Summit Systems is the market leader in plastics drying technology, with access to a range of brands and dryer types for all requirements.
Our products offer both hygroscopic and non-hygroscopic drying in ways that allow you to avoid excess energy usage and reduce your material waste. Explore our ranges below to find out more.
The Vismec DryCube offers a cutting-edge solution for plastics drying, combining energy efficiency, precision, and flexibility.
Explore Summit Plastic Automations’ Hot Air Dryers designed for non-hygroscopic plastics like PP and PE. Get in touch for a quote or download a datasheet.
Discover compact, high-performance Compressed Air Dryers at Summit Plastics Automation. Ideal for small machines and throughputs up to 50kg/h, they offer precise drying for all hygroscopic materials with twin desiccant beds and easy, touchscreen control.
ULTRA low-energy vacuum dryers from Maguire which can save you an average of 70% energy, increase sustainability within your plastic processes.
Discover Vismec’s energy-efficient Rotor Wheel Dryers at Summit Plastics Automation. Designed for cleanroom use, they cut energy use by 40%, need no compressed air, and reach up to 180°C—perfect for drying hygroscopic materials with smart, self-adjusting control.
The Vismec DryCube offers a cutting-edge solution for plastics drying, combining energy efficiency, precision, and flexibility. Utilising a rotor dryer with an integrated pneumatic conveying system, the DryCube ensures that technical plastics are consistently dried and conveyed in optimal conditions. The independent processes for drying and conveying hot materials in a closed loop maintain the stability of polymers, unaffected by external temperature and humidity variations. This advanced design also allows automatic parameter settings, continuously monitoring and adjusting operations to provide the best possible drying conditions while preventing over-drying.
Designed for adaptability, the DryCube is well-suited for use beside processing machines, making it an ideal choice for manufacturers seeking to optimise their production lines. With features like a 7” touchscreen display, smart energy-saving modes, and material protection systems, the DryCube not only enhances productivity but also reduces operational costs. Its seamless integration with external management systems further underscores its versatility, allowing remote control and real-time monitoring to meet the most demanding production needs.
The DryCube by Vismec offers several notable benefits for optimising industrial drying processes:
Intelligent Monitoring and Automatic Adjustments: The DryCube leverages advanced monitoring systems to continuously assess the drying environment and material conditions. This real-time data enables the system to make precise adjustments to temperature, airflow, and drying duration. By tailoring the drying process to actual needs rather than using static settings, the DryCube reduces energy consumption.
Optimised Drying Cycles: The intelligent control system ensures that energy is used only when necessary, avoiding overuse. For instance, if a batch of material reaches the desired dryness sooner than expected, the system can shorten the drying time or lower the temperature, leading to significant energy savings.
Reduced Standby Energy Loss: The DryCube’s design minimises energy loss during standby periods. When the system is not actively drying materials, it conserves energy through efficient management of heating elements and airflow mechanisms.
MPM Technology: The DryCube incorporates MPM (Material Protection Module) technology, which is designed to maintain optimal drying conditions specific to each material type. This helps in avoiding over-drying, which can compromise the material’s integrity and performance.
Consistent Quality Control: By preventing over-drying, the DryCube ensures that each batch of material retains its desired properties, leading to higher-quality output. This is particularly important for sensitive materials that can degrade if exposed to excessive heat or prolonged drying times.
Reduced Waste and Rework: Enhanced material protection leads to fewer defective batches and less waste. Materials that are dried correctly the first time require less reprocessing, which reduces overall material costs and production downtime.
Stable Material Handling: The DryCube features an independent drying and conveying system, which ensures that the drying process remains consistent regardless of external environmental conditions. This stability helps maintain uniformity in drying outcomes and reduces variability in material quality.
Reduced Contamination Risks: By separating the drying and conveying processes, the DryCube minimises the risk of contamination or cross-contamination between different materials or batches. This separation also prevents issues such as material clumping or uneven drying that can occur when the drying and conveying systems are not independently managed.
