システムサポート List of Products and Services

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to achieve what was once deemed "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, including clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their tremendous trial and error process. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

The tubeless heat exchanger is an innovative product that solves the challenges of conventional heat exchangers and significantly improves safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, achieving cost reduction and a decrease in workload. As a result, its application in various industrial fields is anticipated. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to realize what was once called "an extremely difficult task." In the near future, technologies that were once part of the world of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, such as through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

The tubeless heat exchanger is an innovative product that addresses the challenges of conventional heat exchangers, significantly improving safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, leading to cost reduction and a decrease in workload. This is expected to facilitate its use across various industrial sectors. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to realize what was once called "an extremely difficult task." In the near future, technologies that were once found in science fiction movies, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini plays a role as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once the realm of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, including clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

The tubeless heat exchanger is an innovative product that solves the challenges of conventional heat exchangers and significantly improves safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, resulting in cost reduction and decreased workload. This is expected to lead to applications in various industrial fields. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to realize what was once considered an "extremely difficult task." In the near future, technologies that were once part of the world of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, such as through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

The tubeless heat exchanger is an innovative product that addresses the challenges of conventional heat exchangers, significantly improving safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, leading to cost reduction and a decrease in workload. This is expected to facilitate its use in various industrial sectors. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

The tubeless heat exchanger is an innovative product that solves the challenges of conventional heat exchangers and significantly improves safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, resulting in cost reduction and a decrease in workload. This is expected to lead to applications in various industrial fields. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

The tubeless heat exchanger is an innovative product that addresses the challenges of conventional heat exchangers, significantly improving safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, resulting in cost reduction and decreased workload. This is expected to lead to its application in various industrial sectors. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

The tubeless heat exchanger is an innovative product that solves the challenges of conventional heat exchangers and significantly improves safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, resulting in cost reduction and decreased workload. This is expected to lead to applications in various industrial fields. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

The tubeless heat exchanger is an innovative product that solves the challenges of conventional heat exchangers and significantly improves safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since it can be cleaned and sterilized with common tools, there is no need for specialized contractors or dedicated tools, resulting in cost reduction and a decrease in workload. This is expected to lead to its application in various industrial fields. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

The tubeless heat exchanger is an innovative product that solves the challenges of conventional heat exchangers and significantly improves safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, resulting in cost reduction and a decrease in workload. This is expected to lead to applications across various industrial sectors. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

The tubeless heat exchanger is an innovative product that addresses the challenges of conventional heat exchangers, significantly improving safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, resulting in cost reduction and a decrease in workload. This is expected to lead to its application in various industrial fields. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

The tubeless heat exchanger is an innovative product that solves the challenges of conventional heat exchangers and significantly improves safety, productivity, and versatility. The spiral flow path design enhances heat transfer efficiency, allows for space-saving, and enables easy disassembly and cleaning. Since cleaning and sterilization can be performed with common tools, there is no need for specialized contractors or dedicated tools, resulting in cost reduction and a decrease in workload. This is expected to lead to applications in various industrial fields. *For more details, please refer to the catalog.*

