Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
1.2 Application Part 3
cn en U C O 20> a C) = o N a N C 2 al U w ,c 3 7.�. N Ccri E O t C C Cps an ' c = Ecol It N o a H O. C c o • v E 2.1- Design and Manufacturing c. The fitter allows for high-pressure applications. y 'p0 o N a 4- 0 fn 15 o o c c o E.. a.U a g m w .c a? ca = p N Nco as C E z, N 0 7 a) w LL'0 o ro U CO p' a) c L C a. U R) d N..C. o. _ .Q X ▪ p1. U d. �C LJ. .p -°, E �. 43 o Ma ?+ = N td; N— 0 2 U o Y. E a • .,_a • c — _ • N 9 U L _U ga C h En V) ,75. ' C a) Ca m CO 0 ac as .€ E N 0 m ?. a) Of a) u. E0.E r. e Three -laver Design of a 4.'1._ 0) a a _ pca N N O N �a < to. '.. = N - c r, f2::3 o a. '6 o3 w, o dN v= o uci E r o = c a) m o 0 0 CIL> N a p iii h fC O 0= fCa a Come N+ N •C%. O o 2,...t O N Q c'0 C c'ctt ;J _3 Z 0 3= . ;o .>C _ LL a .t-_ _ .. CS `dN th .h- m E O c a= E: y 67 3 *' U C G 9 .RC N G Cn C ay grt,p ai _ E.,-, N. N epi c C 'p 1' N E G cts N .tCCU C O -. n3EN w o. t E 2. A v c U) Ct � c rn a` 7- d. .c a=m '$ df E c; .rs c 41 .N 0.y, c .c E �a A T,E= 4 rn N x acid ai i :0 40 C �0) etc'c p p w a)a N +ya o L N` 4 4-1 a� y• 8 ._ p.0 o �- 145 m c N 0 G n. a) 5 � CO 4= • u 2 0) a) t7 U CCD 1'= alE E n1 ca E al G. O1 c V, a ccl c0 a+.1 Cr) N ▪ 'a N O. �O} 9 c = 10}O,- >,.?... 15 O L W 00y U C c• a O G v._ 0 T •c •n c a t= L. ry 3 0. N 0 E ry c .3. m »-. N L. • c L p .0 0 01 m N. U a. LL 'p°� ,cO ° d c d v - E L a �.F (4 -ii ca c w gca ,C) a c L o o td C 'C >a�i = e ', ca C E 2 = y 8 a V= c= O a M 4 O'- E O1 N o O ry 0a 9 n 0 r-. O. c of `�' 2 N E tti g co n' • LL O k. N f.. _ ca _ = CD �j 't - s! 0 24 a�'O a wa1 b=aO O to a0claie'ryO d a1 'ai c a- a1 Ql a) I m =.'a8 aF- o.y Baa act L N Y O ,.. d +. y a O c. •- > `•= Q •p O C tt5 `1 o- a cCd vi N e a1 ca ry E� O, O ai .o N o aN 3 c c- : o c E '0 a o Y -o m a1 " N O i O O O d1 in E ,y O C O y U aCh O a as n +c•g S aC� 3 0 y c -q> ."Q01 " CO.. O c o cn o '�` �-•, y OS 1Q i O 'O Oi IJJ 22 - Quality Contro _a _,(n P I- �.. a. .ry c E.11) -6.E,... .ci O EL' $ LN" c. c'd •C °4..• C, •dL y ECCI c Q. V O. ' O E a1' 0 V - c w c `m E c y m a.� 740- = •E .Ct L o +4.'g3 vi asci E '2 ,a o v c E cn c 0' m °Ja E m 4 '+-cs' cc ed.8 C ed c cra o C al a a= R='a Q = i`;.5 cOi' ...0 2n = .4.-- , c •- •.fi_1 Nyy ay,' o ta 7, 7. +-. N O fO a.. C i O ' 'd oaRyo76 ad1° iai �f.V L i"•'Vl @ flE N �,� O 'c 0) -Pc --6 0 .'4°O E N _ ,c - E d _,oar 4_s= - O ++ " cry ) N >, a) 1' v0.. J'i 'O .g) ,„ a3 N :a +• O =. O •O } cn a yh Tri 2 N V = 6 '›. 0' N C a cs n 0y 2 m •o - E ', cin o en oa.c m 'J 'E ° a1 U oviEoco coi 1 .y + v c, � ti ry ro 4 �' E a) O j. as aa .1-. U O .Q C c `n m 't" "m +O. Y a a. at. 0 3 " It' ¢ LL y O O a H N d Lm a O Y _ . b N N Ciii _ :t 0 co V y tz a en L QI •co y 'O N i {{`���U O a) LCL.' C O ry d ':n cu N p aJ y' L Q co O' er to � .? c~..1 a) E N L O c N H p, tn ++s U U t,) CO L U O 4 Ct3C C M O 00,1C112 ccs ,cFd C a1 c a O •3 C' +" R1 L r7, v r <' ..c_, c .k a n. c+1 .-.� i�• _ �, N a7. .S2 •g-•.: �.. . Op L� 'O ay 'O O J m N a E } O' aa VI 0CC) E_ •� d ca c+mt = 4 c S E c' a' ra E L +o Y- m L 0 j c� •� 'CO a, C cj COU,t• i• o fn a1 a C1 A 4 c0.1'O E — c4 ui c E a1 tajf C. td �.- J c :� y .crs a o n N LL 'b O 41 y N Q1 Q1 N RR'- +L+ ' N N U? V LL i i Z o= E .'. R co t= a) L- B id O C 'p ry F. 6 v- a1 O .J U +Q1. L, rn m C o ca O O f („a N 07 d + N Nry 0 o N a1 0 m a1 = n 'v re= a1 Cr) c a• •a L > N +. .x cdn = Ti. N • a1 0 t• �. �. 0›" CO c. ag_. N r 4 .00 O Q N U o c O...N a ti c ▪ • O O =6" N *' i7. y ti fcV' ,11- n' a m aO CO m x. ` cCL `� E as E C.) N c y n raw" ..61 � Y=� M Li. 2 qm LL .B. c?' Uoii w I- w ccd v .