FoamPro Navigation
Based on the multi-stage axial-flow waterjets pioneered by CWF Hamilton & Co Ltd., the Flo Pro Fresh Water Series 195 marine waterjet propulsion systems are the result of more than 30 years racing experience used to refine and develop an already proven propulsion concept to deliver outstanding levels of durability and performance. A required flow rate. The operating pressure of the system is a function of the flow through the system and the arrangement of the system in terms of the pipe length, fittings, pipe size, the change in liquid elevation, pressure on the liquid surface, etc. To achieve a required flow through a.
The simple-to-install HC flow meter, now with additional range options to accommodate larger pipe sizes, allows you to better monitor flow rates in systems with Hydrawise-enabled controllers. Sketch 53 111. When connected to the Hydrawise platform, the HC flow meter provides a convenient option to detect, monitor, and report critical flow zone data and total system flows.
FoamPro Products
Proportioners
FoamPro offers the ultimate proportioning system for your new or retrofit apparatus. Our flow-based, microprocessor-controlled technology allows concentrate to be delivered on demand.
FoamPro offers the ultimate proportioning system for your new or retrofit apparatus. Our flow-based, microprocessor-controlled technology allows concentrate to be delivered on demand.
By injecting into the discharge side, proportioning performance is not affected by external factors such as nozzle, length of hose lay, nozzle elevation or incoming pressure to the water pump. Full fire pump discharge performance is delivered to the outlet because the flowmeter doesn’t restrict water flow.
No other system operates as easily and accurately as FoamPro. At the push of a button or flip of a switch, the system automatically reads water flow and injects concentrate: from 0.1% to 10.0%. Unlike other proportioning technologies, FoamPro’s patented pump control assures unmatched accuracy across the full performance range, saving concentrate and dollars.
Refill Systems
The Power-Fill is an electronically-controlled, pre-plumbed, self-priming, concentrate refill system that will save you time and increase the safety of your firefighters.
The Power-Fill is an electronically-controlled, pre-plumbed, self-priming, concentrate refill system that will save you time and increase the safety of your firefighters.
With the simple push of a button or switch, they quickly reload on-board foam cells, without messy spillage. Most importantly, Power-Fill safely eliminates awkward and strenuous lifting of concentrate containers and allows easier transfer from totes.
These systems will fill even the largest tanks quickly and efficiently, at up to 18 gallons per minute, depending on viscosity. The non-corrosive pump, with high-drafting capabilities, is compatible with all concentrates and viscosities currently in use.
Available with Spatial Analyst license.
The Hydrology tools are used to model the flow of water across a surface.
Flow Pro Water Filters
Information about the shape of the earth's surface is useful for many fields, such as regional planning, agriculture, and forestry. These fields require an understanding of how water flows across an area and how changes in that area may affect that flow.
When modeling the flow of water, you may want to know where the water came from and where it is going. The following topics explain how to use the hydrologic analysis functions to help model the movement of water across a surface, the concepts and key terms regarding drainage systems and surface processes, how the tools can be used to extract hydrologic information from a digital elevation model (DEM), and sample hydrologic analysis applications.
The Hydrology tools can be applied individually or used in sequence to create a stream network or delineate watersheds.
Liquid Flow Pro 175
Tool | Description |
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Creates a raster delineating all drainage basins. | |
Fills sinks in a surface raster to remove small imperfections in the data. | |
Creates a raster of accumulated flow into each cell. A weight factor can optionally be applied. | |
Creates a raster of flow direction from each cell to its downslope neighbor, or neighbors, using D8, Multiple Flow Direction (MFD) or D-Infinity (DINF) methods. Cookie 6 0 11 pounds. | |
Computes, for each cell, the horizontal or vertical component of downslope distance, following the flow path(s), to cell(s) on a stream into which they flow. In case of multiple flow paths, minimum, weighted mean, or maximum flow distance can be computed. | |
Calculates the upstream or downstream distance, or weighted distance, along the flow path for each cell. | |
Creates a raster identifying all sinks or areas of internal drainage. | |
Snaps pour points to the cell of highest flow accumulation within a specified distance. | |
Assigns unique values to sections of a raster linear network between intersections. | |
Assigns a numeric order to segments of a raster representing branches of a linear network. | |
Converts a raster representing a linear network to features representing the linear network. | |
Determines the contributing area above a set of cells in a raster. |