Part #: R6-04 R6-04 | 1/4" SAE 100R6 General Purpose Hose. Pressure Rating: 400 PSI alog: $1.81 Online: $1.71. General purpose/hydraulic hose with braided fiber reinforcement. Inner tube: Oil-resistant synthetic rubber. SAE 100R6 General Purpose is recommended for general purpose air, oil and water lines. No skiving required.
As water passes through a hose, friction between the water and the inside surface of the hose causes turbulence, which slows the water. The results in a PSI drop (pressure loss) at the other end of the hose. The higher the gpm passing through a hose, the more turbulance and friction loss will result. Friction loss examples: 100 ft 1" @ 100 gpm = 150 PSI
Medium Pressure Suction and Return Line Hoses - SAE 100R4 - 811S Where To Buy Parker''s Medium Pressure No-Skive Suction and Return Line Hose 811S has been designed with an Isobaric 1.0 MPa for all sizes and a temperature range from -40°C up to +100 °C
Specifiions. SAE J517, type SAE 100 R4. Appliion. hardwall hose used for the suction and delivery of oil in hydraulic systems. Temperature: from -40°C (-40°F) to +100°C (+212°F). Branding: continuous eossed marking “IVG SAE 100 R4 / quarter and year of production”.
Enter the hose diameter, the gallons per minute (GPM), and the length, into the Friction Loss Calculator and then press the submit button. Friction Loss Calculator. Select Diameter From the list. .75 inch 1 inch 1.25 inch 1.5 inch 1.75 inch 2 inch 2.5 inch 3 inch 3.5 inch 4 inch 4.5 inch 5 inch 6 inch. Enter GPM (Gallons Per Minute)
Air Brake Hose SAE J1402 A Compressed Natural Gas and Liquefied Petroleum Gas Marine Fuel and Engine Hose SAE J1402 Al SAE J1402 All SAE 100R5 SAE J1402 All SAE 100R5 SAE J1402 All SAE 100R5 Refrigerant Hose SAE J2064 TYPE C 1/2 SAE Minimum Bend Radius SAE 100R4 “Push-Lok” Multipurpose Hose Multipurpose Multipurpose Fire Resistant Cover
To calculate friction loss in various hose sizes other than 2 ½”, we have developed factors to convert the larger and smaller hose flows to GPM flow that creates the same amount of friction loss as in 2 W'' hose. These factors are based on comparison of friction in hose of other than 2 ½” to that of 2 ½” hose
B. Watch for drop in intake pressure after flowing water to fire ground. C. Calculate percentage drop in Static pressure Static Pressure - Residual Pressure 60 - 54 = 6 = 10% Drop Friction Loss in 5" Hose G.P.M. = 600 = 6 (x6) = 36 = 2.5 psi FL /100 Hose 100 100 15 V. Calculating Pump Discharge Pressure, Attack Lines
Hydraulic Hose SAE 100R4 1 Spiral 20m x 32mm. £437.14. 30%. £306.00. 370054. Hydraulic Hose SAE 100R4 1 Spiral 40m x 32mm. £794.84. 30%. £556.39.
Aug 04, 2016· where FL is friction loss (or head loss) (m or ft), V is velocity (m/s or ft/s), L is hose length in (m or ft), ƒ is the dimensionless friction factor, g is acceleration due to gravity 9.8 m/s 2 (32.2 ft/s 2), and D is the internal diameter (m or ft). At typical fire service water flow rates (i.e., turbulent flow), the dimensionless friction factor, ƒ, is only dependent on the type of hose
This friction loss calculator is used to determine the friction loss on one (or more) 100 foot section of 1.25 inch fire hose. How to use: The left column lists the gallons per minute ( GPM ). The right column is the friction loss ( FL ), measured in PSI (for each 100'' section fire hose). Start by determining the GPM & PSI being pumped (ex: 300 GPM & 150 PSI), then scroll through the …
Example - Water Flow through a Hose and Pressure Loss. 2 gpm (7.6 liter/min) flows through a 1/2" garden hose with length 82 feet (25 m). From the diagram above the pressure loss per 100 feet can be estimated to 5 psi. The pressure drop in the hose can be calculated as (5 psi/100 ft) ((80 ft) / (100 ft)) = 4 psi (0.28 bar)
loss in the fire hose, the friction loss in appliances and any pressure loss or gain due to elevation changes. Net Pump Discharge Pressure (NPDP) Is the end result of hoseline calculations. It is equal to Nozzle Pressure + Friction Loss in the hose + Friction loss in Appliances + Pressure due to Elevation Changes.