$ cL.. 'a r Ca ;� ,Lo„ c E o c. aNi T' a1 a� ccd c 9 N W 0 ..Q I- a. U O •O cV ) 0 ._, .-n 2.1.1 Raw Materials 24 - Performance 2.41 Pressure Rating X III _ o . = N cn C W >1„, v1- -v ... N c C3 i 0. (wi) C L v.. C w N J 1cn L as $ U C Q ' L_Q •- ct =CL) al Q LL C 0 w 3 .I$ p CQ) $ i+ O.r0 = N w g cc C N a C C t= Q) N 1-- b C C .- N Z laL CO q U = E -- n C 0) L d N= .=▪ ' C a.i X d "6 - = o = O, = w I.1. 41. w C 'O LT = LO .h y G N d 2 a S Tic) .0 c x. E E w r cam) +° �i a" LL. C. V E h a y U gli c' W y..� VL- 2 a E 0) ct a N 0 0 0-0 L0 1- N C E. c rn O CO pp c acai ca L = w01 C N CD to C C CD C m O 5 O LL — -n a'o ML • Q u) Y ro LL E°�z 2.3 - Applications 03 CO ::) D ▪ N YC c L C ti vi w LT CL a. CL c C = c — g: N L N •O C) N o. C r LL `• C9-' N. . N co w' ao N Q) 0 0 c 0 maa LJ- 0 L 0) _05 O ID N' O C C • alTC m C p C E C d) N O? U C C N N U) (d • <T O • Vl C w o, • N g V) N c cam ` c o E. A E • V• a) N 0 @ �` aC Ca 'O w CD C'C Tfl.. = = •C;O C k LL W O O. N:; -- w o -0 N o •L C'- M a+ •t. w C ULL 0, a C 6) »" r C a O a a C 'o)� O w o N CO) U a' CO E p2 N a x CO a _ $ v a m w m e a) 3 .a: .f_13 ,� .y .-, w E m `rn — o a. ccd ... <a o w aB:. _ U V Q. M a *r; V- N O 3 U .Si E N C C .ACV w d C C U ,:a- N V o O O. _w CC ++ ftl N w d la d.. co o. ouff O:. N. 2) =O y^l .O L �+ ✓ F' C) .' � - 6) U C5 L Y O *CS' E m (0 N a 3y w O 3 qq o w E O. _. y L f1J 0) c‘l CP.0 co ▪ N i 'C . % Q L 0. O' C N M i 7_ :P••i Jd O C7 u. 0. v 'O CV LL ... 0Q/) a 3 CN LL 0. n o (11 a 2.4.6 Bend Radius 2.4.2 Temperature Rating 0 C F2 NC>a O co -10 =2 _ N v 'O an C C ca a LL CCI o 0 U n o N co c C O 0) as a E K1 O C E ch .a *er o Cu N F. N .0 00 C0) E C N F- o. C) Q ort and Handlin 2.4.3 Chemical Compatibility Minimum -bend L -fl Z p. N N m Ci CI Minimum -bend radius TRANSPORT dt H4NDIJNQ (m) o 0) 0 M .- P Minimum -bend radius e a 0 Y N 7 (V 0, r� Nt...,:v.^ tl 00 hM bei c, ca. E '?F�+c v —c o N N•).N O O 'y ci; CL a , an 0 0' PO C ° "U CI 0 y et cn ,Lau c o .. a a' LU ; a d o C Cu3 •E a +- c c iv as 03 :. ''. 0) 05 .�C _O 03 E .0 U -- 'N 7 .DC y 4-4 N E Oy) c..0 N C (0 ' 8 C 'O 0 0 0 0. a0).0 0 0 ›, 45 E O. G_ o 0 �Vy'.0 CO .0.me to 03 a o) _ Q U _ _ 0) _ 0,"..',E O co O C E O Q 0 G= co W Q N a O C.i 0 G'C.3 Ca 4- c 2...g m c u. Cu x E E 5 co 0' O 7O c to E a E c d c C ,C E n m a 0 c�i a0 0+S o a co'o5Ei) N .�w 0) )C •C O 0f ,GC 0 A oV 0- N Cl). LL C ,'C.+ tC � N �' CC Cr) 2.4.4 Durability 0) te r' ,„ C 9) i O N b ,.; a v •c� o n N O O m 00) C 0 0is= so a`)' 0) 453 w E Ea') C 0 N a) —o O. ti G C :47, C4, N N d p C rn" C o i° N 0 W 2 `O m o C C_ ui -o OI N N cC0O -Bet 0) 0) o E _ Cr a.e cam)m U E c o L c E c = •• O 093 H 0 y� y-.+ ' J co N CO Y 3, C L 6 a 3. O O E 'O - C) F o a Cu •en Cu E c) Ca 0) E N 0) =0 XC E (d LL '0 CC/) a O a � -o a a3 E a co °' - .O L. 0) :r 0 0) o a4 'O CD 'a.. a ' 0 mm 0. GG td LL a so U U a 2.4.5 Ultra -Violet Prot 8 High Density Polyethylene 2.4 .9 Collapse Resistance T 0 O C i 'O .0 a> '8al C.. _ 1D Q1 = C •00 .r ▪ ▪ a1 0 70 4. •- O. y4.N O `t TO cda1 C = . O, ea: a1 E °,, �.y m o. /y n 'E ea o a a1 ro E cd rn —: a)0,..000 y '�' V1 ` n E i �. C ) x V 4-' U '.. � O . '00 a N O a 0 0 .i y N N d -' S. 0 L Q S C O. y 7 p C jflhtD.O +� O N f. fltflUfl d L ((/n� G fO U �+ N co 1_4. -00 y c ro y D C -a C. y •+L_. =- 0 0. cp d y 0 4U" c ca`> t o m e ii -• tc a1 •sin 3 v u "" - 0 a" o QdM.CL� coeta1 •- 8� am� w?nc ami 4•60 C -.cc o o c 8.2 E v a1- ca a 4 0. �.a1 c 0 n �,>, c N N •� `o `o'er Q1 g d,) Lo d b.:u 0 Y L N '�-+ y `4+ 'y O C0.1 3 O a) C c y ,_ 0 0 'p0 y +i 'O t2y O U 0 a^ 3 :2' icr. .