Enhanced Throughput: With its efficient and stable handling system, the DryCube can accommodate higher volumes of material without compromising on quality or efficiency. This leads to better overall productivity and reduced lead times for production.
The DryCube offers the capability to reach drying temperatures up to 180°C, accommodating a broad spectrum of materials with varying thermal requirements. This high temperature range is particularly beneficial for materials that need intense heat for effective drying, which can significantly reduce processing times and improve overall production efficiency. With precise temperature control, the DryCube ensures that materials are uniformly dried, avoiding overheating or underheating and maintaining high-quality output.
Featuring an adjustable dew point as low as -50°C, the DryCube excels in removing moisture from materials that require extremely low humidity levels for optimal drying. This capability allows for precise control over the drying environment, preventing issues such as condensation and ensuring that even the most moisture-sensitive materials are dried to perfection. The ability to customise the dew point according to material specifications enhances drying efficiency and helps preserve material quality.
The DryCube’s Smart Mode leverages advanced algorithms to optimise the drying process by automatically adjusting key parameters such as temperature and airflow based on real-time data. This energy-efficient operation minimises energy consumption by ensuring that resources are used only when necessary, leading to significant cost savings and a reduced environmental impact. Smart Mode also simplifies the operator’s role by automating adjustments, enhancing both efficiency and ease of use.
The 7” touchscreen display on the DryCube offers a user-friendly interface that makes controlling and monitoring the drying process straightforward and intuitive. The large, clear display provides comprehensive information at a glance, including real-time data on temperature, dew point, and system status. This easy-to-navigate interface allows operators to efficiently manage settings, customize drying parameters, and quickly respond to any issues, thereby enhancing overall operational efficiency.
Equipped with Material Protection Module (MPM) and Safety and Loss Prevention System (SLS), the DryCube ensures both material integrity and operational safety. The MPM system protects materials from over-drying and degradation by maintaining optimal drying conditions, while the SLS system includes features such as over-temperature protection and safety alarms to prevent potential hazards. Together, these systems provide a comprehensive safety net, reducing risks and ensuring high-quality and safe operation.
The DryCube incorporates a pneumatic conveying system with a brushless blower and cyclone filter to ensure efficient and clean material handling. The brushless blower offers reliable performance with minimal maintenance requirements, while the cyclone filter captures dust and debris, maintaining a clean drying environment. This combination enhances the overall efficiency of material transport and filtration, contributing to smoother operation and reducing the likelihood of contamination in the drying process.
The Vismec DryCube offers a cutting-edge solution for plastics drying, combining energy efficiency, precision, and flexibility. Utilising a rotor dryer with an integrated pneumatic conveying system, the DryCube ensures that technical plastics are consistently dried and conveyed in optimal conditions. The independent processes for drying and conveying hot materials in a closed loop maintain the stability of polymers, unaffected by external temperature and humidity variations. This advanced design also allows automatic parameter settings, continuously monitoring and adjusting operations to provide the best possible drying conditions while preventing over-drying.
Designed for adaptability, the DryCube is well-suited for use beside processing machines, making it an ideal choice for manufacturers seeking to optimise their production lines. With features like a 7” touchscreen display, smart energy-saving modes, and material protection systems, the DryCube not only enhances productivity but also reduces operational costs. Its seamless integration with external management systems further underscores its versatility, allowing remote control and real-time monitoring to meet the most demanding production needs.
The DryCube by Vismec offers several notable benefits for optimising industrial drying processes:
Intelligent Monitoring and Automatic Adjustments: The DryCube leverages advanced monitoring systems to continuously assess the drying environment and material conditions. This real-time data enables the system to make precise adjustments to temperature, airflow, and drying duration. By tailoring the drying process to actual needs rather than using static settings, the DryCube reduces energy consumption.
