Emerson's Smart Wireless solution monitors remote reaction tank at Nu-West Industries

nu-west_reactiontank_hires

Emerson's Smart Wireless technology enables reliable measurements from a remote reaction tank at Nu-West Industries.

High resolution image








MEDIA CONTACT:

Grace Capwell
Emerson Automation Solutions
+1 (512) 834-7214
Grace.Capwell@emerson.com


Wireless Rosemount pressure and temperature transmitters send measurements via a reliable self-organizing network that was easier to install and less costly than wired systems.

AUSTIN, TEXAS (January 13, 2009) — Emerson Process Management has established a successful wireless network to monitor pressures and temperatures at a remote location in the Nu-West Industries phosphate-based fertilizer plant in Soda Springs, Idaho.  The self-organizing Smart Wireless system provides accurate minute-by-minute readings from 16 measurement points on a reaction tank located about 250 feet from the central control room.

Emerson's Smart Wireless technology was selected by Nu-West, a subsidiary of Agrium US, because it proved to be the easiest to install, most secure, and most reliable solution to the problem of retrieving essential operating information at an extended distance. The remote tank is 40 feet high and has four different beds of gases used to react with certain process chemicals. Even though this is not classified as a hazardous area, the tank layout and distance involved made running wires to the tank and mounting instruments both difficult and expensive.

"Hard wiring this installation would have been very challenging due to the location of the vessel," according to Brian Wood, DCS Specialist at the Nu-West plant.  "Given the low-risk and simplicity of the application, this seemed an ideal place to try Emerson's wireless package. The self-organizing architecture was the clincher since less than perfect line-of-sight to each device is not a concern with this system. We already have plans to add more devices to the network."

Each wireless device in a self-organizing network can act as a router for other nearby devices, passing messages along until they reach their destination. If there is an obstruction, transmissions are simply re-routed along the mesh network until a clear path to the Smart Wireless Gateway is found.  As conditions change or new obstacles are encountered in a plant, such as temporary scaffolding, new equipment, or a parked construction trailer, these wireless networks simply reorganize and find a way.

All of this happens automatically, without any involvement by the user, providing redundant communication paths and better reliability than direct, line-of-sight communications between individual devices and their gateway. This self-organizing technology optimizes data reliability while minimizing power consumption. It also reduces the effort and infrastructure necessary to set up a successful wireless network.

Transmissions from the remote tank at Nu-West are received by a Smart Wireless Gateway and channeled via the PlantWeb® control architecture to the DeltaV® automation system where the AMS® Suite: Intelligent Device Manager software recognizes readings that are out of the norm, enabling operators to take action to control the reactions in the tank. 

Additional resources:
• Join the Emerson Exchange 365 Community
• Connect with Emerson via Twitter Facebook LinkedIn Google+ YouTube


About Emerson
Emerson (NYSE: EMR), headquartered in St. Louis, Missouri (USA), is a global technology and engineering company providing innovative solutions for customers in industrial, commercial, and residential markets. Our Emerson Automation Solutions business helps process, hybrid, and discrete manufacturers maximize production, protect personnel and the environment while optimizing their energy and operating costs. Our Emerson Commercial and Residential Solutions business helps ensure human comfort and health, protect food quality and safety, advance energy efficiency, and create sustainable infrastructure. For more information visit Emerson.com.

Please enable JavaScript to use this website.