▪ O i to O. r, en ((7 d p C y CN Ca 0 O a O 0. Q CD a c> yo ro o g1 , w c `o .5 v cp a aim r E (yd L .a: C •O X N (tl o F.' N O O ,c CT) U O to '. a, N 8 O 'O d :q '.p-. C .c vole y- a U m a N= '� 3 a e, c v1 -res E U E E •a y m U.D. 8 a. 0LL. a) 0 3 v- 6 'O U G. 8 O GV tL .' 0 0 i 0 - 0 m O 0. O a3 L. 3 - JOINING SYSTEM N O C V N C� ID a> as cr)_= 0 o m . d N a O t- = 'E = a, d to ,c y ` ti �a o m ' ' ' c . ,- o .. = oa0o,Ya> = EGa,gEoasa)~_a) 0rnAN 0 ea = Le, O JN I CL L. 7td O . 0. Li. faa, La 2 O F'-. w LL f• 4 .y L a> O. .� R R =c� O o�., CL) E co • E> aaV 8. w° co 9 c= c. 5. -„Lc X 0s c:> o E- •'E a`, V >y ra> al t3 d=oc i aorn rn = -a it. amEd N (17 taLLc, EEo0 tea = a a'--tn.o = o m w o a 7:1a Y_ ▪ o a 5 = E = �, ..a us o U fa 0 'a N o � d O, y Q, N$ ,C c o d F- E E .L C C E== a 2 yo. .Oo P. 6 N N Z 30 I 133HS - 3HO3M VIDIYOS 0 Ma £ELO-t0 'ON 'WO V 3M A19WJSSV ON1UHH dWI213 43ONV1d Nwlma vu 103113IHOad A'ONI SW3ISAS 3&:43U 10 NOSSI1113d MAMMA 3H1 OOHIIM 310NM V SY ao laud N Nouan0oad3a ANY 'ON) SW31SAS 3dId1311 30 A1213JOad 3 OS 3H1 A ONIMYaO AHL NI O3MYINO0 NOLVWa03413H1 1Y141101010A, ONY AIY131a101$4 S00'Oi 1W11330 30V-41 333H1 [0'0 i 11/WIDAO 3DV1 oMt 03a I i:annoNY LE/I Z1YNOlOYad :330NYa3101 S3HONI NI3SY SNOISNBWIO 31Y0 NOIdn3S30 Ma va:•1•A%.r(111ty, lixAn\q1 ldld� IIIS(1 ItNO_) (I R1.I II NIDN'I B W N Z B A S a did x a -i a a SOenY-9I 31 11991 IVO 3WVN 111331V3 3A331S ONIUIJ ONI?1-O 3ONVld b £ 12&JNVW ONIUd a3ONVld NOlidIN3S90 A10 W311 L JO .L 133HS 0 'n3a — U1013M C1:31Y0S ECLO- L O 'ON'OMO V A19W3SSV ONIllld dW1210 C73�JNV1d walaaxdo fldi 1 911SC I C )gil. 11 i B IN 0 1 0 A 9 a a I a x ens '03USINONd SI 'DM SW3ISAS 3d1dX312 20 NOISSWN3d N3WNM 3H11110411M 31011M V SV f01WVd NI NCX100008d3d ANV 'SNI SW3ISAS 3414X314 10 AIN3JONd 3 OS 3141 SI OMMVN0 SH1 M 03NIY1NO3 NOIIYWSOnNI3H1 1VIIN30NNOJ ON A3V1/11dOdd SO -011V-91 31v0 9E'E w92 92'2 097 02.3 3f 030931* NMVaa SOO'o F 1VM030 30V1d 33441 10'0.$ 1YW030 33rd OM1 0301 F'*V100NV LE/I S1VN011ov03 I$30NV213101 5-3140N1 NI 3YV SNOIS143W10 alvo 3WYN eNM1dMJS30 /3a 1VIa31VYl '3dV1 NINAIOd CNV 3dVl OSN3a 40 NOIIVOIlddV 013(14 NOI1Vl1VISN:ONI na„I1SV91IVA939V3?IONIIIIMS21313WVIO3aiS1110 153'0 _ 09'1 1.91.01 649 43'21 63.9 i ISNV 069 4Z'0 __ 93.1 I_ 001)1, 61.9 93'21. 63.9 ISNV 00£ _93•0 ti6.0 L 00'6 64_9 93•EL I 63.9 ; ISNV 091. 930 93'1 i 93.9 00 '4 04 1 1. I SL'b 1 1SNV009-,£ Z•0 31.1 439 b6,0 �05 L 00L,jT09 9 99•0_, �_zX 09 9 91.0 (_d09 3 WIO 1a via _04Zw..�_SZ'0 91• S3'0 SL'1 93.0 9/1 1— SZ.O •a'I NM 13, Wla S 0 0 o Ci 19, WIC WIG 00x9 091.1 39'E 93.9- 931) 3.89zs .( 39.£ 93'9 A WIG 9.WICI ONIll13 ISNH00£ 1£_ Sl b i ISNV 091 ,E ISNd 009 16 SOT i_,.ISNV 00£ - 40£-_ I ISNV 091-2 V, WIC 13ZIS 1VNIWON 3dIdX31d ;9, WIG AO 1133HS - IIHOOm GI:3IYOS 0 M331 PELO-IO ON '0MO V Al9W3SSV ONIll1A (IMMO ONIIEID Mir >'suraw,v.ar11J<nl 1.tAn 1n ldld 11130.IW0:) (11)1IINION1 0 W 0 1 0 A 0 a d l d x a '1 d '0311911103,1 'ONI. SW3lSAS 3e1dX313 30 NOSSI'N33d M311I3M 3H1100H1IM 310HM V SY 30 1/1Y,1 NI N0110000N433 ANY '0111 SW3ISAS 3dIJX313 20 A133dO0d 3 OS 3H1 SI ONIMY30 S111 M 03NIY1NO0 N011YM30,33 3111 11,1013013NOO 0 NY A3Y1313d011 S00'0; 1VW103030V1d 333H1 13"0; 1Y1N03030YW OM1 030 I S INV100NV CCM ;lYN000Y33 1S3ONY33101 3310141 NI 33V SNOISN3W10 31Y0 3WVN NOIIANJS30 So -90v -9I 31 03)03H0 NMV30 VSMf 31V0 NUN 1V4IIVW 3A331S ONI.11Id z E ONREO b z 132KJNVW ONIllId ONI1d11OO C NOIld2JOS34 AIC W311 AO 6133NS - 3HO0 e:131v05 0 '1321 fELO-[0 OH'OMO V A1U N SSV ONlllld dW1213 ONI1df10O NG11diaJSN '00011NObd SI 'OM S1N3I5AS 3dId%31d iO NOISSIW83d N31118M 3H1 1fOH11M 310111 V SY NO IBVd HI NOI00000&138 ANY 'ON,SW31SA5111d 011 i0 A183dOtld 3 OS 311 SI ONIMV80 51111 M 03NIV WOO NOI1V11803M 311 101.013013N00 ONY ANY1311JO21d 51000 t 'VW111030 3010d 33811 .100 i IVWIO30 2DV1J OM1 020 I T. :21v1n:31.4v ZCH F1VN000VSI :S3ONV03101 S0HONI NI 311V SNOISM3ri10 JwO NOILAN3530 vi L 1 B h B ` a d f d x a i s e 50-OfV•91 31' 03N01HO NMVN0 H9Mi 31VO 3WYH 1VIN31VW '3dV1 NI)AlOd ONV 3dbl OSN3O d0 N011VDIlddV 013RO NOIiV11V1SNI ONI2if10., 11SV311V A9 3SV321ON1 11IM S21313WVIO 301S1f10 OCT I Og'VZ I BZ S ONlllid ,b 09t 00.91. 9V b ONIJ11d £, 09 ZV I v90 £ (ON1J11d Z_ t.:01 NIW W9 WIO •HVI WIQ 13ZIS 1VNIWON 9dIdx31d ON11M • C 3dIdX9ld NAY Z 4OIJ33HS -- INa 04 I S£LO-to CI:31VOS 'ON 'OMCII NI A19W3SSV ONI1113 dV4I 3 NDN O13M NONav530 131,1191.131.8 a d I d XS" O31191HOad SI'ONI SW3ISAS 3d1d%314 3O NOISSIWN34N3W8M 3M110OHUM 310HM YSY 30 UYd NI NOI13 00843S ANY 'ONI SW3ISAS 3dIdk313 30 A133€ON4 3 OS 3141O ONIMYSO OKI N 03NYlNO0.NOIIYWN03M.SHA 1YNN3SNNO3 ONS A1Y131IdOld SO -00Y-91 3f oINOSNO NMVb0 son F MNIO30 33Y1d.333RA 100 F 1YWI03O 30Y1d OMI 0301 F :av1110NV Zell F1VN0110Y213 :SSONYN3101 53HONI NI 3NY SNOISN3YA0 p I151NI 31Y0 NQIJIdDS30 MEI alto 3WNN 1VF131n 3A331S ONlllld ON121-O 13?IONVW ONIUIJ )09N al3M NOIldI IOS34 ),lb W311 JO Z MHS GI3IVOS 0 SBL0-t0 'ON OMO V 3M Al9W3SSV ONIL16 dW120X03N 019M Ds '03Yd114Oad': 51 'am SW3ISAS 3dkIX314 10 NOISSI W N3d N3 W 8M 941100HUM 310HM V SV 8O'JIM M NOODOOONd38 ANV •DNI SW31SAS3d1dX314 10 Al713JONd 3 OT ;HI S1 ONIMVWO 51H1N1 OANIYINOD NOIIYWYOJNI 3E11 IV WI]cHHOO' aNY ArvUMaaab 500'0 F. IVWID30 33yld 338H1 10'0= 1V141ID3033YId0M1 030 I'i:8Y100NY Wit iVNOI10V211 :S3DNY213101 S3HONI NI 38Y SNOIMaW10 IWO 31YV4 NCIIAa3S30 All • I%A : 1 I . I tI.\\1\ laid 311SOd4VOJ <HY19:JI1)N9 131,111143A0 a d 1 a x a '1 S soOfV-91 31Y0 31 3WVN O3MO3H3 NmYS0 09 HOS '8 '0b HOS .881_ 109 'HOS '8 01, HOS 1..0Z1 i 08'HOS 'a 0$' HOS601. SS3NNOII4.111VM 'IIVAV NIDN 1 YIb31VY1 3dV1 NI�JIOd ONV 3dV1 OSN3G JO NOIlVDIlddV 013f1O NOI1V11VISNI ONIdf1G HE 1SV31 IV A9 3SV32JONI IIIM S8313WVIG 301S1f10 09'1' L£'6 05'61. 1 63'9 ONIUUIJ „b 05 E SL L 00 91 j 91 ti ON1113 £ _i 8E Z OS 8 00 14 -1 50 E _ ONLLLid Z fli WIG O WIC! ae, WIG_ i ,V. WIG .ZIS 1VNIWON 0 3dIdX313 ONillld 0 ,D. WIG 9, WIG 4 ; if • /- OR EL L w Xto N 1w1' W co J LL 4 - INSTALLATION 4.1.4 Insertion Freestanding Lin 4.1 - Field Construction a) 0 d ai day. CO = E C U 0) .0 'd al — 0 a. 'N a! t� II O▪ . c .: a c5 8- — •- fa..t6 O i A= v 0 o O = a) N O al U ▪ a ca c cia> 4.1.1 Transportation N A R) y E f a Q. CD d DC b cd m .$,..�-..,_ N N.¢ 'O a.o ° E a> v. N C fd EL., ca res • L L ro 0 U 4-0 ° a1 a) y N CO O a) R1 mco . Oma. N N ECNa ate) td a> 'D E L C G al a.^ as 0 E caii)O E rE C _. .0 a) 0 .� aa>> ' y N p. 'OO 'O c .p:p = C"»a. O L9 A o •C O '•OR D 1.0b) .0 p U• . CIa L0 S r� J t� a) NN 'O U.. a: C c a{ ed 4.1.2 Trenching 3 "0 o oo o c o .0,..,_ C a 4S r 3a,0o.E', a U a r a) a a) fa .o 14;a LL s a> N . C O ,C - Cd' = d a" y h w' _, N 0 i 0) a%a o N :cLa�aE�Cel N 0 2 m 0. 3 �'� c 6`f 0.E O. �" al) V C C OG. C frj. .y N .� N Cl = C. n .— ai Uq `U b a) O Q' C < 0. b• • - C N N 03 2- T. E I JO 1133145 - :MOam SSIII31V3S €290 -PO a3sId 0517 'ON'OMq- V 3lIS NC11Ji3A0 '031181HOad Si' 0M SW31SAS3JJX313 10 NOISSlWI13d N31118M 31111NOHIIM 31OHM V SV YO WWI NI NOI130008d38 ANV'OM 5W31S1S3dX311 30 A183dOUJ 3 OS 3H1 SI ONIMV8O SIHI NI 03NIV1N00 NOIIVWSOJN13111 1VNN30NN03 ONV ABV1318doYd 6ni'.A4ng .N (1 C:p nei� JJ1d F1JIS0.IWOJ O!1:133Ni•3N] a W 0 1 13 A B a d I d x a 1 s soinr-zz - O3Ma3NO OW NMvS0 5000+ 1VWI03O 3JV1J 338H 10'0 3 1M'VI33O 30V18 OMI `030 I ; :NV 110NV L£/I 