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

The tubeless heat exchanger is patented (Patent No. 7236765) and functions by combining two components with flow paths. This groundbreaking design allows for various applications such as heating, cooling, and condensation of fluids, and is particularly expected to be valuable in fields like food, pharmaceuticals, and chemical industries. Additionally, it can be cleaned and sterilized with common tools like brushes and faucets, ensuring excellent maintainability. This enables the preservation of product quality and the optimization of production processes. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact parts in heat exchangers? Heat exchange refers to the transfer of thermal energy from a high-temperature fluid to a low-temperature fluid. One method of heat exchange involves flowing two types of fluids through solid walls separated by materials such as metal, allowing them to transfer temperature to each other; this wall-separation method is easy to handle and comes in various types. Wall-separation heat exchangers are used in a wide range of applications, including heating, cooling, concentration, evaporation, condensation, and heat recovery of fluids. However, in conventional designs, due to issues related to disassembly and structural challenges, cleaning and sterilization of the liquid-contact parts are often extremely difficult. This issue is resolved by the tube-less heat exchanger. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact parts in heat exchangers? The transfer of thermal energy from a fluid at a high temperature to a fluid at a low temperature is called heat exchange. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials like metal, which separates them and allows them to exchange temperatures; this wall-type method is easy to handle and comes in various types. Wall-type heat exchangers are used in a wide range of applications, including heating, cooling, concentrating, evaporating, condensing, and heat recovery of fluids. On the other hand, due to issues related to disassembly and structural challenges in conventional designs, cleaning and sterilization of the liquid-contact parts are often extremely difficult. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact part in a heat exchanger? Heat exchange refers to the transfer of thermal energy from a fluid at a high temperature to a fluid at a low temperature. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials such as metal, allowing them to transfer their temperatures to each other; this wall-separated method is easy to handle and comes in various types. Wall-separated heat exchangers are used in a wide range of applications, including heating, cooling, concentration, evaporation, condensation, and heat recovery of fluids. On the other hand, due to issues related to disassembly and structural challenges in conventional designs, cleaning and sterilization of the liquid-contact parts are often extremely difficult. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid contact part in a heat exchanger? The transfer of thermal energy from a high-temperature fluid to a low-temperature fluid is called heat exchange. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials like metal, allowing them to exchange temperatures through the partition. This partition type is easy to handle and comes in various forms. Partition-type heat exchangers are used in a wide range of applications, including heating, cooling, concentrating, evaporating, condensing, and heat recovery of fluids. However, in traditional designs, due to issues related to disassembly and structural challenges, cleaning and sterilization of the liquid contact parts are often extremely difficult. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact parts in heat exchangers? The transfer of thermal energy from a high-temperature fluid to a low-temperature fluid is called heat exchange. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials like metal, which separates them and allows them to share their temperatures; this wall-type method is easy to handle and comes in various types. Wall-type heat exchangers are used in a wide range of applications, including heating, cooling, concentrating, evaporating, condensing, and heat recovery of fluids. On the other hand, due to issues related to disassembly and structural challenges in traditional designs, cleaning and sterilizing the liquid-contact parts are often extremely difficult. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact part in a heat exchanger? Heat exchange refers to the transfer of thermal energy from a fluid at a high temperature to a fluid at a low temperature. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials like metal, allowing them to transfer their temperatures to each other; this wall-separation method is easy to handle and comes in various types. Wall-separation heat exchangers are used in a wide range of applications, including fluid heating, cooling, concentration, evaporation, condensation, and heat recovery. However, in traditional designs, due to issues related to disassembly and structural challenges, cleaning and sterilization of the liquid-contact parts are often extremely difficult. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact parts in heat exchangers? Heat exchange refers to the transfer of thermal energy from a high-temperature fluid to a low-temperature fluid. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials like metal, allowing them to transfer temperature to each other. This wall-type method is easy to handle and comes in various types. Wall-type heat exchangers are used in a wide range of applications, including heating, cooling, concentrating, evaporating, condensing, and heat recovery of fluids. However, due to issues related to disassembly and structural challenges in conventional designs, cleaning and sterilization of the liquid-contact parts are often extremely difficult. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

A sampling condenser (condenser) is a device that recovers gas into liquid by removing heat from steam using cooling water. If you are considering installing a condenser in a newly established line or incorporating it into your own equipment, we kindly ask you to consider it. It contributes to space-saving, sanitary conditions, and sustainability. Please contact us first. What is cleaning and sterilization of the liquid-contact parts in heat exchangers? The transfer of thermal energy from a high-temperature fluid to a low-temperature fluid is called heat exchange. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials like metal, allowing them to exchange temperatures through a partition. This partition method is easy to handle and comes in various types. Partition-type heat exchangers are used in a wide range of applications, including fluid heating, cooling, concentration, evaporation, condensation, and heat recovery. However, due to decomposition and structural issues in conventional designs, cleaning and sterilization of the liquid-contact parts are often extremely difficult. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.

