Elliptical diameters

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Team I ran into a question that threw me and cost me too much time to decide.Here goes.The question states:
What size PVC sleeve (24" nipple) for several NM cables is required for (3) 14/2 (2) 12/2 (1) 10/2 with the elliptical diameter of each of them,then also listed a 10/3 and a 8/3 with the regular diameter.
I found that Chap 9 Note 9 states for cables that have elliptical cross sections,the cross sectional area calculation shall be based on using the major diameter of the ellipse as a circle diameter.

My question is which table or tables do I use before going to Table 4 PVC 60% fill?
 

don_resqcapt19

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...
My question is which table or tables do I use before going to Table 4 PVC 60% fill?
There is no table to use. You have to calculate the areas of the cables and add them up and see if the total is less than the available area of the raceway.
Also look at post #2....
 

don_resqcapt19

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There is no table to use. You have to calculate the areas of the cables and add them up and see if the total is less than the available area of the raceway.
Also look at post #2....[/QUOTE

So calculate from the overall area in Table 8
No...you have to calculate the area of the cables from the diameter information that is supplied by the cable manufacturer.
 

Hv&Lv

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I may be missing something here....
For a 24" nipple, wouldn't bundling rules come into play with 18 CCC?
 

kwired

Electron manager
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Team I ran into a question that threw me and cost me too much time to decide.Here goes.The question states:
What size PVC sleeve (24" nipple) for several NM cables is required for (3) 14/2 (2) 12/2 (1) 10/2 with the elliptical diameter of each of them,then also listed a 10/3 and a 8/3 with the regular diameter.
I found that Chap 9 Note 9 states for cables that have elliptical cross sections,the cross sectional area calculation shall be based on using the major diameter of the ellipse as a circle diameter.

My question is which table or tables do I use before going to Table 4 PVC 60% fill?

Did the question also give you the dimensions of the ellipitcal cables? If not it is impossible to correctly answer the question. You kind of indicate they did give dimensions but you did not give us any dimensions so not real sure.
 

Smart $

Esteemed Member
Location
Ohio
...ellipitcal cables? ...
I hope someone, in the future, proposes a change to the term "elliptical". These cables are in no way elliptical. Call 'em flat, call 'em non-round, but please don't call 'em elliptical!!!

ROUNDEDVSELLIPTICAL.gif
 
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fmtjfw

Senior Member
Team I ran into a question that threw me and cost me too much time to decide.Here goes.The question states:
What size PVC sleeve (24" nipple) for several NM cables is required for (3) 14/2 (2) 12/2 (1) 10/2 with the elliptical diameter of each of them,then also listed a 10/3 and a 8/3 with the regular diameter.
I found that Chap 9 Note 9 states for cables that have elliptical cross sections,the cross sectional area calculation shall be based on using the major diameter of the ellipse as a circle diameter.

My question is which table or tables do I use before going to Table 4 PVC 60% fill?

See Chapter 9 (70-711 in 2011 NEC) Notes (2), (4), (5), and (9).

Note (2) says if it is sleeve (not part of conduit system) then table 1 does not apply.

Note (4) says if it is a nipple (part of a complete conduit system (and 24" or less) then you can fill it to 60%.

Note (5) says if it is other than a conductor listed in Chapter 9, Table 5, you use the actual dimension.

Note (9) says if it is elliptical, use the major (largest) dimension as its diameter.

So for each cable, you were supplied its major diameter. Just as a guess let's say 14/2 has a major diameter of 1/2 inch, 12/2 5/8 inch, and 10/2 3/4 inch.

Since diameter = 2*radius.

The calculated area of 14/2 would be PI*R(squared) or 3.14*(1/4*1/4) or 3.14*0.0625 or 0.196

The calculated area of 12/2 would be PI*R(squared) or 3.14*(5/16*5/16) or 3.14*0.0977 or 0.307.

The calculated area of 10/2 would be PI*R(squared) or 3.14*(3/8*3/8) or 3.14*0.141 or 0.442

3 14/2 3*0.196 or 0.588
2 12/2 2*0.307 or 0.614
1 10/2 1*0.442 or 0.442
total is 1.644 sq inches

If it is a sleeve you can fill it to 100% I guess, so according to table 4 PVC 40 the smallest conduit with that or greater diameter under the 100% column is 1-1/2 inch

If it is a nipple you can fill it to 60% so according to table 4 PVC 40 the smallest conduit with that or greater diameter under the 60% coluumn is 2 inch
 

don_resqcapt19

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Ok, I see now... 24" is the magic length...
Not always. There is an excetption to 310.15(B)(2).
Exception: Where two different ampacities apply to adjacent portions of a circuit, the higher ampacity shall be permitted to be used beyond the point of transition, a distance equal to 3.0m (10 ft) or 10 percent of the circuit length figured at the higher ampacity, whichever is less.
 
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