A draft inducer blower assembly includes a blower having a fan, a dilution air intake passage, an exhaust gas intake passage, and a discharge passage. The blower is configured to operatively connect to a heater system in a manner to facilitate flow of combustion air into a combustion chamber and to draw dilution air into the blower and to mix the dilution air with the exhaust gases and to facilitate flow of the mixed air and exhaust gases through the vent. The dilution air intake passage is positionable in at least a low flow configuration and a high flow configuration. The dilution air intake passage is more restrictive of intake of dilution air in the low flow configuration than in the high flow configuration.

A flow regulating valve and a compressor with the flow regulating valve are disclosed. The flow regulating valve includes: a valve seat in which a passage is formed to allow fluid to enter; a guide member protruded outwards from the valve seat; a piston which is disposed on the outside of the valve seat, forms a fluid inlet with the valve seat, and is capable of being reciprocated along the guide member; and a biasing member biasing the piston in a direction away from the valve seat. A force exerted by the incoming fluid on the piston is opposite in direction to a biasing force exerted by the biasing member on the piston. The piston is able to be moved to different positions under the action of different forces to form fluid inlets of different widths with the valve seat, thereby controlling the mass flow rate of the incoming fluid (especially liquid). With the technical solutions of the present invention, the flow rate of the fluid entering the compressor can be effectively adjusted with a simple structure and low cost.

A apparatus with 3 compressors converting gas pressure: Split-system heat-air conditioning comprising of: The apparatus for converting first gas having a medium low pressure gas being drawn by the compressor volute fan blade therefore the said gas via upstream to the 1st compressor the compressor volute hub converting to an increased gas pressure therefore the said gas via downstream to the 2nd compressor the velocity tube converting to an increasing this gas pressure therefore the said gas via downstream to the 3st compressor the compressor supersonic tube then increasing gas pressure gas again therefore the said gas via the inlet connection the pressure gas therefore via the counter flow vortex tube.

The invention provides a solution to amplify the airflow for testing purpose; this solution could be conventionally set up and configured with simple components or popular industrial systems. It is particularly interesting for small facilities/companies with limited resources or demanding only a low investment. This system is consisted of a high pressure air driving duct, an air mixing duct, a pressure reduction valve and a safety valve, ducts' size can be configured or changed to adapt the testing configuration. All components and systems are connected and attached to each other by stainless steel flanges and seals to avoid leakage and corrosion.

A technique is provided that can further reduce power at the time of unload operation control in a gas compressor that generates a compressed gas at a set pressure by constant-speed control. The gas compressor includes a compressor main unit, a drive source, an intake throttle valve, a gas release valve, rotation speed converting means, a pressure detecting device that detects a discharge pressure, and a controller that, the relationship between an upper-limit pressure H and a lower-limit pressure L being H>L, carries out opening the intake throttle valve and closing the gas release valve and operating the drive source at a full-load rotation speed until the discharge pressure reaches the upper-limit pressure H. The controller carries out at least one of closing the intake throttle valve and opening the gas release valve to reduce the discharge pressure to within a predetermined range when the discharge pressure reaches the upper-limit pressure H. The controller carries out switching to load operation when the discharge pressure drops to the lower-limit pressure L. In the gas compressor, the controller outputs a command of a lower rotation speed than the full-load rotation speed to the rotation speed converting means when the discharge pressure rises and reaches the upper-limit pressure H. The controller outputs a command of the full-load rotation speed to the rotation speed converting means when the discharge pressure drops and reaches the lower-limit pressure L.

The present invention relates to a flow-modifying device for a compressor of a charging apparatus. The flow-modifying device comprises a cylindrical housing portion, which defines an inner lateral surface and in the axial direction comprises a downstream end region and an upstream end region. The flow-modifying device furthermore comprises a plurality of pockets, which are arranged on the inner lateral surface, spaced-apart from one another in the peripheral direction. Each pocket is defined here by a longitudinal projection line and a depth projection line. In an orientation plane, which is formed by the longitudinal projection line and the depth projection line, there is arranged a downstream angle of entry of the pocket relative to the inner lateral surface and an upstream angle of entry of the pocket relative to the inner lateral surface. The downstream angle of entry defines a downstream opening region of the pocket and the upstream angle of entry defines an upstream opening region of the pocket. The pocket is formed here in such a way that: <90<.

Turbomachines such as air dynamometers are disclosed that include a radial outflow compressor and gas collector. In some examples, the gas collector is designed as a separate component that is coupled to the machine, such as coupled to a frame. In some examples, the collector and frame are intentionally spaced and coupled at discrete points to minimize the transfer of mechanical and thermal energy therebetween. Aspects of the present disclosure also include turbomachines that include at least one impeller bypass flow path for the direct transfer of air between ambient and a location in the collector downstream of the impeller blades. In some examples, such flowpath(s) may allow for the inflow of external ambient air into the collector.

A branching air supply device for a refrigerator, comprising: a housing provided with at least one air inlet and a plurality of air outlets; an adjusting piece configured to completely shield, partially shield or completely expose each air outlet in a controlled manner, so as to regulate respective air discharging areas of the plurality of air outlets; and an air-feeding device configured to enable air flow to flow into the housing from the at least one air inlet and to flow out of the housing via one or more air outlets of the plurality of the air outlets.

For air distribution or extraction, fan speed is controlled using modeling to account for venturi air valves. A minimum pressure for each venturi air valve is incorporated into the model. The pressure losses for various duct airpaths to terminal units is calculated based, in part, on the minimum pressure of any venturi valve. The fan set point or operation is established based on the highest needed pressure in the various airpaths connected with the fan.

A blower includes a centrifugal fan and a partition wall disposed in a suction space in the centrifugal fan. The partition wall has a base portion extending along a fan central axis to partition the suction space into a first space for a first fluid and a second space for a second fluid. The partition wall has an enlarged portion connected to an end of the base portion on another side of the fan central axis. The enlarged portion covers a part of a fan boss. A clearance passage is defined between the enlarged portion and the fan boss and has a first space side opening and a second space side opening. The enlarged portion is biased in the suction space to the second space such that a pressure at the second space side opening is less than a pressure at the first space side opening.