Units, WHRU, for Oil and Gas sector have been manufactured at CF Struthers for the past 25 years. ...
Mid Suffolk, United Kingdom
1-10 Employees
2011
Recoup recognised that WWHRS was the ideal solution; it reduces energy costs, is a big help in achieving building compliance, and is very affordable…. Recoup has grown and evolved in a short period of time from focussing on supplying housebuilders who need to meet Part L, to supplying a whole range of sectors, from hotels and sport facilities to residential retrofit programs and student accommodation. D00997 Recoup WWHRS Easyfit+ High Efficiency Retrofit Stand-alone WWHRS. RECREZ01 Recoup WWHRS Easyfit+ High Efficiency Retrofit Stand-alone WWHRS. Please refer to Recoup Product Code table above. Q: Who do Recoup sell to, who are your customers? Yes, all Recoup WWHRS products are SAP listed for all three recognised installation methods (A, B & C). Q: Do Recoup WWHRS systems replace the existing soil stack / SVP?
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Waste Water Heat Recovery for Showers
... The Recoup Easyfit+ WWHRS, SAP listed horizontal shower waste water heat recovery system designed to retrofit under bath or shower tray. ...
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home - Pulsing Steam Generator by Pulsing Energy: a new system to improve the energy efficiency of biomass and waste heat recovery power plants
... PSG system allows efficient clening of biomass and waste heat recovery boiler reducing electricity consumption and using as energy source the same heat generated by the plant it is supposed to keep clean - ...
Başakşehir, Turkey
11-50 Employees
2006
Our goal is to take into account the total cost when providing the system solution. Our goal is to maintain our number one position in Turkey regarding our productions. Vira is a young, dynamic and expert company regarding separators and steam related products. To meet our customers needs, we offer customers a combination of our application experience, ongoing technical support, correct installation and commissioning ability with our high quality products. Vira provide durable, high-quality air - dirt separators and steam related products that are used in many kinds of applications, from unique custom jobs to large scale installations. We aim the followings ,by sharing our products, service and knowledge. It is our duty to stand behind our products and to be with our customers after sales. Vacuum degassing is a technique of removing dissolved gas from a liquid solution by lowering the pressure inside a vessel containing the water and gas mixture.
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Waste Heat Recovery
... VCH Waste Heat Recovery ...
Petaling Jaya, Malaysia
FRHE heat exchangers are built to last with good efficiency through the utilization of up-to-date thermal and mechanical design methods coupled with great precision and integrity in our workmanship. FRHE is a reliable source for premium quality products and services for the engineering industry and we have the capacity to deliver solutions that are flexible with precision. FRHE has many years of experience with heat exchanger design and manufacturing for different engineering industries. Other than manufacturing of heat exchangers, FRHE is also capable of providing heat transfer calculations SERVICES with complete Thermal Process Design, Rating and Evaluation in accordance to acceptable heat transfer methology and industrial practices. Today, FRHE has gone on and expanded to become a heat exchanger manufacturer with decent credentials in South East Asia.
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Featured
Waste Heat Recovery
... Waste Heat Recovery, Gas Economizer, Economizer Malaysia - Heat Exchanger Malaysia, Heat Exchanger ...
Malmo, Sweden
51-100 Employees
2021
This reduces friction, lowering the vessel’s fuel consumption and emissions. CHEK is a European Union’s Horizon2020 funded project that proposes to reach zero emission shipping by disrupting the way ships are designed and operated today. Hydrogen fuel will be used to provide continuous carbon-free power, electricity and heat on demand. The vessel fuel consumption and emissions will be enhanced by means of batteries and cold ironing orchestrated by a sophisticated energy management system. Provides a significant reduction in greenhouse gas emissions but requires integration with other technologies for a continuous power.
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Waste heat recovery
... Waste heat recovery in maritime ...
