The Agar Foam Detector can detect the presence of foam far earlier than a ΔP cell, pressure gauge or other technologies. The probe can initiate or increase the anti-foam chemical injection rate causing the foam to dissipate.
The Agar Foam Detector can detect the presence of foam far earlier than a ΔP cell, pressure gauge or other technologies. The probe can initiate or increase the anti-foam chemical injection rate causing the foam to
dissipate. As a result, the anti-foam chemical feed rate is optimized, reducing the operator’s overall chemical costs.
Alkylation is an important refining process in which light olefins (e.g. propylene, butylene) are converted into higher value gasoline blending components with improved octane and vapor pressure properties. Agar
technology can be applied in the alkylation process in two fundamental categories.
If a fire, smoke or gas leak is detected in an industrial facility, prescriptive actions must be taken by the fire and gas safety system, as well as the process control system, to mitigate and control the hazard. Using a certified, documented fire and gas safety system that can communicate appropriate messages to the process control system during an event is vital to the safety of a facility and its occupants.
AAR MRO Services supports airline operators with everything from maintenance inspections and equipment upgrades to airframe painting and heavy maintenance for all major aircraft in service. The largest MRO operator of its type in the Americas, AAR recently opened the company’s largest facility, located at the Chicago Rockford International Airport.
Wastewater treatment plants (WWTPs) and collection facilities need to be protected against the dangers of combustible and toxic substances. This is the role of a fire and gas protection system as defined for WWTPs by NFPA® 820 and other standards organizations.
Power Plants, Steel Mills and other heavy industrial plants and Municipal Water Treatment Plants often have an open water basin which they need to measure for oil concentration. The water can be in a sump or open
channel with in the plant or in an open body of water like a River, Lake or the Oceans.
Start with high-risk processes, add combustible or toxic liquids and gases, and then place these hazards in far-flung locations and inhospitable environments. This is the real-world formula for industries’ most challenging fire and gas safety system applications.
Worldwide growth in the use of natural gas has increased the need for transporting it – and the most economic method of transporting natural gas is in its liquefied form, which is 600 times denser than its gaseous form.
The several proprietary processes used to make LNG involve refrigerating the gas and then expanding it to turn the gas into a cryogenic liquid.
Power plants and paper mills use service water loops and mill water loops respectively for the cooling of lubricating, hydraulic, turbine and transformer oil. These cooling systems feature large, recirculating volumes of water which are treated with biocides, dispersants, and corrosion inhibitors.