Optimised Drying Cycles: The intelligent control system ensures that energy is used only when necessary, avoiding overuse. For instance, if a batch of material reaches the desired dryness sooner than expected, the system can shorten the drying time or lower the temperature, leading to significant energy savings.
Reduced Standby Energy Loss: The DryCube’s design minimises energy loss during standby periods. When the system is not actively drying materials, it conserves energy through efficient management of heating elements and airflow mechanisms.
MPM Technology: The DryCube incorporates MPM (Material Protection Module) technology, which is designed to maintain optimal drying conditions specific to each material type. This helps in avoiding over-drying, which can compromise the material’s integrity and performance.
Consistent Quality Control: By preventing over-drying, the DryCube ensures that each batch of material retains its desired properties, leading to higher-quality output. This is particularly important for sensitive materials that can degrade if exposed to excessive heat or prolonged drying times.
Reduced Waste and Rework: Enhanced material protection leads to fewer defective batches and less waste. Materials that are dried correctly the first time require less reprocessing, which reduces overall material costs and production downtime.
Stable Material Handling: The DryCube features an independent drying and conveying system, which ensures that the drying process remains consistent regardless of external environmental conditions. This stability helps maintain uniformity in drying outcomes and reduces variability in material quality.
Reduced Contamination Risks: By separating the drying and conveying processes, the DryCube minimises the risk of contamination or cross-contamination between different materials or batches. This separation also prevents issues such as material clumping or uneven drying that can occur when the drying and conveying systems are not independently managed.
Enhanced Throughput: With its efficient and stable handling system, the DryCube can accommodate higher volumes of material without compromising on quality or efficiency. This leads to better overall productivity and reduced lead times for production.
The DryCube offers the capability to reach drying temperatures up to 180°C, accommodating a broad spectrum of materials with varying thermal requirements. This high temperature range is particularly beneficial for materials that need intense heat for effective drying, which can significantly reduce processing times and improve overall production efficiency. With precise temperature control, the DryCube ensures that materials are uniformly dried, avoiding overheating or underheating and maintaining high-quality output.
Featuring an adjustable dew point as low as -50°C, the DryCube excels in removing moisture from materials that require extremely low humidity levels for optimal drying. This capability allows for precise control over the drying environment, preventing issues such as condensation and ensuring that even the most moisture-sensitive materials are dried to perfection. The ability to customise the dew point according to material specifications enhances drying efficiency and helps preserve material quality.
The DryCube’s Smart Mode leverages advanced algorithms to optimise the drying process by automatically adjusting key parameters such as temperature and airflow based on real-time data. This energy-efficient operation minimises energy consumption by ensuring that resources are used only when necessary, leading to significant cost savings and a reduced environmental impact. Smart Mode also simplifies the operator’s role by automating adjustments, enhancing both efficiency and ease of use.
The 7” touchscreen display on the DryCube offers a user-friendly interface that makes controlling and monitoring the drying process straightforward and intuitive. The large, clear display provides comprehensive information at a glance, including real-time data on temperature, dew point, and system status. This easy-to-navigate interface allows operators to efficiently manage settings, customize drying parameters, and quickly respond to any issues, thereby enhancing overall operational efficiency.
Equipped with Material Protection Module (MPM) and Safety and Loss Prevention System (SLS), the DryCube ensures both material integrity and operational safety. The MPM system protects materials from over-drying and degradation by maintaining optimal drying conditions, while the SLS system includes features such as over-temperature protection and safety alarms to prevent potential hazards. Together, these systems provide a comprehensive safety net, reducing risks and ensuring high-quality and safe operation.
The DryCube incorporates a pneumatic conveying system with a brushless blower and cyclone filter to ensure efficient and clean material handling. The brushless blower offers reliable performance with minimal maintenance requirements, while the cyclone filter captures dust and debris, maintaining a clean drying environment. This combination enhances the overall efficiency of material transport and filtration, contributing to smoother operation and reducing the likelihood of contamination in the drying process.
The DryCube stands out as a premier solution for plastics drying due to its advanced technology that combines efficiency, precision, and user-friendly operation. Its ability to maintain stable drying conditions regardless of environmental factors ensures consistent product quality. Additionally, the DryCube’s energy-saving features and protective systems make it a cost-effective and reliable choice for manufacturers looking to enhance their production processes.
Since its inception in 2007, Vismec has pioneered innovations in plastics drying technology, expanding globally due to its commitment to quality and performance. Partnered with Summit Systems for 15 years, together we bring unparalleled expertise and tailored solutions to meet diverse industry needs. As exclusive suppliers of Vismec products, Summit Systems offers not only access to cutting-edge technology but also dedicated support to ensure your production processes are optimised for success.
The DryCube saves energy through its Smart Mode, which automatically adjusts the drying process based on production needs, reducing waste and optimising efficiency, leading to up to 40% energy savings.
The DryCube is designed to maintain stable drying conditions by using a closed-loop system for conveying hot materials, ensuring that technical plastics are dried consistently without being affected by external temperature and humidity.
Yes, the DryCube can be easily integrated with existing production systems, including remote operation through Vismec Supervision 4.0, allowing for control and monitoring via PC, tablet, or smartphone.
The Hot Air Dryers from Plastic Systems have been designed to remove surface moisture from non-hygroscopic materials like PP and PE. Non-hygroscopic plastic materials are polymers which trap moisture on the surface of the granulate and moisture content is never high. The processing of plastic materials which the presence of moisture may seriously affect the quality of the process and the finished product.
There are 2 categories within the series of Hot Air Dryers. The first, includes the models which can be installed on the throat of the machine which offer airflow rates from 70 to 200m/h. The second category are installable to the floor with airflow rants from 200 to 1350m/h.
Compressed Air Dryers are designed to be fitted to the throat of smaller throughput machines. These Compressed Air dryers are compact and light in weight.
Designed for smaller machines and throughputs up to 50kg/h. Despite their miniature profile these compressed air dryers are equipped with high performance twin desiccant beds, ideally suited for the technical moulding sector. Suits all hygroscopic materials.
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Available in the UK and Ireland exclusively through Summit Systems, the Maguire Vacuum Dryer dries plastics six times faster than conventional dryers while reducing energy consumption by up to 70%, ensuring a swift return on investment.
The ULTRA dryer uses a vacuum-based, desiccant-free technology that is particularly suited for demanding applications in a variety of industries. Maguire’s innovative approach reflects its commitment to “thinking outside the box,” delivering high-quality results with a strong emphasis on sustainability.
The ULTRA dryer features a compact design, requiring 50% less physical space compared to traditional systems where the hopper is placed separately. This space-saving feature allows manufacturers to maximise their factory floor layout.
By adopting the Maguire ULTRA dryer, you can significantly boost production efficiency while also reducing your operation’s environmental impact. The dryer’s capacity to cut carbon emissions effectively align with modern sustainability requirements.
Discover how much energy you could save with the ULTRA Dryer using the Maguire Online Calculator
Available in the UK and Ireland exclusively through Summit Systems, the Maguire Vacuum Dryer dries plastics six times faster than conventional dryers while reducing energy consumption by up to 70%, ensuring a swift return on investment.
The ULTRA dryer uses a vacuum-based, desiccant-free technology that is particularly suited for demanding applications in a variety of industries. Maguire’s innovative approach reflects its commitment to “thinking outside the box,” delivering high-quality results with a strong emphasis on sustainability.
The ULTRA dryer features a compact design, requiring 50% less physical space compared to traditional systems where the hopper is placed separately. This space-saving feature allows manufacturers to maximise their factory floor layout.
By adopting the Maguire ULTRA dryer, you can significantly boost production efficiency while also reducing your operation’s environmental impact. The dryer’s capacity to cut carbon emissions effectively align with modern sustainability requirements.