• Concentration Equipment
• Beverage Production Equipment
• Other machine elements

A sampling condenser (condenser) is a device that recovers gas into liquid by removing heat from steam using cooling water. If you are considering installing a condenser in a newly established line or incorporating it into your own equipment, we kindly ask you to consider it. It contributes to space-saving, sanitary conditions, and sustainability. Please contact us first. What is cleaning and sterilization of the liquid-contact part in heat exchangers? The transfer of thermal energy from a high-temperature fluid to a low-temperature fluid is called heat exchange. One common method of heat exchange involves flowing two types of fluids through a solid wall separated by materials such as metal, allowing them to transfer temperature to each other. The wall-type heat exchangers are easy to handle and come in a variety of types, and they are used in diverse applications such as heating, cooling, concentrating, evaporating, condensing, and heat recovery of fluids. On the other hand, traditional designs often face significant challenges in cleaning and sterilizing the liquid-contact parts due to issues with disassembly and structural integrity. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact part in a heat exchanger? The transfer of thermal energy from a high-temperature fluid to a low-temperature fluid is called heat exchange. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials like metal, allowing them to transfer temperature to each other; this partition method is easy to handle and comes in various types. Partition-type heat exchangers are used in a wide range of applications, including heating, cooling, concentration, evaporation, condensation, and heat recovery of fluids. On the other hand, due to issues with disassembly and structural challenges in conventional designs, cleaning and sterilizing the liquid-contact parts are often extremely difficult. This challenge is addressed by the "hybrid washable heat exchanger." *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, such as through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating in all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, such as through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for the researchers' immense trial and error. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

What is the cleaning and sterilization of the liquid-contact part in a heat exchanger? Heat exchange refers to the transfer of thermal energy from a fluid at a high temperature to a fluid at a low temperature. One method of heat exchange involves flowing two types of fluids through a solid wall made of materials like metal, allowing them to transfer temperature to each other; this wall-type method is easy to handle and comes in various types. Wall-type heat exchangers are used in a wide range of applications, including heating, cooling, concentrating, evaporating, condensing, and heat recovery of fluids. On the other hand, due to issues related to disassembly and structural challenges in conventional designs, cleaning and sterilizing the liquid-contact parts are often extremely difficult. This challenge is addressed by the "hybrid washable heat exchanger." *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact parts in heat exchangers? Heat exchange refers to the transfer of thermal energy from a fluid at a higher temperature to a fluid at a lower temperature. One method of heat exchange involves flowing two types of fluids through solid walls separated by materials like metal, allowing them to transfer temperature through the partition. This partition-type heat exchanger is easy to handle and comes in a variety of types. Partition-type heat exchangers are used in diverse applications such as heating, cooling, concentrating, evaporating, condensing, and heat recovery of fluids. On the other hand, traditional designs often face significant challenges in terms of disassembly and structural issues, making the cleaning and sterilization of liquid-contact parts extremely difficult. This challenge is addressed by the "hybrid washable heat exchanger." *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once part of the world of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, such as through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

What is the cleaning and sterilization of the liquid-contact parts in heat exchangers? Heat exchange refers to the transfer of thermal energy from a fluid at a high temperature to a fluid at a low temperature. One method of heat exchange involves flowing two types of fluids through a solid wall, such as metal, that separates them, allowing them to transfer temperature to each other. This wall-separated method is easy to handle and comes in a variety of types. Wall-separated heat exchangers are used in a wide range of applications, including heating, cooling, concentrating, evaporating, condensing, and heat recovery of fluids. On the other hand, traditional designs often face significant challenges in cleaning and sterilizing the liquid-contact parts due to issues related to disassembly and structural integrity. This challenge is addressed by the "hybrid washable heat exchanger." *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

What is the cleaning and sterilization of the liquid-contact parts in heat exchangers? Heat exchange refers to the transfer of thermal energy from a fluid at a higher temperature to a fluid at a lower temperature. One method of heat exchange involves flowing two types of fluids through solid walls separated by materials such as metal, allowing them to share their temperatures; this wall-separation method is easy to handle and comes in various types. Wall-separation heat exchangers are used in a wide range of applications, including heating, cooling, concentration, evaporation, condensation, and heat recovery of fluids. However, traditional designs often face significant challenges in terms of disassembly and structural issues, making the cleaning and sterilization of liquid-contact parts extremely difficult. This challenge is addressed by the tube-less heat exchanger. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine
• Other physicochemical equipment