31VN0113VaJ :S3JNV/13101 53NONI NI 1hV SNOISNJWIO NSIM3 Siva Nouda3no 3tva 3WW IN Al NO DONG2i9dAei bOd 32IV SNOISN1Alla 11V :9lON 1-0 39 00'L6 ZZ'9L ZI'E8 LL'E 00'9 Z6'98 00'L6 62'98 8Z'OL fitiE 00'tr N£ L9tL 00'09 Z8'09 011817 61-'2 p �00'2 .V. WIa 2 3ZIS 3dld a1 WIG 13, WIG 101 WIG 10, NIG 191 WICI j 3. WIG O' ,D WIG N b. WIG Iulmeap slyjo asn vans Jo;insa.t a se pannaut pup! Any -n Ranful zo a uujupi'sso! Rue'o; pa;null fou 3nq AAalpniaul '8ulAte.tp sly; •;o asn ao uodn aaueliaa Run .to3 ,CuAt Buu u, el! aq •auj surnsXs adldxaig !lint saauu suina.ua ou aapu! 1 40 1 133NSI .. :INmM LG1:31VOS n3a 17290-170 ON 'DWI V NRSIN cob NOI1di11Jsaa 3.11,1 1111:0,11,4A0') 098119N I')N B W 9 J. e A 9 a s I a x a -i s 'O3uewON sl 'OM SW31SAS3dI4X311. JO NgSSIW83d N31118M 914110OHIfM 310HM V SY NO L1Vd NI N011O00021d3a ANY 'ONI SW33SASadId%31d 30 Ala3JO114 3 053111 SI ONIMVaO SI141N13NIVINO0 NOI1V 1303NN 3N1 1V10410111103ONY AllVUICJONU: SW 'U ♦ IVWIJAI 30V Id 33dNl 10'0 $ 'VW103030V1d OW 030 1 i ILIWOONV LC/1 31VN0110Y31i IS30NV213101 S3H DM NI 3=1V SNOISIJ3W10 31V0 VON NOIIdISOSIO O'VIf.LL DIN 03 a' MVO HSINH AlNO 30N3e13a3d 2103 3e1V SNOISNJWIQ 1W 68'Z6 00'88 00'9 31-£8 LL'£ 00'9 uV 3L'08 00'SL O01 BZ'OL bb'£ 00"t' 11£ 01.08 00'£9 09'8Z OV817 61;£ 001£ 2 .d. WIG a1 WIG .QI WIG 101 WIG 1a WIG V. WIG 3ZIS 9did v, wia :310N .Jule.eap silo jo asn gans,jo oinsaa a se paaanaul pup Sue jo ,Sinful .10 a:3eulep `ssol Sue '01 paolw!I jou pay'3UIpnlaut `;3uln.eap 514; jo asn ao uodn aauellaa Sue Joj ,See. /CUB r gull aq au1 swaasXs adldzalg ❑1nt saaueaslunaala ou Japr a cu L. co U) c N I o a) 0 a as L C C cd gob off' a) ai 'n o 0 -0 C p) t n 0 rt - 0 V La N C w •o Y! .p '= 0 a a, E 0 0. con Lu E to U) 0 ar �it aW XI N J U. a II oD 0 Lo 0 Q) G C 4 2 a) o m 8 E o c L N O Ca a E0 0 as ja N 0 p L 4- �'.�C•• -. la P:L.''".• w�••. '6) ) .7� a,.O O ya°C..0 ct .Cm ) 7E ava O ._OD7Na) EvEo c y2,N C 00 E. N y 0 0 0. 0 OtdN:w+= CcNE C 07 •E .0-o cam 5. 0 oms0c.:o Caea)N-•a 020a)E�LL•s =cc aca m i ama .4 cg 0 c'.L N t gL O •fL CD p) a'00'Lag Nita) • v.cOaOan SSq • ft .c9 ., nCE-g82,02•cDFCC a, 4. C 0 so so ti NL i o aptIC a as= = c ca E p -0 = 0+ Qj E N = co o d a ati CI. as E a c E 0 N VN a a s 0 T O C L c a cn w...0 O n- = 'rd 04 0 3 U K o ati rn 4 = fi E i) a) 'M •X E. - se c =,_ aS 0 L C L -18 U „la' .o = O = -2 6. d — a a `= ti aci c c 0 k o 0. 0 •a a. E a aE=No. tL a N 0 C CCO a: a) J �. C 0 41 4 > C Vi O .0 = N 0 4) •0 = a c 0 E as co) .c°n. .0 ai = 3 'a °) G�'^• O _C O n y to L La = 0 LO , , •ylC p ,22 0 a o. ai ro a) ai m ..'t_-" .cu C. ILC. N O. S N C L. •L. g' m ce 0 03 CL) E y F ac) 0 • O) O y 6 Q Z 9 .n C. i Q 1:2) C 0 . ` >, •a E eC.) 0 o a� �'� g mo L as = cu o 0 1?) Q CO O.: E -0 Ol w.7 0^ N a) 9v C d D G' -= a) 4 y rn'a' .- ,0 0 a) C, y' aw 0' 0 - N.1 N',:N N y},. )0 m E a) ".rn'S'a' a) pr W ,t ': 1 S3 U E •p a0w—'aaE. to N aoa co a) a) C 0000) C ._ -.-• = C 0.oa ao) a) as Cl o_ai r r0+ 0 E E a6> _ 'n c kg 0 m E 9 a) 'c o E E E o a as g°- a) E e't u- FL- .0. ata cd a) C a = a, a, c 0 L W a. N L w F X J 4.1.10 Tying into Steel - Welding 4.1.9 Buoyancy and Pipe Weights 0 T a) C U a - 'S O 0 i N O ? i tG 0+-' a a O Z. O .p Iv a) N 8 C1 a, C _C °I a m O _ a o r- ' - = 6) 0 ' +[n3 C 'O 0 2i y L: 'N . = N mm C a C c a • ai 6N) of =0 O tp 0 a t C ad Ed O =; fir, _C = _ 6). A wN y E G •5. 0. 0.—E o E Q O E m C 0 Q Q) U N OB L O% LL CO 'C 0 1- U = 4.1.11 Fitting Installation O O r N O CC o a 0 0 a C Q0) C 0 O Q) p O Id C C C +. a t aCL) cp a N al N .. TTTjjj ",0 0 t~!..4Lz y'. a) O E++ cts .o o c. o-. +. 0 U -o Ws :05 O. 0. 