Discover how much energy you could save with the ULTRA Dryer using the Maguire Online Calculator
A vacuum dryer is a material drying technology used in the plastics industry to remove moisture from plastic resins or pellets before processing.
Unlike conventional dryers, vacuum dryers operate at lower temperatures, significantly reducing the risk of thermal degradation to the plastic. Vacuum dryers do this by creating a low-pressure environment which effectively lowers the boiling point of water, allowing for faster and more thorough drying of the plastic materials with reduced material degradation.
The use of vacuum dryers is crucial in the production of high-quality plastic products, preventing defects that can be caused by excess moisture during manufacturing processes. This is particularly important for hygroscopic plastics, which readily absorb moisture from the air.
The Ultimate ULTRA Drying Solution, the Maguire ULTRA dryers have demonstrated the ability to accelerate plastic drying 6x faster compared to traditional dryers, all while utilising up to 70% less energy.
This rapid drying innovation employs a vacuum-based approach without the need for desiccants, which is particularly well-suited for optical, medical and technical applications. The vacuum batch dryer series presents a remarkable 70% reduction in power consumption compared to dehumidifying methods.
Desiccant dryers consume approximately 45 watts per pound per hour (100 watts per kilogram per hour) of material processed. In comparison, Maguire ULTRA Dryers use only 4 watts per pound per hour (8 watts per kilogram per hour), translating to significantly lower energy consumption.
To put this into perspective, in a typical plastics drying line running at a throughput of 220 pounds per hour (100 kilograms per hour), a generic desiccant dryer would consume an additional 41 watts per pound (92 watts per kilogram) compared to an ULTRA Dryer.
In fact, what energy a desiccant dryer consumes in just one day, an ULTRA Dryer would spread out over the course of an entire week. This not only lowers operational costs but also contributes to long-term sustainability by reducing your facility’s overall energy usage. These huge year-on-year energy savings make ULTRA Dryers an excellent choice for those looking to improve efficiency while maintaining high-quality drying performance.
At Summit Systems, we proudly present ourselves as the exclusive suppliers of the renowned Maguire range of Vacuum Dryers and Blenders in the UK. We understand the diverse needs of your industry. Gain access to expertise that can help tailor the ULTRA dryer’s capabilities to your specific requirements, with our team always available to support you.
The material is first loaded into a heating hopper to come up to the normal desired drying temperature for that material – for PET typically 40 to 60 minutes at a drying temperature of 1 338°F / 170°C.
The preheated material then feeds by gravity into the vacuum chamber. The amount of material is monitored by a pair of load cells to know the amount of material and adjust if required. A high vacuum is applied to 700 mmHg (90% vacuum) and the material is held under vacuum for 20 to 30 minutes, depending on the material type, initial moisture and required throughput.
The material is fed to the material retention hopper which is also monitored by load cells. The load cells monitor usage and signal when to feed from the vacuum hopper.
The membrane dry air purge option provides a supply of -40°F / -40°C dew point air to purge the vacuum chamber and blanket the retention hopper.
Vacuum dryers, such as the Maguire ULTRA Dryer, are significantly more energy-efficient, using up to 70% less energy than traditional desiccant dryers. Vacuum dryers can also operate at lower temperatures, reducing thermal degradation of the plastic while drying.
They also offer faster drying times due to the reduced pressure, which lowers the boiling point of moisture and accelerates its removal from the plastic material. Additionally, vacuum dryers have the advantage of not relying on desiccant beds, which require regular regeneration and maintenance.
Vacuum drying is incredibly efficient, particularly when compared to desiccant drying methods. This translates into substantial energy savings, making vacuum drying a highly efficient option for plastic processing operations. The efficiency also extends to faster drying times, which improves throughput and reduces downtime.
The initial investment in vacuum drying equipment may be higher than for traditional desiccant dryers, but the energy savings and reduced operational costs quickly offset this upfront expense.
With vacuum drying consuming significantly less energy, running costs are much lower, with the savings increasing over time. Additionally, vacuum dryers tend to require less maintenance, further reducing long-term costs.
Unlike traditional desiccant dryers, the Maguire ULTRA Dryer does not operate based on a dew point measurement.
Dew point, which is critical in desiccant drying to measure the dryness of the air, is not relevant in vacuum drying. The ULTRA Dryer removes moisture through a high-temperature, low-pressure vacuum process, so instead it monitors live vacuum pressure.
Learn more here: https://www.youtube.com/watch?v=J6UhPlytgYM.
Maguire ULTRA Dryers require minimal maintenance – particularly when compared to desiccant dryers. There are no desiccant beds to regenerate, which eliminates the need for periodic replacement or reactivation.
The ULTRA Dryer’s simple and robust design focuses on long-term reliability with fewer moving parts and less wear and tear. Regular maintenance only involves simple routine checks, such as inspecting vacuum seals and ensuring that components like filters and heating elements are functioning properly. Overall, the maintenance requirements are straightforward and less frequent, reducing downtime and operational costs
One day, they likely will be. Maguire has been a pioneer in vacuum drying technology since 1998, continuously refining and improving their designs over three generations of dryers. Over the past 26+ years, the advantages of vacuum drying are becoming more apparent across various applications.
Vacuum dryers like the Maguire ULTRA Dryer are increasingly being chosen over traditional desiccant dryers. As the efficiency and performance of vacuum drying become widely recognised, it is expected to become the preferred method for drying plastics.
Summit Plastics Automation proudly supplies the Vismec Low Energy Rotor Wheel Dryer range (also known as a Desiccant Wheel Dryer). Ideal for drying hygroscopic materials, its innovative honeycomb technology ensures a 40% energy-saving compared to conventional twin-tower desiccant dryers. These dryers can be installed on or adjacent to your drying hopper.
Within the range, the Drywell and Dryplus models eliminate the need for compressed air or cooling water to dry materials. They can reach drying temperatures of up to 180°C.
Their smart mode feature automatically adjusts the drying process according to production needs by supervising the return air temperature. Furthermore, their Material Protection Management (MPM) safeguards the material from potential over-drying and degradation by closely monitoring the loading system and return air temperature.
Read on to learn more.
The Drywell series is amongst this new range of desiccant dehumidifying dryers. Compared to its counterparts, it is far more efficient, compact and requires less maintenance. Other notable features, depending on your chosen model include:
Explore the datasheet below to find out more.
With similar technical characteristics as its Drywell counterparts, other notable features depending on your chosen model include:
As part of this series, Vismec provides a range of additional products, to ensure that your operations run as efficiently as possible. This includes an ‘Oil Trap’, ‘Feeding Kit’ (for connecting two systems), and ‘Halo’ (a weighing ring installed on the top of the drying hopper to measure the throughput in kg/h in real-time).
To learn more about this range, explore the datasheet below.
Summit Plastics Automation proudly supplies the Vismec Low Energy Rotor Wheel Dryer range (also known as a Desiccant Wheel Dryer). Ideal for drying hygroscopic materials, its innovative honeycomb technology ensures a 40% energy-saving compared to conventional twin-tower desiccant dryers. These dryers can be installed on or adjacent to your drying hopper.
Within the range, the Drywell and Dryplus models eliminate the need for compressed air or cooling water to dry materials. They can reach drying temperatures of up to 180°C.
Their smart mode feature automatically adjusts the drying process according to production needs by supervising the return air temperature. Furthermore, their Material Protection Management (MPM) safeguards the material from potential over-drying and degradation by closely monitoring the loading system and return air temperature.
Read on to learn more.
The Drywell series is amongst this new range of desiccant dehumidifying dryers. Compared to its counterparts, it is far more efficient, compact and requires less maintenance. Other notable features, depending on your chosen model include:
Explore the datasheet below to find out more.
