DISCOVER

INNOVATIVE SOLUTIONS TAILORED TO SOLVE YOUR INDUSTRY CHALLENGES

Alternative Energy

Resonant pioneers the development of industrial-scale Chemical Looping Combustion (CLC) reactors, introducing a groundbreaking reactor design that optimises efficiency and sustainability in energy generation. Utilising a proprietary metallic oxygen carrier, our CLC reactor operates by charging oxygen on the oxidation side and releasing it for combustion on the reduction side, achieving exceptional CO2 and SO2 capture rates—up to 99%—during the combustion of carbon-based fuels like coal dust. The captured CO2 can be converted into valuable by-products such as foods, beverages, graphene, cement, and fertiliser. Our reactor employs a supercritical CO2 loop for heat removal and energy transfer, enhancing operational efficiency and offering advantages like higher theoretical efficiency within the reactor. Flexible fuel compatibility enables the reactor to run on solid, liquid, and gaseous biofuels like peat, canola oil, or fermenter methane, further extending its environmental impact and energy versatility.

Scalable up to 500 kWe and designed for mass production, our CLC reactor boasts self-sustaining operation, eliminating water requirements and offering mobility for installation at any site. With a wide turndown range and modular design, the reactor ensures cost-effective energy production, with incremental capacity increases and mobile units facilitating adaptive deployment to meet varying demand scenarios.

The advantages of the DCCL reactor are:

  • Clean coal technology
  • CO2 reduction capability
  • Low CAPEX
  • Low fuel/operating/electricity costs
  • Incremental increase in capacity
  • Can operate on various fuel sources
  • Mobile units

Electronic Gases and Fluorochemicals

Resonant emerges as a pivotal player in fluorochemical plant design and engineering, catering specifically to the electronics gas sector, both domestically and abroad. With stringent requirements for product purity and safety within the electronics gas industry, our firm stands at the forefront, leveraging robust engineering principles, extensive industry experience, and a profound understanding of specialised construction materials to exceed customer expectations.

Central to our approach is the development of in-house intellectual property (IP) aimed at enhancing electronic gas production efficiency. Through specialised Computational Fluid Dynamics (CFD), chemical reaction analysis, and pilot testing, we've revolutionised cumbersome batch processes into streamlined, high-purity continuous operations.

Resonant remains committed to driving innovation and excellence in fluorochemical plant engineering, shaping the future of the electronics gas industry.

Energetic Materials

Resonant makes significant strides in the energetic materials industry, with research and development programs for rocket and satellite fuels, thruster catalysts and substrates for international clients, and solid rocket fuel research for a South African-based company. Notably, we spearheaded the development of a groundbreaking multipurpose nitration plant capable of producing RDX, PETN, and NTO concurrently—a first in South Africa.

Throughout our journey, we've identified inherent inefficiencies and safety gaps in existing processes and equipment within the explosives sector. To address these challenges, we're actively engaged in developing innovative process systems and equipment tailored for enhanced safety and efficiency.

Our ongoing projects include:

  • Safer filtering of explosives
  • Safer and more efficient drying of explosives
  • Better recovery of acetic acid and RDX from spent acetic acid stream
  • Recovery and purification of NH4NO3 from waste streams
  • Reactive distillation of DEE from ethanol
  • Electro-oxidation of selected wastes from an explosive waste stream

Our endeavours have attracted significant interest from international stakeholders, a testament to the global recognition of our innovative solutions. These solutions not only promise advancements in safety standards but also substantial cost savings for our clients. This recognition positions Resonant as a leading force in energetic materials innovation, with the potential for further growth and collaboration on a global scale.

Energy & Utilities

Resonant excels in delivering turnkey solutions catering to both new (greenfield) and existing (brownfield) fabric filter plants, focusing on power utilities and energy markets. Our seasoned staff brings extensive expertise in structural engineering designs, particularly in converting electrostatic precipitators to fabric filter plants and upgrading electrostatic precipitators with normal-frequency transformers to those with high-frequency transformers. With a track record of successfully managing over ten recovery projects from fire and explosion-induced damages at power plants in South Africa, Resonant is a trusted engineering house in the field.

Our multidisciplinary services extend to materials handling, auxiliary plants, ash disposal, and common plant infrastructure, offering comprehensive support to the power utilities sector. Beyond recovery projects, we actively contribute to the green energy landscape, providing sustainable solutions to power utilities and industrial markets in both South Africa and Europe. Whether it’s enhancing fabric filter plants or spearheading green energy initiatives, Resonant stands as a reliable partner in shaping the future of power generation and energy markets.

Ferroalloys

Resonant stands at the forefront as a premier supplier of off-gas cleaning equipment, dedicated to empowering clients in the global ferroalloys industry to meet stringent regulatory standards and boost production capacities. With an in-house engineering design house and project execution departments, we offer a comprehensive range of services—from conceptual upgrade studies to turnkey solutions. Our expertise spans all facets of the ferroalloys sector, addressing the diverse needs of furnaces, calciners, hot gas generators, dryers, kilns, and boilers.

For new (greenfield) projects, our collaborative approach with overall plant designers ensures elegant solutions aligned with operational and maintenance requirements. Existing (brownfield) upgrades benefit from seamless integration, facilitated by cutting-edge 3D scanning and modelling technologies, coupled with close interaction with plant personnel.

What sets Resonant apart is our commitment to practical solutions. We go beyond theory, extensively testing off-gas systems and closely monitoring existing production plant performance. This real-world contextualisation ensures a deep understanding of operational challenges. Test results validate theoretical models, driving continuous improvement in our fit-for-purpose design approach.

Our comprehensive solutions encompass off-gas coolers, pre-separators, wet and dry scrubbers, filtration, desulphurisation, DeNOx, as well as energy recovery and carbon reduction. You can find out more on our solutions page or contact us for detailed information on how we can elevate your off-gas cleaning processes.

Green Hydrogen

Resonant is at the forefront of addressing global sustainability concerns through its dedicated focus on the emerging market of Green Hydrogen production. As part of our commitment to environmental responsibility, we have embarked on internal technology development tailored specifically for the Green Hydrogen sector. Our primary technology focuses on gas cleaning equipment for hydrogen-rich gas streams, navigating challenges associated with explosion risks and hydrogen embrittlement at elevated temperatures or pressures.

In this realm, we leverage our extensive experience in off-gas cleaning technologies, honed in the steel, ferroalloys, and PGM markets, and adapt our designs to mitigate explosion risks and address embrittlement challenges. Our internal development has yielded fit-for-purpose solutions, including baghouse filters, Venturi scrubbers, gas coolers, interconnecting ducting/piping, dampers, and compensators.

With an in-house engineering design house and project execution departments, Resonant offers a spectrum of services, from conceptual upgrade studies to complete turnkey solutions. Whether it’s new (greenfield) builds, meticulously designed in collaboration with overall plant designers, or seamlessly integrated existing (brownfield) upgrade modifications using advanced technologies like 3D scanning and modelling, Resonant is poised to contribute to the sustainable growth of the Green Hydrogen market. For more details, explore our solutions page or feel free to contact us.

Minerals Processing

Resonant, in collaboration with TCM Research, is at the forefront of developing disruptive mineral processing technologies, particularly focusing on the extraction of minerals from various ore concentrates and mineral-containing substances using carbochlorination. In these innovative processes, concentrates undergo oxidation with chlorine gas at high temperatures, resulting in the formation of volatile metal chloride vapors. These vapors are then selectively condensed or desublimed at lower temperatures to separate different metal chlorides. Advanced distillation columns further isolate valuable metal chlorides, some of which are then converted to oxides or reduced to pure metals for commercial sale. Initial tests demonstrate exceptional recovery rates, exceeding 98% for most metals, alongside the purification of multiple metal types from a single ore source. This groundbreaking technology promises to revolutionise the mining industry with numerous advantages:

  • Recovery of a majority of valuable metals in an ore
  • Much lower start-up/operational costs modular expansion
  • No water required
  • No effluent or hazardous off-gas released to the atmosphere
  • Reduced plant footprint
  • Reduced energy demand
  • Very high purity and high-value products

Extraction of the following minerals are currently being investigated:

  • Vanadium
  • Titanium
  • Iron into nano-particles
  • Tantalum
  • Niobium
  • Nickel
  • Uranium
  • Thorium
  • Zirconium
  • Etc.

