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Showing posts from February, 2011

Components of the global water cycle

Components of the global water cycle Feb 21, 2011 to  Mapping  |  http://flowingdata.com/2011/02/21/components-of-the-global-water-cycle/ "NASA briefly  explains the water cycle : Water regulates climate, predominately storing heat during the day and releasing it at night. Water in the ocean and atmosphere carry heat from the tropics to the poles. The process by which water moves around the earth, from the ocean, to the atmosphere, to the land and back to the ocean is called the water cycle. The three animations above show hourly evaporation, water vapor, and precipitation, based on "data from the GEOS-5 atmospheric model on the cubed-sphere, run at 14-km global resolution for 25-days." I'm not even going to pretend like I know what I'm talking about, but it is fun to watch the simulated global water movements. Remember, these are based on actual data. They are not closeups of lava lamps."

How to Calculate the Freeboard of a Node in InfoSWMM/H2OMAP SWMM

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Note:    How to Calculate the Freeboard of a Node in InfoSWMM/H2OMAP SWMM from the Model Results The freeboard for a node in InfoSWMM/H2OMAP SWMM can be calculated with a 4 step process: 1.    Copy the Node Rim Elevations from the DB Tables for Junctions to Excel, 2.    Run the model and then copy the Maximum HGL from the Junction Summary output table to Excel, 3.    Calculate the Freeboard in Excel as the Rim Elevation minus the Maximum HGL in Excel, 4.    Create a new column called Freeboard in the Junction Information DB Table and paste the Freeboard from Excel. You will be able to perform Map Displays or Map Queries now using the new Freeboard information column. Figure 1.  4  Step Process to Calculate Freeboard