Research teams from Brown University, the University of Maryland, and the University of Tokyo have developed a candidate material for the solid electrolyte of next-generation solid-state batteries, which are considered essential for electric vehicles (EVs), using cellulose nanofibers (CNF) derived from trees. The results were published in the British scientific journal "Nature." Cellulose typically does not conduct ions. In contrast, it has been demonstrated that lithium ions can move rapidly through a solid material made of copper and CNF, which was created by immersing CNF in a copper alkali solution. The reason for this is that the spacing between the linear polymer chains of CNF is expanded by binding with copper ions, creating pathways that allow lithium ions to pass through smoothly. Additionally, it is said that its ability to transport ions is 10 to 100 times higher compared to other polymer ion conductors. Furthermore, leveraging its characteristics as an ion conductor, there is potential for it to be used as a binder for the positive electrode in solid-state batteries. Other advantages include its low environmental impact and higher strength and flexibility compared to ceramic materials, which are commonly used in many solid electrolytes under research and development. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When materials are reduced to the molecular level, their properties change. This change in material properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once the realm of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, including clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of poorly soluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. ● Features We perform micronization (emulsification, dispersion, grinding, and deagglomeration) using our unique FFS (Fluid Friction System) technology, which utilizes "shear force from fluid friction." This method minimizes cavitation (cavities and boiling phenomena) caused by rapid pressure drop immediately after nozzle passage, contributing to particle uniformity and stabilization for prototypes and new products. Additionally, the Systemizer Mini (demo unit) and Systemizer (mass production unit) share the main components and structure, allowing for stress-free mass production of prototypes and new products developed with the mini unit. 1. Commonization of main components and structure. Processing flow rate: capable of handling from 400 ml/min to 6000 ml/min. 2. Micronization processing according to the number of passes, resulting in less energy loss and improved productivity. 3. All models in the Systemizer series control a maximum pressure of 250 MPa. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When materials are reduced to the molecular level, their properties change. This change in material properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of current researchers and developers. The Systemizer Mini serves as an assistant for the researchers' tremendous trial and error. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to achieve what was once called "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating in all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, including clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini plays the role of an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to realize what was once called "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, including clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their tremendous trial and error process. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, such as through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for the researchers' immense trial and error. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to realize what was once called "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, including clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When substances are reduced to the molecular level, their properties change. This change in properties holds the potential to realize what was once considered "an extremely difficult task." In the near future, technologies that were once part of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society through clean energy and carbon neutrality. Behind this innovation lies the wisdom inherited from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When materials are reduced to the molecular level, their properties change. This change in material properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once the realm of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is growing attention on achieving a "sustainable" society, including clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for researchers and developers in their immense trial and error process. *For more details, please refer to the catalog.

• Emulsifier/Disperser
• Fine grinding machine

For researchers and developers involved in nanotechnology, the uniformity and stabilization of insoluble substances and particles is one of the challenges. When reduced to the molecular level, the properties of substances change. This change in properties holds the potential to achieve what was once considered "an extremely difficult task." In the near future, technologies that were once the realm of science fiction, such as AI, blockchain, IoT, cloud computing, 5G, autonomous driving, and 3D printing, are becoming a reality. Innovation is accelerating across all fields, including electronic components, pharmaceuticals, cosmetics, food, new materials, and chemical products. At the same time, there is increasing attention on achieving a "sustainable" society, such as through clean energy and carbon neutrality. Behind this innovation lies the wisdom passed down from predecessors and the tireless efforts of researchers and developers currently striving for progress. The Systemizer Mini serves as an assistant for the researchers' tremendous trial and error. *For more details, please refer to the catalog.*

• Emulsifier/Disperser
• Fine grinding machine