Mining

Resonant stands as a dynamic and multi-disciplinary engineering and consulting firm dedicated to delivering innovative and sustainable solutions tailored to the unique demands of the mining industry. In an arena marked by intense competition, Resonant emerges as a strategic partner, adept at turning the industry’s significant challenges into unparalleled opportunities for your company.

Our comprehensive suite of services in the mining sector encompasses the full spectrum of project needs. From infrastructure design, fabrication, construction, and commissioning to multi-disciplinary engineering studies, Resonant offers a holistic approach to address the complexities inherent in mining operations. Leveraging cutting-edge technologies, such as drone and 3D scanning services, we bring efficiency and precision to data acquisition and project planning.

Additionally, our proficiency in structural audits ensures that existing mining structures meet the highest standards of safety and integrity. Resonant’s commitment to sustainability and excellence positions us as your strategic ally in navigating the evolving landscape of the mining industry. Discover the transformative power of Resonant’s solutions by exploring our diverse range of services.

Nuclear

At Resonant, we don't just boast about our expertise, we demonstrate it through our robust knowledge in the front-end nuclear fuel cycle and nuclear reactor auxiliary systems. Our team, with their extensive experience, has spearheaded numerous fuel fabrication facility designs, catering to Material Test Reactor (MTR) fuel and High-Temperature Reactors (HTR) fuel for gas-cooled and molten salt reactors. With a specific emphasis on TRi-structural ISOtropic (TRISO) fuel particles and graphite fuel elements, typically linked with GEN-IV nuclear reactors, our in-house experts are adept at developing fuel fabrication facilities from laboratory to commercial scale.

What sets us apart is our proactive integration of nuclear safety principles at the project's onset, ensuring compliance with regulating authorities and minimizing project delays. Leveraging innovative technologies and interdisciplinary collaboration, we tailor solutions to modern nuclear fuel facility demands, considering economic viability. Our portfolio extends to uranium chemistry, medical isotope production, and mineral processing plants containing radioactive substances.

Resonant stands committed to supporting the global nuclear industry with cutting-edge engineering processes and systems, driving advancements in nuclear technology.

Paper & Pulp

In the dynamic realm of the Paper & Pulp industry, boilers play a pivotal role in generating steam and power for crucial processes. Resonant understands the nuanced challenges of this sector, where boilers often dual-fire with coal/wood-chip. To safeguard equipment and reduce dust load to final collectors, our solutions encompass the use of horizontal or vertical multicyclone pre-collectors.

The final collectors employed in this industry are carefully chosen to meet the specific demands. Whether electrostatic precipitators or bag house collectors, Resonant tailors solutions to ensure compliance, particularly for coal-fired boilers requiring particulate collection, sulfur dioxide, and nitrogen dioxide reduction.

Recognising that small boilers fall under distinct environmental legislation, Resonant’s expertise extends to boilers with a design capacity of less than 50 MW heat input per unit. Compliance with local environmental policies and government legislation is paramount, influencing the efficiency requirements and gas cleaning equipment selection.

Our comprehensive range of solutions includes vertical desulphurisation, DeNox technologies, multicyclones, horizontal multicyclones, and baghouses. From evaluating existing installations to proposing emission reduction enhancements, Resonant is a strategic partner in enhancing sustainability and operational excellence in the Paper & Pulp industry. Dive into the details on our solutions page, or contact us for personalised insights and support.

Steel & PGMs

Resonant stands as a key player in the design and supply of off-gas cleaning equipment, catering to the global steel and platinum group metal (PGM) industries. Our commitment extends beyond regulatory compliance, with a focus on enhancing production capacities. With a robust engineering design house and project execution departments, we offer end-to-end solutions, from conceptual upgrade studies to complete turnkey implementations.

Versatility defines our capabilities as we confidently provide off-gas cleaning equipment for diverse applications, including furnaces, calciners, hot gas generators, dryers, kilns, and handling systems in steel and PGM industries. Whether it’s a new (greenfield) build or an existing (brownfield) upgrade modification, our approach is characterised by collaboration with plant designers, ensuring elegant solutions that align with operational and maintenance needs.