27, U ,G Q) m .y. o '-. .ca +n. p .a a) • COI CZ csa • NNh'N Ea)C,N tiO. O a) cti C O...d C U a C•ar F. CX G.R 7. ? .d; T ,.ncQN :74 U��xlXO4'U 'C Q) • 6 ^ L Q�p +.m'DLl.0 N G 6 N p ` ,no 2 •C a E;.0.y . +-• +, a) a w ▪ IT C it: N a _ m N w c m 11d E N• 'p .0 > t. ct 0 0) an) 0: Q1 �E C- +OG + L N 6) ,3 CL , p C G'(71F C N 0 L X L L '•'. 'p N -O be- y • ,n : +o a) LL a• . 0 tp) •v_) }. C E' .a µ' CO a z0 N C N o •p Q) CSi ''a N cci— G N O •cn .p o_ C r� EC=1a �� o: co y to C.:. O a cd ; LL , 0 0, 6) M_ 6 C C N ++ +. Co0) 0 r N. 4- 0 a 01 .N CA L am' C Q ,wC .C. s. }'"'-'0) 0 Ca O. le m p. -0- 6 aa 619 a t..O. 0 P t G 7 Hi Y C cal a) m—C13 0 '.. 0 0.5 6) c _ 3 Li E �_ ,'.. {{C{{S� C O C 0 h) o o C (J 2. N V.0 i p.0 C N. O i' C d O 6) i a) Q) �G +-i W -.0 g V) N N p C m d Q cp O Y Cl) C p • N °- aai v C = of Q W .r_.(%) E 0>94 ro ^ u) wai Y Cti LL, E a. y, 't] y o, `c CO ti LL. V E v o f o 9 a wC :a o cl) CD j Q) C N E V. y'. O N p t6 CT p p, S, w k 2.) C '0 O) 0 t0) N �.. l� a 9 Y a=-. 'N O. •� iT+ N W tp p .p..p Y Q N N C M c L C i CO^ it CO 03 a) o. -- ai o dm._C. m s = oit2 15 ..5 N .� C a caca C �. Ri= 3 o m o E+N• 0 w �r ▪ o m 3, D ..... m a y 'n c 40 al c o, a E a o ro E n °c a3 ro ow Eas3 45 C t-. M 0 o� cE a to co r E ai ere a LL M oa- dE N n a N; M _a E "En 5 nal tV LcI .✓i a LL 8 .'l W a 42.4 Methanol Service a a) o N U co CO cu N L ▪ L Vs E Ct.LU E a) n N , pajp �. 6) E C V is. N O o age°d • Cr "T) ss, Ea "a)i 0)0)--'L a) y • .0a) ,en .0 a). = a a taa C B. a) O) C O N a o,'a'- = E o Q 2 V o. E 8 5 o N N w O) LUd (/) co Cl 'a C.) = n r, N 3 i 'fl th a TA N ,N y E • m d m e a, m L E = Ens 4-V , o y N i Eden cr) u..cC3 E. CU -oo 15 'a E 'a Q • Table 42.1 .F! 13 N N x y N M .O 6 'na E b'Ess. LL 2 oc N i vi 'r 'x .a .c $ usi LL — 'C.-- CO . L-. ' Cn W E - eE W Le N CO. 0 D7 $ R^E ft} 9L N N N r R LL LLki- U 0 a 2 CO ca N yyy E o O y� 7 = a) C 8 n: o n NG E co W y cn C aJ C U E n o: c L co a a 3 cI m = d L �cf c m 3 e U T N C1 az o C O ITP._ CD 7.1A CC C cnY 4 <a N Gil .0 73 2 4.2.3 Static Electricity J CWC 0) C en C 'a O CU U2'•q` E k E L to _ C o O L h1 - CO c N qG aE Q y CO m 0 ct CL 0 C) N N 5.4 — Qualification and Testing ai U m U FE 0 Q x E a) 0 0 0 Ca V tel E a) Ai 's"Ce m o N . oaa S B. W:AO P -0C) w Q) 0 LL i a la@ V) Cr 0 0 N` 0 CL U o:~ a C ..0 05 0 @ A n• c_ '0 c__+ an a) 'a la a) to IF. m v 8 .„ c.E,€ 3 00 o 2 O w •c2 m ` G m Q a) a) t ,,, v _0 2 -Es' N °) 8 Q) o T•5,, 0 § 'C 0 Cn '" o tc .� = C �' a) O .0 '0 C- —.%...c8N a 0- o h Ca. cc tv a y °) a Si 5 .c_0 G o ayy it c .Ii ami o ea C R' it E C 5 0 Ie C. E •o, E 'n o c Q a) 0 E 0 o m IC•n. N i. }. U i N CU ''0 Q x. € = vu �tn .m o . , o E LL 7-� m C t!7 Q — U I., 4 C A CL ASTM D2992 Procedure API RP 155 Section 5.12.3. 16 C a. :1 ASPM 9599 Procedure A API RP15S5.32 I ASTM 1599 Procedure A GN . API RP 15S 5.1.2.1 m: id API RP 15553.1 API RP 15S 5.5.2 API RP 15S Section 5.5.4 and 5.5.5 Flexpipe Testing Standard ASTM 02412 Test Description Regression pressure testing 9Lu g Low-temperature pressure testing r ri.,E` 1I oa V2 a f5 Short -term -burst pressure testing . & Samples -subjected -to -reverse -bending pressure testing Axial toad testing'.. ; u 8.. N = Thermal -Expansion& Pressere-Expansion Testing C 5 4— 2 to c a E .a '8 'n .0 a) c a) 2 0- •-• oU 'u)' 0 O alr L., w a P C MT V ) e U C E C aa)) o.).0 F2 o E C1 6) 2 ccc 40 O 0) 0 tr .0 E 0 r a'o " 0) 0 41- tou N ,,ccH a) o ca. en . 0 F-• 0- (0 Cr) CO a" r CO a Cri 0 C O '00 W d G.' C .� Q N m a) tr'J O .0 U > o ai lc .F' Q 'CC irt .0 in tE U -o •- = + C N U� Ca.0 a ci, .