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发表于 2010-7-10 17:18
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本帖最后由 jack_lai 于 2010-7-10 18:52 编辑 2 P1 F/ P+ C" ~; r0 A2 H G
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足球看完了来看看题目。 _+ c* y8 L7 q& h* F% _1 J- {* G
. R3 |7 t+ S* O. JThe length of the heat trace is 22 meters. The size of the heat trace is 5/16 inch (WATTS/ m SUPPLIIED is 43.7) d, I. ?$ i, h' m0 w7 l
The drawing is shown as figure 1. (All data is from the memory. They are not the same as the real drawing, but a little bit different)
" s7 ]. y0 ~6 ?/ FWe can see it is not easy to install the 22 meters heat trace according as figure 1* p6 K; K! R2 |; w R' X8 P
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As a normal question we just discuss:
1 K9 b4 ?- s; o) iHow do you run these 9.4 meters heat trace (size 5/16 inch) on the 3 inches 1.4 meters pipe ?
0 n! [4 m& d- q6 RI call this is JACK LAI Spiral Method 螺旋法
/ X. e' j8 d: T9 I& U4 k% NThe outside circumference of the 3 inch pipe is more than 10 inches. See figure 2.
% Y" v3 f! `- K' m' A6 Z3 N% ]5 JThere are 10 positions to plac the heat trace. They are 0.1,2,3,,,,,9. The distance between each position--heat trace is about one inch. 1 e" b' R3 f% m+ M! J5 s6 I3 Y5 b
Because the pipe is horizontal, position 0 can not be placed. See figure 2
- Z9 [" r; H d0 J0 DBecause the maximum bend radius of the heat trace is 2 inches( see note 1), position 5 can not be placed. See figure 2. Then the route of the heat trace can be like figure 33 }; r2 z" `9 t% E- b( [
The total heat trace that can be installed here is about
. R- _ l( m: C) L3 O+ J) y) d5 K1.4 * 6 + 1 * 2 = 8.6 + 2 =10.8 Meters
. }& ^/ B# S9 d; T. |2 eSo, the 9.4 meters heat trace can be installed along the 3 inched 1.4 meters pipe without a problem.
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Note :$ B1 ?$ x% x: n% k4 J
1. The minimum bend radius:
% P6 M! J/ k* qBecause the heat trace size here is 5/16, 6 times the outside diameter of the heat trace is& c }( s- n' r6 U9 c
5/16 *6 = 30/16 almost = 2 inches& r) b8 y# Y* h f L; r" j
So the maximum bend radius is 2 inches.( M g% P: f, v3 i3 R7 \: C. \
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As regular 3 d7 }0 o# r ^1 ]- ^" S7 r- W2 ^
For 3 inch pip: If heat trace size is 5/16 inch, and no RTD, the box position is close to the end of pipe. 1 meter long pipe
* F: f% G: L/ n' @: E6 s# [if the pipe is horizontal, The length of heat trace can be installed is about* B$ S4 r1 W# i) Z7 o
1 * 9 = 9 meters
( |# q8 O4 y0 U/ g( T+ yIf the pipe is vertical, The length of heat trace can be installed is about
$ E3 P5 }: N; |8 N1 * 10 = 10 meters.
% T7 D* I2 d9 B5 SFor 2 inch pipe: If heat trace size is 5/16 inch, and no RTD, the box position is close to the end of pipe. 1 meter long pipe" M* Z0 G9 t) h1 h
if the pipe is horizontal , The length of heat trace can be installed is about( v" [+ ?$ t- g; c# U
1 * 4 = 4 meters
+ Z6 u' u* @6 i- n& N8 j9 c' \/ mIf the pipe is vertical, The length of heat trace can be installed is about
3 f- R$ V& l# T% b. a1 * 5 = 5 meters. |
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