In this chart, identify your water volume along the top row, and follow the column until you encounter the travel speeds you’re interested in. Once you’ve encountered your travel speed, move along the row to the left to identify the nozzle size and spray pressure.
Fire Nozzle Flow Calculator
The 2.5″ In-Line Pitotless Nozzle measures water flow-rate from a hose valve, pressure reducing valve, hydrant nozzle, between two lengths of 2.5” hose, or just about any 2.5” outlet. Hose or piping can be attached downstream of the unit without affecting the accuracy of the readings.
Figure 2.6 Discharge Nozzle Configurations 36 Figure 3.5a 90 Corner Nozzle Maximum Coverage Area 42 Table 2.6 - Discharge Nozzle Sizes 36 Table 3.1.4 - Altitude Correction Chart 39 Table 3.6 - Pipe Size vs. Flow Rate 43 Table 4.1.1a Sv Cylinder 51 53
With a 2 ½ inch nozzle, the average water delivery rates are between 200 and 325 gpm. If a small hose is easier to use for a firefighter, however, then the job would just be extended, handicapping the crew rather than helping them.
Referring to the ''Nozzle Air and Pressure Requirements'' chart, you can see that 250 cfm is sufficient for a 7/16" nozzle operating at 100 psi. A larger nozzle, or a worn 7/16" nozzle, will require more air flow
In this chart, identify your water volume along the top row, and follow the column until you encounter the travel speeds you’re interested in. Once you’ve encountered your travel speed, move along the row to the left to identify the nozzle size and spray pressure.
This will be the Nozzle Side you need For example: If your Nozzle PSI is 2,000 and your GPM Is 3.2, your Nozzle Size would be 4.5 Please Note: If you do not already have a 1/4" Quick Disconnect Male or Coupler, you will need to order one with a
Pipe thread sizes do not refer to any physical dimension. The outside diameter of each pipe fitting must be measured and compared to the table for size identi-fiion. For example, a 1” MPT pipe thread has an outside diameter of 1.315” NPT Size ThreadOD of
Nozzle spray patterns typically have two basic characteristics: the spray angle and the shape of the pattern. Most agricultural nozzles have a spray angle from 65 to 120 degrees. While narrow spray angles produce a more direct and penetrating spray, flat or wide-angle nozzles can be mounted closer to the target (crop or weed), spaced farther apart on the boom and provide overlapping coverage
Choosing a nozzle with too small of an orifice will limit water flow and possibly create an excessive load on the machine. Use the table below to select the properly sized nozzle for your machine. Determine the nozzle size by matching the operating pressure (PSI) of your machine to the gallons per minute (GPM).
The TFT VIT nozzle is available with several different tip sizes. The VIT nozzle can be ordered with either 1.5” or 2.5” inlet coupling, and with or without a pistol grip. HVIT Without Pistol Grip SMOOTHBORE OUTLET DIAMETER 7/8” 15/16” 1.0” 1-1/8” 1-1/4” 1 - 3
Nozzles: Your Basic Questions Answered By Diane M. Calabrese / Published June 2016 W ater towers dot the rooftops of New York and stand as focal points (and name bearers) in less-populated towns. But unless they rupture, topple, or become depleted, they
When choosing a nozzle size, its size is dependent on a variety of factors: the blast machine capacity, the piping, the hoses, and—most importantly—air volume. If you don’t choose the right nozzle size, your production will suffer. Check out our nozzle size
Nozzle / Tip Size Selection Chart Determine the proper nozzle size by the pressure washer’s GPM (Gallons Per Minute) at a specific PSI . If the nozzle size is too small, your equipment can be damaged .If the nozzle size is to large, your cleaning ability will be
HANDLINE Flow & Nozzle Reaction Chart (1) Nuer on top in each box indies flow (LPM), and nuer on bottom indies nozzle reaction (KG). (2) Flows may vary with brand or condition of hose. (3) Flows are approximate and do not reflect losses in 3.5
HANDLINE Flow & Nozzle Reaction Chart (1) Nuer on top in each box indies flow (LPM), and nuer on bottom indies nozzle reaction (KG). (2) Flows may vary with brand or condition of hose. (3) Flows are approximate and do not reflect losses in 3.5
Nozzles: Your Basic Questions Answered By Diane M. Calabrese / Published June 2016 W ater towers dot the rooftops of New York and stand as focal points (and name bearers) in less-populated towns. But unless they rupture, topple, or become depleted, they
HANDLINE Flow & Nozzle Reaction Chart (1) Nuer on top in each box indies flow (LPM), and nuer on bottom indies nozzle reaction (KG). (2) Flows may vary with brand or condition of hose. (3) Flows are approximate and do not reflect losses in 3.5
Stacked tip fire hose nozzles are "Made in the USA" in Aluminum NH / NST threads. 2.5 inch quad stack tips are machined from 6061-T6 aluminum seamless extrusions from the USA. The finish is a polished hardcoat anodize to MIL-A-8625 Tyle III, class 1.
With a 2 ½ inch nozzle, the average water delivery rates are between 200 and 325 gpm. If a small hose is easier to use for a firefighter, however, then the job would just be extended, handicapping the crew rather than helping them.
Choosing a nozzle with too small of an orifice will limit water flow and possibly create an excessive load on the machine. Use the table below to select the properly sized nozzle for your machine. Determine the nozzle size by matching the operating pressure (PSI) of your machine to the gallons per minute (GPM).
Compressed Air and Abrasive Consumption ©2007 Clemco Industries Corp. • Washington, MO 63090 • Metric Nozzle Chart Compressor Air and Abrasive Consumption Nozzle Orifice Pressure at the Nozzle (bar & kPa) 3.5 350 0.73 68 4.5 1.31 122 7.9 2.16 212 13
Discharge piping should be as short and direct as possible. 2. Discharge piping should be one or two pipe sizes larger than the pump discharge connection. 3. Velocity in discharge piping should not exceed three times the velocity in the suction piping.
Fig. 5: Nozzle flow rate chart with volumes at top makes it user friendly. Try to operate at a spray pressure that’s in the middle of the nozzle’s operating range. For an air-induced nozzle, the range is usually from 30 to 90 psi, so the middle is 60 to 70 psi.
STANDARD AND LOW PRESSURE ATTACK NOZZLE STEM CHART FLOW RATE (REACTION FORCE) NOZZLE 125 GPM 150 GPM 150 GPM 150 GPM 175 GPM 175 GPM 185 GPM 200 GPM 200 GPM 250 GPM 250 GPM 325 GPM 40 92 (29) 134 (43
STANDARD AND LOW PRESSURE ATTACK NOZZLE STEM CHART FLOW RATE (REACTION FORCE) NOZZLE 125 GPM 150 GPM 150 GPM 150 GPM 175 GPM 175 GPM 185 GPM 200 GPM 200 GPM 250 GPM 250 GPM 325 GPM 40 92 (29) 134 (43