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 Heat Recovery
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 142 |
| Amount of suitable service providers | 121 |
| Average amount of employees | 51-100 |
| Oldest suiting company | 1933 |
| Youngest suiting company | 2021 |
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Waste Heat Recovery (WHR) refers to the process of capturing and reutilizing heat that is generated by industrial processes, power generation, or any system where energy conversion occurs, resulting in excess thermal energy that would otherwise be discharged into the environment as waste. This recaptured heat can then be redirected for other industrial processes, preheating, or even power generation, thus improving overall energy efficiency and reducing the environmental impact associated with energy consumption and greenhouse gas emissions. WHR systems typically involve the use of technologies such as heat exchangers, recuperators, regenerators, and various types of turbines, which facilitate the transfer of heat from the source to the point of use. By converting previously unused thermal energy into usable heat or electricity, WHR plays a critical role in enhancing the sustainability of industrial operations, lowering operational costs, and contributing to energy conservation efforts. Its application spans across numerous industries, including manufacturing, power generation, and transportation, marking it as a pivotal component in the pursuit of more sustainable and efficient energy utilization. The impact of WHR is significant, offering a pathway to mitigate energy waste, decrease reliance on fossil fuels, and reduce the carbon footprint of industrial activities, thereby supporting global efforts to combat climate change.
1. Energy Efficiency Improvement:
Waste heat recovery systems significantly enhance energy efficiency by capturing and reusing heat that would otherwise be lost to the environment. This reduces the need for additional fuel consumption, leading to substantial energy savings and operational cost reductions.
2. Environmental Impact Reduction:
By utilizing the waste heat generated in industrial processes, these systems considerably lower the carbon footprint of operations. This is because reusing waste heat decreases the demand for fossil fuels, leading to a reduction in greenhouse gas emissions and other pollutants.
3. Increased Economic Savings:
The initial investment in waste heat recovery technology can be offset by the significant reduction in energy costs over time. This makes it not only an environmentally sound choice but also a financially beneficial one for industries looking to optimize their energy consumption and reduce operational expenses.
4. Enhanced Process Efficiency:
Recovering waste heat can also improve the overall efficiency of the industrial process itself. By supplementing process heating requirements or generating additional power from waste heat, industries can achieve higher productivity levels without the need for extra energy input.
While evaluating the different suppliers make sure to check the following criteria:
1. Technological Expertise
Ensure the supplier has a strong track record in waste heat recovery technologies and systems. They should offer innovative solutions that are proven to be effective.
2. Customization Capabilities
The ability to tailor solutions to meet your specific needs is crucial. The supplier should be able to design and modify their systems according to your operational requirements.
3. Energy Efficiency
Evaluate the energy efficiency of their systems. The best suppliers offer solutions that significantly reduce energy consumption and increase overall efficiency.
4. Cost-effectiveness
Consider both the initial investment and long-term operational costs. The right supplier will provide a cost-effective solution with a clear return on investment.
5. Environmental Compliance
The supplier's technology should comply with environmental regulations and contribute to your sustainability goals. It’s important that their systems help reduce your carbon footprint.
6. After-sales Support
Look for suppliers who offer robust after-sales service, including maintenance, technical support, and spare parts availability. This ensures the longevity and reliability of the system.
7. References and Case Studies
Request and review references and case studies that demonstrate the supplier’s capabilities and the effectiveness of their systems in similar applications. This will help gauge their experience and success rate.
