ITWジャパン Official site

Realizing Precision Control in Energy Innovation Hydrogen, fuel cells, CCUS, biofuels, CNT manufacturing. There are technologies on-site that monitor precise flows to support the energy of the future. Brooks Instrument's flow meters support the energy transition.

A world where miniaturization and high performance are progressing daily. Mobile phones now have features that were unimaginable just a few years ago. This high performance has been made possible thanks to thin film technology, which is utilized in a wide range of applications as listed below. 【Applications of Thin Film Technology】 - Microelectronics - Anti-reflective coatings for glass - Antibacterial metal coatings for medical devices - Flexible solar cells Thin film technology is defined as "the process of creating, coating, and processing thin film materials on a substrate surface." 【PVD and CVD Technologies】 - What is PVD? - What is CVD? - What is Thermal Filament CVD? - What is Plasma CVD? - CVD Process - Range of CVD Applications - Battery Market - Thin Film Technology Used in the Battery Market Please take a moment to read it. https://mono.ipros.com/news/detail/129945/

How can digital mass flow controllers and Ethernet-based network protocols improve your production processes? <Solving process challenges with abundant data from measuring instruments> - Evolution of digital communication - Types of digital communication protocols - Benefits of "digitalization" - How digital protocols enhance the added value of equipment - Digital applications: Flow integration in gas usage monitoring - Digital applications: Flow integration measurement in bioreactors - Considerations when selecting digital communication protocols - Expanding the portfolio of digital devices

The research example of catalysts discussed here is the Haber-Bosch process, which produces ammonia for fertilizers on an industrial scale. The Haber-Bosch process involves reacting nitrogen and hydrogen using a metal catalyst under high temperature and pressure to produce ammonia. Research on catalysts is constantly advancing, and various catalysts have been discovered today. Initially, osmium was used as the catalyst in the Haber-Bosch process, but now iron ore is used as the catalyst. Catalyst research is conducted in pilot plants. Pilot plants provide valuable early-stage scientific data regarding reactions, material properties, and process yields, thereby reducing the technical and commercial risks associated with large-scale process plants. In this research, experiments are conducted while monitoring all parameters, including pressure, temperature, flow rate, and reaction time.

A world where miniaturization and high performance are advancing daily. Mobile phones now have features that were unimaginable just a few years ago. The realization of such high performance is thanks to thin film technology, which is utilized in a wide range of applications as follows: 【Applications of Thin Film Technology】 - Microelectronics - Anti-reflective coatings for glass - Antibacterial metal coatings for medical devices - Flexible solar cells Thin film technology is defined as "the process of creating, coating, and processing thin film materials on a substrate surface." We are currently publishing basic knowledge materials on glass coatings for the glass industry! ⚫ Glass Coatings ⚫ What is Low-E Glass? ⚫ Laminating and Materials of Low-E Coatings ⚫ Application Requirements ⚫ What is Low-E Coating Technology? ⚫ Glass Coating Market Please take a moment to read it. https://mono.ipros.com/news/detail/129167/