Apr 25, 2018 This video is of me doing that in my 2008 Saab 9-3 TurboX (has Saab B284R). The GM LP9/LAU engine can be found in the Cadillac BLS, Cadillac SRX, Opel Insignia, Opel Signum, Opel Vectra, Saab 9-3. General Purpose Liquid Flow Switches NOTE: DO NOT USE LIQUID FLOW SWITCHES ON SYSTEMS WITH FLOW GREATER THAN 10 FEET (3M) PER SECOND. F l ow Switches – Liquid For Model FS4-3F & FS4-3DF NOTE:ON LY LISTED PIPE SIZES MEET UL REQUIREMENTS FOR FIRE SPRINKLER SYSTEMS. Flow Rate gpm (lpm) w/o Paddle Damage O rdering Info r m a t i o n Model. Flow-through cell apparatus may be used. The following are to be prescribed for each preparation to which the dissolution test is applied: — the apparatus to be used, including in those cases where the flow-through cell apparatus is prescribed, which flow-through cell (Figures 2.9.3.-4/5/6) is to be used.
Turbine Flow MetersTurbine Flow Meters, Flow MetersOverview:Industrial Turbine Flowmeters:Oil & Gas Turbine Flowmeters:Specialty Turbine Flowmeters:Liquid Flow 9.3 1FLOWMETERS BY INDUSTRY []FLOWMETERS BY SERVICE []
EXHIBITIONS & CONFERENCES![]()
View Hoffer Flow Controls attendance schedule for events, forums and exhibitions through 2020
READ MORE Salmon CoveFEATURED VIDEORESOURCESHofferflow/ The Collection![]()
View our complete collection of product offerings and other valuable information.
Location []
Ekman spiral
Winds blowing over the ocean are ultimately what create the surface currents. However, not all of the water moved by the surface currents is transported in the same direction. The causes the surface water to move in a direction about 45 degrees offset from the wind direction, with the deflection to the right of the wind in the Northern Hemisphere and to the left in the Southern Hemisphere. The frictional movement of the topmost layer of water sets in motion the layer directly underneath it, which then sets in motion the next layer under that, and so on as the water gets deeper. Some energy is lost in each transition, so each successive layer of water will not move as far as the layer above it; in other words, there is decreasing energy with increasing depth. But at the same time, the Coriolis Effect deflects each layer relative to the layer above it (again, to the right in the Northern Hemisphere and to the left in the Southern Hemisphere). The movement of the successive layers therefore creates a spiraling pattern of water motion called the , which usually penetrates to about 100 m deep before the motion ceases. If the magnitudes and directions of the movements of each layer are added together, the result is that the net movement of the upper 100 m of the water column is 90o relative to the original wind direction (90o to the right of the wind in the Northern Hemisphere, and 90o to the left in the Southern Hemisphere). This net water movement is called (Figure 9.3.1).
Liquid Flow 9.3 2
Geostrophic flow
Liquid Flow Clothing
rotation is dependent on the wind and the Coriolis Effect impacting the surface currents (see section 9.1). But the rotation is also affected by movement below the surface due to . In the Northern Hemisphere, as the gyre rotates clockwise the net movement of the Ekman transport is 90o to the right of the wind; in other words, towards the center of the gyre. The Ekman transport piles up water in the center of the gyre, making the water level higher in the gyre center than on the edges of the gyres. This pile of water then has a tendency to flow back “downhill” due to gravity. As the water flows “downhill” away from the gyre center, it is deflected to the right by the Coriolis force. This results in a clockwise current around the central “hill” called , which moves in the same direction as the rotating gyre. Water is thus pushed into the “hill” by Ekman transport, and away from the “hill” by gravity, with both flows modified by the Coriolis Effect to create the rotation. As with the gyres, geostrophic flow is clockwise in the Northern Hemisphere, and counterclockwise in the Southern Hemisphere.
Liquid Flow 9.3 Download
Most major surface currents are a combination of wind-driven and geostrophic currents. Since winds can be variable, geostrophic flow ensure that the gyre currents keep moving at a fairly constant rate even when the wind dies down. The larger the area, and the higher the slope, the longer the geostrophic flow will continue to move and power the gyre after the wind subsides.
Comments are closed.
|
Details
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |