List of Physics and chemistry equipment products
- classification:Physics and chemistry equipment
1~45 item / All 15080 items
Achieves high collection efficiency through electrostatic methods. Offers a wide range of products from large to small sizes. Also compatible with water-soluble oil mist.
- air conditioning
From October 29 (Tuesday) to 31 (Thursday), 2024! We will be exhibiting small ultrasonic dispersion devices and ultrasonic generators!
- Emulsifier/Disperser
- Powder Supply Device
- Dispersion/emulsification equipment/homogenizer
Case Studies of Distributed Engineering Failures | Why Can't We Resolve Issues with Dama and Quality Variability? Common Causes and Countermeasures.
In dispersion engineering, challenges such as "clumps persist regardless of how many times conditions are changed" and "variability in particle size distribution does not improve" occur in many settings. In one case, the cause of poor dispersion was attributed to equipment performance, leading to responses such as increasing rotation speed and extending processing time. However, the persistence of clumps and variability in quality were not resolved, and rather, new problems arose, such as particle fragmentation due to excessive shear. Behind such failures lies the misconception that "dispersion = just apply strong shear." In reality, if clumps are formed in the initial stage due to poor wetting or uneven flow when the powder is introduced, it is difficult to completely resolve them by applying strong shear in subsequent processes. Additionally, in batch processing, variations in flow and residence time lead to different dispersion histories for each particle, making it impossible to ensure reproducibility of quality. To address this issue, it is crucial to review the entire process, including not just changes in equipment conditions but also the steps from powder introduction to dispersion. By adopting configurations that apply shear simultaneously with powder introduction and implementing inline continuous processing that maintains consistent flow and dispersion conditions, it is possible to suppress initial clumps and achieve stable dispersion quality. Improving poor dispersion requires optimization of the entire process, not just the equipment alone.
Dispersion is not determined by the equipment. It is determined by the process design of the solid-liquid mixing dispersion system.
- Dispersion/emulsification equipment/homogenizer
- Emulsifying and dispersing machine
- Emulsifier/Disperser
What are the causes and countermeasures for quality variation in dispersed engineering? An explanation of design points to prevent instability in particle size distribution and reduced reproducibility.
In dispersion processes, issues such as unstable particle size distribution and quality variation between batches occur in many settings. These quality variations are caused not only by equipment performance but also by variations in dispersion conditions, flow states, and process design. For example, when shear energy is uneven, differences arise in the disintegration state of particles, leading to a wider particle size distribution and residual agglomeration. Additionally, in batch processing, variations in mixing uniformity and residence time can cause fluctuations in dispersion state between batches, making it difficult to ensure reproducibility. Particularly in high-viscosity systems or high solid content slurries, even slight variations in conditions can significantly impact quality. To suppress quality variations, it is crucial to design processes that maintain consistent dispersion energy and flow conditions. By stabilizing conditions, as in inline continuous processing, it becomes possible to reduce inter-batch differences and achieve stable dispersion quality. Furthermore, in dispersion processes, not only the performance of the equipment itself but also operating conditions such as input order, residence time, and flow control greatly affect quality. Inline continuous processing makes it easier to maintain these conditions consistently, ensuring stable dispersion even in high-viscosity slurries. By designing the entire process, it is possible to fundamentally suppress quality variations.
Achieve simultaneous stirring and degassing of liquids and powders even without vacuum function! A high-performance stirring and degassing machine with a compact desktop design.
- Mixer/agitator
Introduction to the benefits of introducing a mixing and de-aeration machine to prevent insufficient mixing of materials and clumping!
- Other processing machines
- Mixer/agitator
Adopted in various fields and applications such as industry and research and development. Materials introducing principles of stirring and degassing are currently being distributed.
- Mixer/agitator
Simultaneous processing of up to 40L, a must-see for customers with mass production needs!
- Mixer/agitator
A description of common trouble cases and explanations related to mixing and degassing. A must-see for customers in need!
- Deaeration device
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For explosion-proof stirring and defoaming machines, trust Kyoritsu Seiki!
- Mixer/agitator
Customers considering automation of manufacturing processes should not miss this! *Exhibiting at BATTERY JAPAN (Kansai) 2024!
