Instant high-quality powder production from metal salt solutions and more!!
The spray pyrolysis method involves spraying a metal salt solution into a high-temperature furnace, where it is instantaneously subjected to thermal decomposition, reaction, synthesis, or calcination to obtain a powder of metal oxide. For more details, please contact us or download and view the catalog.
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basic information
Features ○ Uniform molded products can be obtained in the micron molecular range during the synthesis of other component systems. ○ Extremely small amounts of components can be uniformly injected and dispersed as raw materials. ○ Compared to powder synthesis methods, there is less mechanical contamination from foreign substances. ○ High surface activity and easy to sinter. ○ The core tube is made of special ceramics, with indirect heating by electric heaters. ○ Operation at a core temperature of approximately 900°C is possible (with automatic temperature rise and adjustment). ○ High-temperature spraying of solutions and slurries is possible with a special two-fluid nozzle. ○ Compact equipment.
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Delivery Time
※It may vary depending on the specifications. For more details, please contact us.
Applications/Examples of results
【Application】 Ceramics/Others 【Industry】 Electronics-related industry/Feed industry/Automotive-related/Ceramics and fine ceramics/Iron and steel and machinery industry/Others
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Company information
Okawara Chemical Engineering Co., Ltd. provides technology for spray drying, spray cooling, fluidized granulation spray dryers, and exhaust gas treatment on both large and small scales. Various industries have diverse processes, and it has become essential to produce powder products from various liquid raw materials in response to customer demands. As a leading company in this field, Okawara Chemical Engineering actively assists customers in product development, from raw liquid processing to packaging, through engineering and equipment proposals on a daily basis. We will continue to make proactive efforts to maintain and expand our know-how in particle production.