depends on how you cut it and the size of the pipe, but with a machine blade, it shouldn't take more than couple minutes
For a given pipe size, schedule 160 would have the smallest ID (and thicker wall). Wall thickness and pressure rating goes up with increasing schedule number, causing the ID to go down with increasing schedule number.
Schedule 160 is thicker than 80
Thicker pipe wall is required to contain higher fluid pressures. For the same fluid pressure, a thicker pipe wall is required for a larger diameter pipe than that required for a pipe of smaller diameter. A schedule of pipe sizes and wall thicknesses has been established by ASTM standards governing manufacturing of pipe. A previous description of pipe wall thicknesses as "Standard", "Extra Strong" and "Double Extra Strong" has been supplanted by a schedule of 10, 20, 30, 40 60, 80, 100, 120 and 160. Schedule 40 pipe generally compares with the previous use of "Standard". For metal pipe, Schedule 80 pipe has a thicker wall and can withstand greater pressures than a Sch 40 pipe. A point of confusion is that for PVC piping, Schedule 80 pipe has a thinner wall than Sch 40 pipe.
--------------- In piping engineering practice, according to the service, fluid, design pressure and design temperature thing are (Piping material, pressure rating of the flanges, pipe thickness, type of joint, etc) are classified and tabulated. This is called pipe class.
about 5 seconds. 280*7(7 gals per cu foot)=1960 gals/min. 1960/60(sec. per min.)=32.6 gals/sec. 160(tank size)/32.6=4.9 sec. this is all theoretical. the supply line to feed such a pump would have to be huge!
For a given pipe size, schedule 160 would have the smallest ID (and thicker wall). Wall thickness and pressure rating goes up with increasing schedule number, causing the ID to go down with increasing schedule number.
Pipe schedule tell you something about the wall thickness of a pipe. Higher schedule means thicker wall. The actual thickness must be read from a pipe specification sheet, as it differs from material to material. Typical pipe sch. are Sch 20, 40, 80, 160, XS, XXS.
Pipe schedule tell you something about the wall thickness of a pipe. Higher schedule means thicker wall. The actual thickness must be read from a pipe specification sheet, as it differs from material to material. Typical pipe sch. are Sch 20, 40, 80, 160, XS, XXS.
Schedule 160 is thicker than 80
Thicker pipe wall is required to contain higher fluid pressures. For the same fluid pressure, a thicker pipe wall is required for a larger diameter pipe than that required for a pipe of smaller diameter. A schedule of pipe sizes and wall thicknesses has been established by ASTM standards governing manufacturing of pipe. A previous description of pipe wall thicknesses as "Standard", "Extra Strong" and "Double Extra Strong" has been supplanted by a schedule of 10, 20, 30, 40 60, 80, 100, 120 and 160. Schedule 40 pipe generally compares with the previous use of "Standard". For metal pipe, Schedule 80 pipe has a thicker wall and can withstand greater pressures than a Sch 40 pipe. A point of confusion is that for PVC piping, Schedule 80 pipe has a thinner wall than Sch 40 pipe.
Completely filled, (pi x radius squared x length in inches)/231 cu in per gallon = gallons = 13.06122449, if the inside diameter of the pipe is 2 inches. =========== Of course that assumes that the inside diameter is exactly 2 inches. For real pipes, the actual inside diameter of a pipe depends on the "schedule" of the pipe. For a "nominal" pipe diameter of 2 inches, the outside diameter will be 2.375 inches and the wall thickness could vary from .065 inches (schedule 5) to .343 inches (schedule 160) meaning that the actual inside diameter could vary from 2.245 inches to 1.689 inches.
schedule is thickness of the inside diameter of the pipe,schelude 40 is usually a standard thickness for most applications which is normally 1/4" wall,as the schedule number increases or decreases so does the wall thickness,the outside diameter remains the same,standard piping schedules are 10,40,80,120,160 ========================================= ***This question came up at work the other day and in searching for an answer I found that a lot of people have the same question... I finally found an explanation on a website (I have included the paragraph and link below). I can not confirm its accuracy; however, it makes more sense than anythign else out there that I've read. Schedule is NOT directly a measure of thickness, it is a measure of the pressure a pipe can withstand without deflection or failure. When you are talking about pipes constructed of the same materials (i.e. PVC) a thicker pipe would be able to withstand higher pressures. As a result, many people have taken "schedule" to be synonymous with thickness. "For the purpose of standardizing pipe dimensions, the American National Standards Institute (ANSI) sponsored by the American Society for Testing Materials (ASTM) and the American Society of Mechanical Engineers (ASME), published ANSI B36.10. To broaden the range of wall thicknesses, schedule numbers from schedule 10 (S.10) thru schedule 160 (S.160) were adopted for steel pipe. These schedule numbers indicate approximate values for 1000 times pressure-stress ratios." From http://www.durovac.com/industrial-vacuum/tubing-fittings/stuff-about-pipe.htm
Xtra strong i.e. 160
XXh in piping is a determination of the wall thickness of the pipe. XXh stands for double extra heavy (or double extra strong) under an old standard measuring system. It has the thickest pipe wall of any other. The actual thickness is dependent on the nominal pipe diameter. Present determination of wall thicknesses of pipes is called schedules. Schedule 10 pipe is the thinnest while schedule 160 is the thickest. Heavy pipe is slightly thicker than today's sch. 40 pipe, extra heavy slightly thicker than sch. 80 pipe, and double extra heavy is slightly thicker than today's sch. 160 pipe. XXh pipe is no longer in use commercially and has been replaced with schedule 160 pipe, XXh Brass or Bronze pipe is forged or molded from bronze, rather than Iron or steel. Some wall thicknesses of double extra strong pipes are: 1/2 inch nom. dia. = 0.294 inch thick 3/4 inch nom. dia. = 0.308 inch thick 1 inch nom. dia. = 0. 358 inch thick 1 1/4 inch nom. dia. = 0.382 inch thick 1 1/2 inch nom. dia. = 0.400 inch thick 2 inch nom. dia. = 0.436 inch thick
160 Minutes
Time = Distance/Speed = 160/80 = 2 hours
80 hours.