- Mixer/agitator
Small-scale production, suitable for research and development! High de-airing capability with vacuum de-airing function.
- Mixer/agitator
For mass production! A high-precision stirring and defoaming machine that allows for stirring and defoaming up to 5,000ml of material at once.
- Mixer/agitator
Control the rotation and revolution speeds independently! High-precision stirring and degassing machine.
- Mixer/agitator
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[With Self-Inspection Checklist] A must-see! Explaining the key points to prevent equipment troubles with stirring and degassing machines in advance.
- Mixer/agitator
Large capacity, equipped with vacuum degassing function. The ratio of self-rotation to revolution speed can be freely set, making it applicable to a wide range of materials.
- Mixer/agitator
A large-capacity defoaming machine suitable for a wide range of materials from low viscosity to high viscosity.
- Mixer/agitator
The rotation speed of the self-rotation can be adjusted flexibly. It also minimizes material loss and damage.
- Mixer/agitator
[Glossary and Basic Materials of Stirring and Defoaming Machines] We have compiled fundamental terms related to stirring and defoaming machines in this one volume!
- Mixer/agitator
A stirring and defoaming machine that is valuable in various fields and applications such as healthcare, industry, and research and development!
- Mixer/agitator
The bubbles are compressed and broken apart by strong centrifugal force, resulting in defoaming!
- Other processing machines
- Mixer/agitator
A type with vacuum degassing function for medium-scale production has arrived!
- Mixer/agitator
No need to adjust the wastewater ratio! Automatic pulse flushing for 10 seconds after every 2 minutes of equipment operation.
- Pure water production equipment
Stable supply of cleaning and process water quality! Pure water RO system that contributes to yield improvement with automatic flushing.
- Pure water production equipment
High-purity water supplied in large quantities with a compact body! The high-efficiency RO unit equipped with automatic pulse cleaning significantly reduces the effort required for installation and op...
- Pure water production equipment
Always refresh the RO membrane! Automatically supplies high-purity water with pulse flow, requiring no adjustments and low maintenance for the RO pure water system.
- Pure water production equipment
Uniform quality of process water! RO pure water system for surface treatment that suppresses processing liquid contamination with automatic pulse cleaning.
- Pure water production equipment
The high-temperature gas burner series now includes a hydrogen combustion specification! It can be used in various industrial furnaces due to its tile top.
- Heating device
- Industrial Furnace
- Drying Equipment
Developed a carbon-neutral aluminum melting holding furnace [Published in the Iron and Steel News, October 23, 2023, Page 5]
"Carbon Neutral Aluminum Melting Holding Furnace Developed by Shoei Manufacturing Co., Ltd." Published in "Steel News, October 23, 2023, Page 5." Shoei Manufacturing Co., Ltd. (Headquarters: Hirano Ward, Osaka City, Representative: Shota Habaki), a specialized manufacturer of industrial gas burners and industrial furnaces, has developed an aluminum melting holding furnace that enables decarbonization in aluminum casting sites, such as those for automotive parts. A new hydrogen gas burner that emits no CO2 during combustion has been adopted for the melting line. By placing high-efficiency immersion heaters in the holding line for the molten aluminum melted by hydrogen combustion, a thermal source configuration that enables carbon neutrality through "hydrogen × green electricity" has been achieved. A test furnace based on actual equipment has been newly established at the Thermal Technology Research Institute. We are accepting visits to observe hydrogen combustion and tests for actual aluminum melting. Amid uncertainties regarding future energy supply, we will contribute to the decarbonization of the manufacturing industry by applying the combustion technology and hybridization technology for thermal sources that we have cultivated so far.
A Bunsen-type mixer that allows for power adjustment simply by changing the fuel gas pressure! It enables the construction of a gas burner combustion line at a low cost without the need for a combusti...
- Heating device
- Drying Equipment
- Other ovens and baking machines
We are pleased to announce that hot air heating using a hydrogen burner has become possible in the hot air zone of the paint drying furnace (QCO)!
- Industrial Furnace
- Hot air generator
- Drying Equipment