Abstract: A system that provides for simultaneous thermal regulation of both components of a two-component system, while maintaining their separation prior to introduction into a conventional static mixer element, in order to assure that the mixed fluid, when dispensed, is at the optimal temperature and viscosity. The thermal capacity can be adjusted by altering the configuration to increase or decrease the thermal transfer area as required for each specific application.
Abstract: The present invention relates to in-line viscometers with no moving parts for monitoring the viscosity of fluids. One embodiment of the invention is a viscometer including a first tube, a second tube, a first flow metering device coupled with the first tube, a second flow metering device coupled with the second tube. The second tube is larger in diameter than the first tube. Another embodiment is directed to a method for maintaining a desired viscosity during a process.
Abstract: A flexible conduit assembly that includes a central fluid transfer conduit and at least two thermal fluid transfer conduits in overlying relationship to the central fluid transfer conduit at an orientation other than linear relative to the center axis of the central fluid transfer conduit. The flexible conduit assembly may also include an outer jacket concentrically disposed relative to the central fluid transfer conduit with the fluid transfer conduit interposed between the central fluid conveying conduit and the outer jacket.
Abstract: A flexible conduit assembly that includes a central fluid transfer conduit and at least two thermal fluid transfer conduits in overlying relationship to the central fluid transfer conduit at an orientation other than linear relative to the center axis of the central fluid transfer conduit. The flexible conduit assembly may also include an outer jacket concentrically disposed relative to the central fluid transfer conduit with the fluid transfer conduit interposed between the central fluid conveying conduit and the outer jacket.