What distinguishes Resonant is our hands-on approach to problem-solving. Instead of relying solely on theory, we rigorously test off-gas systems, monitoring existing plant performance to contextualise results. This real-world understanding informs our fit-for-purpose design approach, validated through test results, theoretical modelling, and continuous improvement.

Our comprehensive solutions span off-gas heat exchangers, coarse particle removers, wet and dry scrubbers, filtration, desulphurisation, DeNOx technologies, as well as energy recovery and carbon reduction. Dive into the details on our solutions page or contact us for tailored insights and transformative solutions tailored to the steel and PGM industries.

Sugar

Resonant brings specialised expertise and cutting-edge solutions to the sugar mill industry, addressing the evolving landscape of environmental regulations. In the face of stringent legislation, standalone multicyclone collectors prove insufficient to reduce emissions below mandated limits. Our approach recognizes the significance of contextual factors, allowing end-users to align with local environmental policies and government regulations while determining the most efficient gas-cleaning equipment.

Multicyclones play a pivotal role as pre-collectors, reducing dust loads before reaching the final collector. Integration of multicyclones into horizontal ducting, strategically positioned before the air heater and economiser, safeguards against erosion and buildup and enhances heat transfer efficiency. This not only ensures compliance but also contributes to operational cost reduction.

Wet scrubbers come into play for the final collection after boilers, with specific designs tailored to the boiler’s fuel type and environmental legislation. Bagasse firing demands medium-efficiency wet scrubbers, such as cyclonic or vane scrubbers, while dual-fired bagasse/coal scenarios require higher-efficiency venturi scrubbers. Custom designing gas cleaning equipment capacities becomes imperative, aligning with boiler maximum continuous rating (MCR), load variations, and turndown requirements.

Small boilers adhere to distinct environmental legislation requirements, defined by a design capacity of less than 50 MW heat input per unit. Our solutions extend beyond theoretical proposals; existing installations undergo thorough evaluations, seeking avenues for emission reduction improvements.

Explore our range of solutions, including vertical and horizontal multicyclones, venturi scrubbers, cyclonic scrubbers, and vane scrubbers, on our solutions page. For tailored insights and information, we invite you to contact us and discover how Resonant’s environmental engineering prowess can elevate sustainability in the sugar mill industry.

Alternative Energy

Resonant pioneers the development of industrial-scale Chemical Looping Combustion (CLC) reactors, introducing a groundbreaking reactor design that optimises efficiency and sustainability in energy generation. Utilising a proprietary metallic oxygen carrier, our CLC reactor operates by charging oxygen on the oxidation side and releasing it for combustion on the reduction side, achieving exceptional CO2 and SO2 capture rates—up to 99%—during the combustion of carbon-based fuels like coal dust. The captured CO2 can be converted into valuable by-products such as foods, beverages, graphene, cement, and fertiliser. Our reactor employs a supercritical CO2 loop for heat removal and energy transfer, enhancing operational efficiency and offering advantages like higher theoretical efficiency within the reactor. Flexible fuel compatibility enables the reactor to run on solid, liquid, and gaseous biofuels like peat, canola oil, or fermenter methane, further extending its environmental impact and energy versatility.

Scalable up to 500 kWe and designed for mass production, our CLC reactor boasts self-sustaining operation, eliminating water requirements and offering mobility for installation at any site. With a wide turndown range and modular design, the reactor ensures cost-effective energy production, with incremental capacity increases and mobile units facilitating adaptive deployment to meet varying demand scenarios.

The advantages of the DCCL reactor are:

  • Clean coal technology
  • CO2 reduction capability
  • Low CAPEX
  • Low fuel/operating/electricity costs
  • Incremental increase in capacity
  • Can operate on various fuel sources
  • Mobile units

Electronic Gases and Fluorochemicals

Resonant emerges as a pivotal player in fluorochemical plant design and engineering, catering specifically to the electronics gas sector, both domestically and abroad. With stringent requirements for product purity and safety within the electronics gas industry, our firm stands at the forefront, leveraging robust engineering principles, extensive industry experience, and a profound understanding of specialised construction materials to exceed customer expectations.

Central to our approach is the development of in-house intellectual property (IP) aimed at enhancing electronic gas production efficiency. Through specialised Computational Fluid Dynamics (CFD), chemical reaction analysis, and pilot testing, we’ve revolutionised cumbersome batch processes into streamlined, high-purity continuous operations.