Waste heat recovery (WHR) systems are pivotal in transforming residual heat into usable energy, offering numerous benefits across various industries. In the manufacturing sector, WHR technology is extensively employed to recapture heat from industrial processes, such as in steel or cement production, where high temperatures are routine. This recaptured energy can then be repurposed for powering factory operations or preheating raw materials, significantly reducing energy costs and enhancing operational efficiency. In the energy sector, particularly within power plants and oil refineries, waste heat recovery aids in boosting the overall efficiency of electricity generation. By utilizing the excess heat produced during power generation or refining processes, facilities can generate additional power without the need for extra fuel, thereby curbing emissions and optimizing fuel usage. The automotive industry presents another compelling use case, where WHR systems are integrated into vehicles, especially in large trucks and maritime shipping vessels. These systems recover heat from the engine's exhaust to improve fuel efficiency and reduce carbon emissions. This application not only contributes to energy savings but also aligns with increasing regulatory demands for cleaner transportation options. Lastly, the technology finds a significant application in data centers, which consume vast amounts of energy. By harnessing waste heat from servers and converting it into cooling energy through absorption chillers, data centers can significantly reduce cooling costs and achieve a more sustainable operation model. Each of these use cases underscores the versatility and environmental benefits of waste heat recovery technology, making it a key component in the pursuit of energy efficiency and sustainability across industries.
As of 2023, waste heat recovery technologies collectively span a range of Technology Readiness Levels (TRLs), predominantly positioned between TRL 6 (demonstration in a relevant environment) and TRL 9 (actual system proven in operational environment), with the exact level varying by the specific technology and its application. This spectrum reflects the maturity of different waste heat recovery solutions, from those still being fine-tuned in pilot projects to those fully integrated into industrial processes. The placement within this range is primarily due to technical factors, including the efficiency of heat recovery systems, the durability of materials used in high-temperature environments, and the integration of these systems within existing energy infrastructures. For instance, technologies harnessing low-grade waste heat face challenges in efficiency and cost-effectiveness, limiting their TRL, while high-grade waste heat recovery methods, like regenerative burners and heat exchangers, have demonstrated higher efficiencies and reliability, placing them at the higher end of the TRL spectrum. The variance in TRL levels underscores the ongoing research and development efforts aimed at overcoming technical barriers such as thermal degradation of materials, optimization of heat transfer mechanisms, and reduction in the cost of heat recovery solutions, all geared towards enhancing the feasibility and effectiveness of waste heat recovery systems across different industries.
In the short-term phase, advancements in waste heat recovery technologies are expected to focus on efficiency improvements and cost reductions in existing methodologies, such as organic Rankine cycle (ORC) systems and thermoelectric generators (TEGs). Developments in materials science are likely to yield better heat exchangers and more efficient thermoelectric materials, enabling broader application in industries like manufacturing and power generation. Integration with renewable energy sources to create hybrid systems will also be a key area of focus, enhancing the overall sustainability of energy systems. The mid-term phase is anticipated to see the emergence of novel technologies that leverage artificial intelligence (AI) and machine learning (ML) for optimized heat recovery processes. These technologies will aim at predictive maintenance, operational efficiency, and dynamic adaptation to varying industrial heat loads. Innovations in phase change materials (PCMs) and heat pipe technology will improve the storage and transportation of waste heat, expanding the possibilities for its reuse in commercial and residential heating, thus further bridging the gap between industrial waste heat producers and potential users. Looking into the long-term, the horizon is set for breakthroughs in nanotechnology and advanced material sciences, leading to the development of high-performance, ultra-efficient waste heat recovery systems. These systems will be capable of operating at a wider range of temperatures and converting low-grade heat into electricity with unprecedented efficiency. The advent of such technologies could revolutionize energy efficiency across all sectors, particularly in high-temperature industrial processes, by significantly lowering the energy footprint. Additionally, the integration of these advanced systems with smart grid technologies will facilitate a more sustainable and efficient global energy ecosystem, where waste heat recovery contributes significantly to the reduction of greenhouse gas emissions and resource conservation.
Some interesting questions that has been asked about the results you have just received for Waste Heat Recovery
What are related technologies to Waste Heat Recovery?
Based on our calculations related technologies to Waste Heat Recovery are Water/Ocean Cleaning Technologies, Waste Management, Renewable Energy, Sustainable Fashion, Smart Grid
Which industries are mostly working on Waste Heat Recovery?
The most represented industries which are working in Waste Heat Recovery are Energy, Manufacturing, Science and Engineering, Sustainability, Professional Services
How does ensun find these Waste Heat Recovery 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.