�;12 0 a C . R' Oo _ o 7 NC OJea tEW a G 0 N ea — 49 0 E Nn o r i'- ty C .2> N G N O I9on en cLI g y .0 c) E CJ v X U C y ,cD Q C = 0 E. d 1 0. O_ o N o C.d 1 W d �: .Q E a ¢ o a) m a) a> m iinn C) 0 0. O C/) C 0. l.L IC) I- C0a 'O U. N O. toEL ILI J u 9 rr 0 6] a A U O. 4 M N c �' y d cc API RP ISS Section S.2.1 Flexpide Testing Standard Flexpipe Testing Standard Test. Description Fitting -gas -leak testing High-temperature-mtalla&n-and-lciw temperature pressure testing.. nu 1 & E d U a Ryu. a a) >, 6t C 0 @ C77 co as AO 0 O N4 C CC, cis 0 eb a 0 c •00m L1 LL 6.1—Appendix 1 "Chemical Resistance of HDPE Pipe Resins" t 6. X a4 J, t tin 0.4 4? it w W w U it •y Mw W 5 U WEIGHT LOSS % 0 W 0 U Ci 2 0 V V s U 0 InV b o 0 00 0 8 A .fid U n A 8 0 A A z z a 0 0 b a 2U SE (J a a U a s a 5 tG a V Z V& K d' K K z ss U U a& 4 2 s U. Z Z Z a I U o a ec 2 acaaaa azaa U 0 a��ixacea aaUaaaaazuza u 0 aaaz Chemical.Resistanee Name Concentration Acetic acid 100% (glacial' Acetic acid. 50% 60% 70% 80% _ 0 N i] ,v Acrylic acid. emulsions Aluminum salts (chbride:luoride hydroxide.mctaphosphate,sulphate) Amino acidsr. _.. 'O u ,% f�' ii! _ z I Ammonium salts a Y 0 8 'C O R $. w " a 1 Y 9 'y n z nilrate,phosphatesulphate.sulphidethiocyanatr Amyl acetate technically pure o G °. < L a n ?� '3 C 2 S '1 C o C v 0 8 5 C] A g a [G Benzene sulfonic acid all Bismuth salts Boricacid (aqueous) all Boric acid rnethylester v W I Bromine (Gas) Bromine (aqueous) O ._a v ii II 6 Calcium chloride f Calcium salts (aqueous) L a. ro I Camphor oil • ~• a as totd d ✓ � N • � E � U V d U W CO4 I-) \ -*at, I ZZLUZots «U aa:m, )/ ,z:2 ac4,mceo ) \J ) 5 I %mm /\\ .. . ) en © ^ . y zz u 6 j/Wa}c!\ac4aaaa ;% a_aace a:\\u3, c4»aaa**;* X c4 \0Q Chemical Resistance Name Concentration I Carbon dioxide (wet or dry) Carbon disulfide I Carbon monoxide ,�§ Chlorine, water _. Chromic acid 10% 30%"40%50% Chromic acid 80% I Copper chloride (aqueous) I Copper nitrate (aqueous) __... Copper sulphate :(aqueous) all Cyclohexanone Diphenyl oxide Disodium phosphate Disodium sulphate Ethy! Ether Ethylene chloride Ethylene dichloride I Ferric chloride(aqueous) all F Fence and ferrous salts (aqueous). _. Fluoboric acid Formic acid. aqueous l0%-50% F I Formic. acid, aqueous 85% - 100% F I Furferyl alcohol --- ( to 50% $ Hydrochloric mid. up to 100% - - \ ƒ/± \ \ \ / _ !! �� ,) ! . { \}`(t ! \ �\ ,\// 0/003\ / . .2uw . ) §/ ) f )\/ \ I i_ {} ; Chemical Resistance of HDPE Pipe Resins 0 0 V ax V a as a 02 rla as 8 23 00 aZ Z a 8 V 1 I a a N Z Z7_ Za au Q xa' aaxaa oCaa a as N a a a a a a a Q z a a s U V 0 a a U Z 9 Cr4 0 2 a Z a a a a a 2 x 7 U O a 4r2 x a Q a a a a a x a a x a a a Chemical Resistance Name Concentration Z' sv G R rye v. Hydrocyanic acid. 10% Hydrofluoric acid. 40% _g S v If it1 Hydrogen sulphide dry Hypochlorous acid 'O ^ NCa• Mercurous nitrate Methyl bromide c ' I Malhvlsulphuric acid O I Mixed acids (sulphuric & nitric) Mixed acids (sulphuric & phosphoric) I z Nickel nitrate Nickel sulfate (aqueous) all I I Nicotine aciddiluted solution Nitric acid <50% n ' zz .p ti I Phosphoric acid 50% Phosphoric acid S0%- 100% Photographic developers Potassium bicarbonate (aqueous) all Potassium borate (aqueous) 1% I Potassium bromate (aqueous) up to 10% Potassium bromide (aqueous) all Potassium carbonate (aqueous) all I Potassium chlorate (aqueous) all Potassium chloride (aqueous) all Potassium chromate (aqueous) 40% I I Potassium cyanide (aqueous) alt Potassium ferricyanide (aqueous) all - I Potassium ferrocyanide (aqueous) all -- I I Potassium fluoride (aqueous) all Op b ti a a a a a a C U S a Z a a a a z a a a a a a a a a 1 a a a a a a a a a a a