Resonant remains committed to driving innovation and excellence in fluorochemical plant engineering, shaping the future of the electronics gas industry.

Energetic Materials

Resonant makes significant strides in the energetic materials industry, with research and development programs for rocket and satellite fuels, thruster catalysts and substrates for international clients, and solid rocket fuel research for a South African-based company. Notably, we spearheaded the development of a groundbreaking multipurpose nitration plant capable of producing RDX, PETN, and NTO concurrently—a first in South Africa.

Throughout our journey, we’ve identified inherent inefficiencies and safety gaps in existing processes and equipment within the explosives sector. To address these challenges, we’re actively engaged in developing innovative process systems and equipment tailored for enhanced safety and efficiency.

Our ongoing projects include:

  • Safer filtering of explosives
  • Safer and more efficient drying of explosives
  • Better recovery of acetic acid and RDX from spent acetic acid stream
  • Recovery and purification of NH4NO3 from waste streams
  • Reactive distillation of DEE from ethanol
  • Electro-oxidation of selected wastes from an explosive waste stream

Our endeavours have attracted significant interest from international stakeholders, a testament to the global recognition of our innovative solutions. These solutions not only promise advancements in safety standards but also substantial cost savings for our clients. This recognition positions Resonant as a leading force in energetic materials innovation, with the potential for further growth and collaboration on a global scale.

Energy & Utilities

Resonant excels in delivering turnkey solutions catering to both new (greenfield) and existing (brownfield) fabric filter plants, focusing on power utilities and energy markets. Our seasoned staff brings extensive expertise in structural engineering designs, particularly in converting electrostatic precipitators to fabric filter plants and upgrading electrostatic precipitators with normal-frequency transformers to those with high-frequency transformers. With a track record of successfully managing over ten recovery projects from fire and explosion-induced damages at power plants in South Africa, Resonant is a trusted engineering house in the field.

Our multidisciplinary services extend to materials handling, auxiliary plants, ash disposal, and common plant infrastructure, offering comprehensive support to the power utilities sector. Beyond recovery projects, we actively contribute to the green energy landscape, providing sustainable solutions to power utilities and industrial markets in both South Africa and Europe. Whether it’s enhancing fabric filter plants or spearheading green energy initiatives, Resonant stands as a reliable partner in shaping the future of power generation and energy markets.

Ferroalloys

Resonant stands at the forefront as a premier supplier of off-gas cleaning equipment, dedicated to empowering clients in the global ferroalloys industry to meet stringent regulatory standards and boost production capacities. With an in-house engineering design house and project execution departments, we offer a comprehensive range of services—from conceptual upgrade studies to turnkey solutions. Our expertise spans all facets of the ferroalloys sector, addressing the diverse needs of furnaces, calciners, hot gas generators, dryers, kilns, and boilers.

For new (greenfield) projects, our collaborative approach with overall plant designers ensures elegant solutions aligned with operational and maintenance requirements. Existing (brownfield) upgrades benefit from seamless integration, facilitated by cutting-edge 3D scanning and modelling technologies, coupled with close interaction with plant personnel.

What sets Resonant apart is our commitment to practical solutions. We go beyond theory, extensively testing off-gas systems and closely monitoring existing production plant performance. This real-world contextualisation ensures a deep understanding of operational challenges. Test results validate theoretical models, driving continuous improvement in our fit-for-purpose design approach.

Our comprehensive solutions encompass off-gas coolers, pre-separators, wet and dry scrubbers, filtration, desulphurisation, DeNOx, as well as energy recovery and carbon reduction. You can find out more on our solutions page or contact us for detailed information on how we can elevate your off-gas cleaning processes.

Green Hydrogen

Resonant is at the forefront of addressing global sustainability concerns through its dedicated focus on the emerging market of Green Hydrogen production. As part of our commitment to environmental responsibility, we have embarked on internal technology development tailored specifically for the Green Hydrogen sector. Our primary technology focuses on gas cleaning equipment for hydrogen-rich gas streams, navigating challenges associated with explosion risks and hydrogen embrittlement at elevated temperatures or pressures.

In this realm, we leverage our extensive experience in off-gas cleaning technologies, honed in the steel, ferroalloys, and PGM markets, and adapt our designs to mitigate explosion risks and address embrittlement challenges. Our internal development has yielded fit-for-purpose solutions, including baghouse filters, Venturi scrubbers, gas coolers, interconnecting ducting/piping, dampers, and compensators.

With an in-house engineering design house and project execution departments, Resonant offers a spectrum of services, from conceptual upgrade studies to complete turnkey solutions. Whether it’s new (greenfield) builds, meticulously designed in collaboration with overall plant designers, or seamlessly integrated existing (brownfield) upgrade modifications using advanced technologies like 3D scanning and modelling, Resonant is poised to contribute to the sustainable growth of the Green Hydrogen market. For more details, explore our solutions page or feel free to contact us.

Minerals Processing

Resonant, in collaboration with TCM Research, is at the forefront of developing disruptive mineral processing technologies, particularly focusing on the extraction of minerals from various ore concentrates and mineral-containing substances using carbochlorination. In these innovative processes, concentrates undergo oxidation with chlorine gas at high temperatures, resulting in the formation of volatile metal chloride vapors. These vapors are then selectively condensed or desublimed at lower temperatures to separate different metal chlorides. Advanced distillation columns further isolate valuable metal chlorides, some of which are then converted to oxides or reduced to pure metals for commercial sale. Initial tests demonstrate exceptional recovery rates, exceeding 98% for most metals, alongside the purification of multiple metal types from a single ore source. This groundbreaking technology promises to revolutionise the mining industry with numerous advantages:

  • Recovery of a majority of valuable metals in an ore
  • Much lower start-up/operational costs modular expansion
  • No water required
  • No effluent or hazardous off-gas released to the atmosphere
  • Reduced plant footprint
  • Reduced energy demand
  • Very high purity and high-value products

Extraction of the following minerals are currently being investigated:

  • Vanadium
  • Titanium
  • Iron into nano-particles
  • Tantalum
  • Niobium
  • Nickel
  • Uranium
  • Thorium
  • Zirconium
  • Etc.

Mining

Resonant stands as a dynamic and multi-disciplinary engineering and consulting firm dedicated to delivering innovative and sustainable solutions tailored to the unique demands of the mining industry. In an arena marked by intense competition, Resonant emerges as a strategic partner, adept at turning the industry’s significant challenges into unparalleled opportunities for your company.

Our comprehensive suite of services in the mining sector encompasses the full spectrum of project needs. From infrastructure design, fabrication, construction, and commissioning to multi-disciplinary engineering studies, Resonant offers a holistic approach to address the complexities inherent in mining operations. Leveraging cutting-edge technologies, such as drone and 3D scanning services, we bring efficiency and precision to data acquisition and project planning.

Additionally, our proficiency in structural audits ensures that existing mining structures meet the highest standards of safety and integrity. Resonant’s commitment to sustainability and excellence positions us as your strategic ally in navigating the evolving landscape of the mining industry. Discover the transformative power of Resonant’s solutions by exploring our diverse range of services.

Nuclear

At Resonant, we don’t just boast about our expertise, we demonstrate it through our robust knowledge in the front-end nuclear fuel cycle and nuclear reactor auxiliary systems. Our team, with their extensive experience, has spearheaded numerous fuel fabrication facility designs, catering to Material Test Reactor (MTR) fuel and High-Temperature Reactors (HTR) fuel for gas-cooled and molten salt reactors. With a specific emphasis on TRi-structural ISOtropic (TRISO) fuel particles and graphite fuel elements, typically linked with GEN-IV nuclear reactors, our in-house experts are adept at developing fuel fabrication facilities from laboratory to commercial scale.

What sets us apart is our proactive integration of nuclear safety principles at the project’s onset, ensuring compliance with regulating authorities and minimizing project delays. Leveraging innovative technologies and interdisciplinary collaboration, we tailor solutions to modern nuclear fuel facility demands, considering economic viability. Our portfolio extends to uranium chemistry, medical isotope production, and mineral processing plants containing radioactive substances.

Resonant stands committed to supporting the global nuclear industry with cutting-edge engineering processes and systems, driving advancements in nuclear technology.