With similar technical characteristics as its Drywell counterparts, other notable features depending on your chosen model include:
As part of this series, Vismec provides a range of additional products, to ensure that your operations run as efficiently as possible. This includes an ‘Oil Trap’, ‘Feeding Kit’ (for connecting two systems), and ‘Halo’ (a weighing ring installed on the top of the drying hopper to measure the throughput in kg/h in real-time).
To learn more about this range, explore the datasheet below.
They represent a shift from traditional dehumidifying dryers, which are often reliant on molecular sieves in pellet form, composed of at least 30% clay. These systems are prone to degradation over time, requiring frequent maintenance and eventual replacement.
The Rotor Wheel Dryer is a compact, efficient, and durable alternative. Instead of using clay-based molecular sieves, they utilise a pure molecular sieve applied to a synthetic substrate. This substrate is rolled into a cylinder, forming a honeycomb structure that facilitates uniform and efficient moisture absorption.
The operation of a Rotor Wheel Dryer involves three main sections: drying, regeneration, and cooling. The wheel, powered by a step motor, rotates, channelling the humid air from the material hopper through a return air filter. This air is dried in two stages before being returned to the drying hopper via a heating chamber, courtesy of a process blower.
Concurrently, a portion of the rotating wheel undergoes regeneration in a heat chamber with a separate regeneration blower. Lastly, a cooling section cools down part of the wheel before it re-enters the drying process.
This systematic rotation, regeneration, and cooling ensure the efficient operation of the dryer.
The Rotor Wheel Dryer range from Vismec comes with an array of advantages, making it a popular choice amongst various applications.
Summit Plastics Automation provides a comprehensive range of after-sales services, designed for your assurance. We aim to guarantee the sustained optimal performance of your machinery.
We offer expert technical advice and assistance in the event of a breakdown. We aim to ensure uptime and increase efficiency for all of our customers’ cooling systems, with or without a maintenance contract.
We are not limited to our own equipment and can deliver the same service on any. Get in touch today, for help with stock spares, remote monitoring, energy saving, equipment hire, service engineer callouts, or our 24/7 technical support.
We cater to customers with older equipment by offering restoration and repair services. Our dedicated engineers aim to restore your machinery to its initial state, thereby minimising your operational downtime. We are versatile enough to perform work on-site or at our fully-equipped Tamworth workshop.
Additionally, our engineers can carry out preventative maintenance visits, a proactive approach aimed at improving your machinery’s performance and extending its lifespan. These visits are meticulously planned to avert unexpected equipment breakdowns.
You should use a rotor dryer when you need to dry hygroscopic materials – substances that readily attract water from their environment. It’s particularly beneficial for energy-conscious operations as it can save up to 40% energy consumption when compared to traditional twin tower desiccant dryers.
If you’re dealing with moisture-sensitive materials and wish to optimise energy efficiency, a rotor wheel dryer is a great choice.
A traditional dehumidifying dryer relies on clay-based molecular sieves that degrade over time, needing regular upkeep and replacement. In contrast, our Rotor Wheel Dryers offer a compact, efficient, and long-lasting solution. These employ a pure molecular sieve on a synthetic substrate, rolled into a cylinder to create a honeycomb structure for uniform and efficient moisture absorption. A protective steel cover further enhances its durability, assuring consistent performance over time.
Hence, the Rotor Wheel Dryer is not only more efficient but also requires less maintenance compared to traditional dryers.
Industrial chillers come in a variety of types, each designed for specific cooling requirements. Here at Summit Process Cooling, we offer a range of types including Air Cooling, Water-Cooled, and Free Cooling Chillers.
Each type is engineered to provide efficient cooling for diverse industrial needs. Learn more about the different types of chiller here.
Here at Summit Plastics Automation, we provide a range of drying solutions to meet a variety of applications. This includes:
