Abstract: A slim profile rotary control valve capable of independently modulating fluids into a single heat exchanger from two different and distinct systems that utilize the same type of heat transfer fluid. The valve is capable of monitoring both the supply and return fluid temperatures as well as the mass flow to enable the valve controller to optimize system's energy efficiency. It eliminates the use of multiple valves currently used in a conventional changeover system and automated control of valve positioning works much superior to existing valves. The housing and inner cylinder have tapered profiles to enable rotary sealing between the inlet and outlet ports. The housing has flow characterization profiles machined into the outlet ports thus eliminating the need for characterization disks. The rotary valve has a geometry that allows for a no flow dead zone when no heat exchange is so demanded.
Abstract: A system for improving the power of vehicle wheels on a support, e.g. a winter slippery surface, has nozzles near the wheels supplied with a sticky or tacky liquid from a container under the control of the driver. The container is connected with a doser and with a source of compressed air, e.g. compressor, which is used for both application of the liquid to the wheels and cleaning the nozzles. The system includes a dosing reservoir and a three-way valve, the container being connected with a first branch of the valve, the dosing reservoir being connected with a second branch of the valve, nozzles being connected with the third branch of the valve. A first conduit extends from the compressor to the reservoir for application of the liquid and a second conduit extends from the compressor to the nozzles for cleaning the same. Alternatively, dosing may be carried out by the aid of time controlled dosing directly from the container and time controlled supply of compressed air to the nozzles.