These figures may vary depending on manufacturer and age of hose. Formula for Friction Loss: FL = CQ² L FL = Friction Loss in psi Q = Flow rate in hundreds of GPM C = Friction Loss coefficient L = Hose length in hundreds of feet Hose Diameter and Type (Inches) Coefficient Hose Diameter and Type (Inches) Coefficient
Jul 13, 2017· Parker Hose Products Division has a full line of hydraulic hoses designed for one-half SAE bend radius at full SAE pressure, which exceeds the minimum bend radius. For example, the bend radius of Parker’s 797 hydraulic hose is half of SAE’s 100R1, 100R2, 100R4, 100R12 and 100R13 minimum requirement, which reduces hose length requirements by
Hose Friction Loss chart helps calculate pressure drop in PSI per 100 Ft. of hose with typical water flow rates. Dultmeier Sales will be closed Thursday, Noveer 26th and Friday, Noveer 27th in observance of Thanksgiving. Dultmeier Sales will be closed Thursday, Deceer 24th at 12pm and all day Friday, Deceer 25th.
SAE 100R series. Description. 100R1. Steel wire reinforced, rubber covered hydraulic hose (one wire braid) Type A - Thick cover (skive type) Type AT - Thin cover (no-skive type) 100R2. High pressure, steel wire reinforced, rubber covered hydraulic hose (two wire braid)
SAE 100R4 According to: SAE J517 type SAE 100R4 Features: S uction and Delivery Hydraulic Hose; Flame Resistant Cover, MSHA Approved; One Fiber Braid, One Helical Wire; Temperature Range: -40°F to +212°F (-40°C to +100°C)
Friction Loss: The fire streams project team used a standard hose industry method to determine friction loss by using 200’ of 1.75” flowing 50 psi at the tip of a 15/16” smooth bore nozzle. We compared these nuers with the previous pump chart data and confirmed that high/low friction loss nuers in
Table 3.3 Friction Loss of Forestry Hose Friction loss comparison of the forestry hose and hose on the Forest Service qualified products lists for 5100-186 and 5100-187 in units of pounds per square inch per 100 feet.
SAE 100R4 Construction: This hose shall consist of an inner tube of oil resistant synthetic rubber, a reinforcement consisting of a ply or plies of woven or braided textile fibers with a suitable spiral of body steel wire, and an oil and weather resistant synthetic rubber cover. Specifiion: Metric Size SAE Dash Size ID Min ID Max OD Max Max
Mar 07, 2006· The FL=CQ2L method is popular for figuring friction loss. FL= friction loss per hundred foot C= coefficient Q= quanity of water in hundred of gpm L= length of hose in hundred of feet Coefficient of 1 3/4" hose is 15.5, for 2 1/2" its 2. An 1 3/4" hose 200 ft long flowing 180 gpm would work out like this: FL= 15.5 x 1.8 x 1.8 x 2.
FRICTION LOSS IN WATER HOSE Pounds per Square Inch per 100 Foot Length Straight Smooth Bore To convert PSI to Megapascals (MPa) multiply by 0.006895 To convert from PSI to feet of Hydraulic Head multiply by 2.309 To convert from U.S. gallons per minute to cubic feet per minute multiply by 0.1337
Tank Truck 100R4 hose is used in tank truck and in-plant operations to transfer gasoline, oil and other petroleum base products up to 50% aromatic content.It is designed for pressure, gravity flow, or full suction service. Nitrile synthetic rubber RMA Class A (high Oil Resistance. Spiral plied synthetic fabric with wir
FRICTION LOSS @ 120: • For 1-1/2” figure 14.0 EQFT of pipe. • For 2-1/2” figure 20.0 EQFT of pipe. NNI ANGLE and GLOBE VALVES NNI INC., 667 NW 118th Street, Miami, FL 33168 (USA) Tel: (877)NNI-FIRE, (305) 668-3330 Fax: (815) 366-8271 /p>
Calculate flow and pressure loss base on nozzle size, diameter and length of hose. Calculate flow and pressure loss base on nozzle size, diameter and length of hose. Skip to content. Slide Rule-- Fire Stream / Friction Loss (NFES 00897) NIFC. SKU: 850-55901. Regular price $11.99 Sale.
1.75 Inch Hose - Friction Loss Table. This chart is designed (using the friction loss formula) to find quick and accurate answers for 1 3/4" fire hose friciton loss.To find the friction loss for a 100 foot section of fire hose, find the column with the desired GPM and to its right you''ll see the corrosponding friction loss.
Jul 18, 2014· Theoretical Friction Loss in Fire Hose July 18, 2014 The calculation of friction loss in fire hose is a common task for fire fighters responsible for operating fire apparatus pumps.
To calculate friction loss in hose other than 2 ½", we have developed factors to convert the larger and smaller hose flows to gpm flow that creates the same amount of friction loss as in 2 ½" hose. These factors are based on comparison of friction in hose other than 2 ½" to that of 2 ½" hose CONVERSION FACTORS TO 2 ½” HOSE
ß Friction loss in appliances should be ignored when estimating friction loss in a hose lay. ß Friction loss in a hose lay is complex. This Tech Tip provides a simpliﬁed method, based on sound engineering principles, which will give a good estimate of friction loss in a hose lay. 5100 0651 1309—SDTDC Deceer 2006 Fire Management