Paper & Pulp

In the dynamic realm of the Paper & Pulp industry, boilers play a pivotal role in generating steam and power for crucial processes. Resonant understands the nuanced challenges of this sector, where boilers often dual-fire with coal/wood-chip. To safeguard equipment and reduce dust load to final collectors, our solutions encompass the use of horizontal or vertical multicyclone pre-collectors.

The final collectors employed in this industry are carefully chosen to meet the specific demands. Whether electrostatic precipitators or bag house collectors, Resonant tailors solutions to ensure compliance, particularly for coal-fired boilers requiring particulate collection, sulfur dioxide, and nitrogen dioxide reduction.

Recognising that small boilers fall under distinct environmental legislation, Resonant’s expertise extends to boilers with a design capacity of less than 50 MW heat input per unit. Compliance with local environmental policies and government legislation is paramount, influencing the efficiency requirements and gas cleaning equipment selection.

Our comprehensive range of solutions includes vertical desulphurisation, DeNox technologies, multicyclones, horizontal multicyclones, and baghouses. From evaluating existing installations to proposing emission reduction enhancements, Resonant is a strategic partner in enhancing sustainability and operational excellence in the Paper & Pulp industry. Dive into the details on our solutions page, or contact us for personalised insights and support.

Steel & PGMs

Resonant stands as a key player in the design and supply of off-gas cleaning equipment, catering to the global steel and platinum group metal (PGM) industries. Our commitment extends beyond regulatory compliance, with a focus on enhancing production capacities. With a robust engineering design house and project execution departments, we offer end-to-end solutions, from conceptual upgrade studies to complete turnkey implementations.

Versatility defines our capabilities as we confidently provide off-gas cleaning equipment for diverse applications, including furnaces, calciners, hot gas generators, dryers, kilns, and handling systems in steel and PGM industries. Whether it’s a new (greenfield) build or an existing (brownfield) upgrade modification, our approach is characterised by collaboration with plant designers, ensuring elegant solutions that align with operational and maintenance needs.

What distinguishes Resonant is our hands-on approach to problem-solving. Instead of relying solely on theory, we rigorously test off-gas systems, monitoring existing plant performance to contextualise results. This real-world understanding informs our fit-for-purpose design approach, validated through test results, theoretical modelling, and continuous improvement.

Our comprehensive solutions span off-gas heat exchangers, coarse particle removers, wet and dry scrubbers, filtration, desulphurisation, DeNOx technologies, as well as energy recovery and carbon reduction. Dive into the details on our solutions page or contact us for tailored insights and transformative solutions tailored to the steel and PGM industries.

Sugar

Resonant brings specialised expertise and cutting-edge solutions to the sugar mill industry, addressing the evolving landscape of environmental regulations. In the face of stringent legislation, standalone multicyclone collectors prove insufficient to reduce emissions below mandated limits. Our approach recognizes the significance of contextual factors, allowing end-users to align with local environmental policies and government regulations while determining the most efficient gas-cleaning equipment.

Multicyclones play a pivotal role as pre-collectors, reducing dust loads before reaching the final collector. Integration of multicyclones into horizontal ducting, strategically positioned before the air heater and economiser, safeguards against erosion and buildup and enhances heat transfer efficiency. This not only ensures compliance but also contributes to operational cost reduction.

Wet scrubbers come into play for the final collection after boilers, with specific designs tailored to the boiler’s fuel type and environmental legislation. Bagasse firing demands medium-efficiency wet scrubbers, such as cyclonic or vane scrubbers, while dual-fired bagasse/coal scenarios require higher-efficiency venturi scrubbers. Custom designing gas cleaning equipment capacities becomes imperative, aligning with boiler maximum continuous rating (MCR), load variations, and turndown requirements.

Small boilers adhere to distinct environmental legislation requirements, defined by a design capacity of less than 50 MW heat input per unit. Our solutions extend beyond theoretical proposals; existing installations undergo thorough evaluations, seeking avenues for emission reduction improvements.

Explore our range of solutions, including vertical and horizontal multicyclones, venturi scrubbers, cyclonic scrubbers, and vane scrubbers, on our solutions page. For tailored insights and information, we invite you to contact us and discover how Resonant’s environmental engineering prowess can elevate sustainability in the sugar mill industry.

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