SCADA/PLC & RTU
Distributed Control System (DCS)
Safety Instrumented System (SIS)
Data Acquisition & Control Equipment
Field Wireless Products
You can measure and monitor integral flow (total and excess flow). You can also calculate the flow integral and excess usage with computation functions, and generate reports with the Report function. With the Excel template function, you can create templates in a desired report format for creating reports automatically.
The control of the world's water resource is arguably one of the most important issues. Water demand from industry and domestic users is set to rise throughout the industrialized world. Yokogawa has been applying minimized maintenance measurement systems.
Level transmitter configuration can be very time consuming. DPharp transmitters with advanced software functionality eliminate this time consuming task. With maintenance shops getting smaller, finding equipment that allows us to do more with less becomes a priority.
One of the most common applications for differential pressure transmitters is flow measurement. DPharp differential pressure transmitters have some unique signal conditioning features to eliminate instability at low flow rates.
What is screen differential control? This is a control application commonly found at utility plants located on rivers, lakes and other large bodies of water and at industrial facilities where a large amount of cooling water is used. Screen differential control and monitoring is needed to prevent damage to rotating screens caused by excessive pressure being applied by debris collecting on the screens.
The DXAdvanced Paperless Recorder (hereinafter, the DX) lets you write arbitrary messages on the trend display screen that are useful for writing comments or memos. Moreover, with a combination of the DX touch screen model (DX1000T/2000T) and the custom display function, you can write messages, start/stop recording, and perform a variety of other tasks at the touch of a button.
Ultrapure Water (UPW), Water for Injection (WFI), High-purity Water and Deionized (DI) are all terms describing basically the same property. They refer to water which has been purified to the highest standards by removing all contaminants such as organic and inorganic compounds; dissolved and particulate matter; volatile and non-volatile, reactive and inert; hydrophilic and hydrophobic; and dissolved gases. The purified water has very low conductivity which means it is high in resistance because all the conductive components have been removed. Combined with susceptibility to contamination and temperature effects, low-conductive solutions make accurate pH measurement very difficult to achieve. Achieving accurate and reliable readings using a traditional pH analyzer is challenging. However, by understanding what causes the difficulties in pH measurements and having the proper equipment, stable and accurate pure water pH measurement can be accomplished.
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