PNEUTON™ Controls For Offshore Application from Orbinox UK Our PNEUTON™ engineering team has recently completed the 3D model for our next contract…… This 10#300 ball valve has been automated with… read more →
InterApp Butterfly Valve From Orbinox UK If you’re looking for high integrity fluoropolymer-lined process butterfly valves for demanding pipeline isolation or flow control… read more →
Waste Water Treatment Valves From Orbinox UK.. It’s always nice to see our robust ORBINOX ‘CW’ series high pressure uni-directional knife gate valve technology going through the workshop. Available in… read more →
Solvent extraction knife gate valves from Orbinox UK Today our workshop technicians have been working on a batch of ORBINOX 750mm² ‘BC’ square ported knife gate valves. The body &… read more →
Wafer butterfly valve from Orbinox UK for Abrasive Processes Did you know InterApp can supply our DESPONIA series resilient seated butterfly valve technology with PEKK coated discs, in sizes DN25… read more →
Dense phase pneumatic conveying is the ideal method of transferring abrasive, friable, or mixed-batch materials. The system design transports the material along a pipe in a plug form at relatively… read more →
Butterfly Valve For Chemical Process From Orbinox UK! Did you know InterApp can supply our DESPONIA series resilient seated butterfly valve technology with HALAR (E-CTFE) coated discs, in sizes DN25… read more →
We had previously supplied a large quantity of EL-O-MATIC E-series pneumatic actuators against a challenging application that required the complete assembly to meet a demanding vibration and shock test specification.… read more →
Butterfly Valves for Biogas Applications from Orbinox UK Biogas typically refers to a mixture of different gases produced by the breakdown of organic matter in the absence of oxygen. Biogas… read more →
A drilling mud fluid, is an oil or water-based mix of minerals (barite, calcium carbonate), salts and polymers formulated to protect the drill and the shaft during oil or gas… read more →