a V X z a a s P 0 N n a a a a a a a z 0 Ug a a a a a a a a a a a a a C a a a a a a a a a a a a a C'to N ( Z a a s Chemical Resistance Name Concentration IIv$b� O L e O Potassium perchlorate -_-- Potassium permanganate up to 25% Potassium sulphate l Propargyl alcohol (aqueous) 7% • Vp. 1 e 8 V E V 8 s N C Seawater Silicic acid (aqueous) all Sodium acetate (aqueous) all - Sodium benzoate 35 O. V) Sodium bisulphite (aqueous) all AJ O N Sodium. bromide _-- Sodium carbonate (aqueous) all Sodium chlorate saturated Sodium chloride (aqueous) salt 1 Sodium cyanide Sodium dichromate, acid Sodiumferricyanide Sodium ferrocyanide Sodium fluoride Sodium nitrate (aqueous) all --- _. Sodium sulphate _ N p N 1 Sodium sulfite ( Stannic chlorides. Stannous chloride Starch (aqueous) up to 100% Sulphuric acid up to 50% ' Sulphuric acid 50% - 70% V •L 3 0 Sulphuric acid 100% _. Sulphuric acid fuming Sulphurous acid I Tannic acid p V fW bo .c 82 v d cf CD re C) V E L U CAr Chemical Chemical Resistance of HDPE Pipe Resins o'a e Z Z Z 0 V a`x Z xK thN h zz G V G Uce ce Ka C to N 'aa Chemical Resistance Name Concentration Tetrahvdrofuran F ITrichloroacetic acid pure Trioctvl phosphate M 7 G 7 y X I Zinc. chloride. Y F n � & - G— a d V i1 0`o baa a a CL C C P a 1 E L F V W o a a°ra W e at n -¢ POLYTUBES Chemical Resistan 6.2 — Appendix 2 "Guidelines for Submitting EUB Directive 56 for Flexpipe Line Pipe" (.0 ti? W Via_ D W L I ZZ 2 -1 {L W I- Q XN aX O1w ( J J IL 0 LLIZ 5 0 C vett 0 ... 43 Ps17 442a Z U) N c c Q wav I- 0 O O" N (6 a.0 U Al- • Mr..0 � a Q. N "O LI) a fab 2 N 7 a.c a _n-cxyx C N a) U. LL 2 0.w W z W aF. w Z a) as Directive 56 - Schedule 3, Section 7: "Technical Considerations" N V tac N N Co U .. c U co 4 a) C C, •ax 0. 0 m 21 M V E r'V Directive 56 Schedule 3.1 a 00 r a N o o y 2 o M u d o 2 ce) ELL>- 0. c 0 a1 N a) C J c 0 d d. J E LL Q ya 40 C •p a) C 0 j0 N .0 O O x o W w U.) U til 0) c C ra co c C a a 0. 0- c O u a) N a) c Q 0 N a LL o C o (ti C) ta jr L d 7 a, and a) L C7 ro o a) • M0 Id d (n .. t N o 7 a) L " O20tn 0. a) V 0 m 0. a) C TT a_ Qo V. 6- 7,-3 05 Qa c moo How to fill out Schedule 3 for Flexpipe Line Pipe - New Pipe Line M Q> m U CD ▪ Q Sc C V ▪ V i L!) a, C • O. L _ d 0 APPLICANT FILE NUMBER z 1. IDENTIFICATION Applicant BA Code I 2. PARTICIPANT INVOLVEMENT REQUIREMENTS ❑ ❑❑ 0z z z 0 z z DO O DD T > >- E .56 1. Consultation and c c 0 C0 D m a C a C 3. EMERGENCY RESPONSE PLANNING ODD >}> 0) at. • C 8• 82 m E g 03 B C = N» 2 5 5 3 g q 2 c a a F g N N 4. TYPE OF APPLICATION 8 8 C 0 O OO 0 430ED Z 5 C d o c z O a U 'a z z 6. LICENCE AMENDMENT ONLY co 0 Oo C • E _ c c s A a O N E rn a fp, w K E ODD g 0 N C aw a a Substance Code To licence number P Substance Cade E C x Co co C LL W J a0 ❑ ❑ § J v E a m T • a ▪ o 000 J ❑ ❑❑❑ Q Q Q Q z z z z 6 0 's Loop❑o /u 0 0 0 0 0 0 m ZZZZZZ a ❑ ❑ ❑ ❑ ❑ vi en u> w u) c 6 Lu L.. i r i o .F@ 0 C CU c r 0 O. O. 0 y t V eat N U, E 4 a N N 0 a CO 0 0 9 m m a Y Co U N C V Co T Til.. e t -63C a> C n. a. a b a E oCON N a co • a O N a a 28 O H D1 N'$ Qi a = 5; coR. a co co an w �` N , i' Z o 1 a V a C F c 'a a 3 a N N a n a o s a w a% c a o rn 0 W r n q .V .co . Z 6 6 Q_ U CD aa b 0 a la F- i=- H CL H I- O N ni ct N [p o ping will be implemented eSW, Calgary Alberta T2P 3G4. APPLICANT FILE NUMBER E p� a "'hedule 3, page 2 8. NATURAL GAS PIPELINES >10 mot/fond H25 0 z a ❑00 0 00 0 0 z z z a J ❑ ❑0❑ ❑ rn N CO Cl) N W W W W K N C c ' ' a co a c yc v < a y co c # a E •' a m 9 `o 'o C,, a S c .G eN d G 4) F m a �i > v o, m— •d .c E a) 0 8 o LT- C 5 '£ 2 N c i g g N C) V 9. SUBSTANCE CHANGE, HzS INCREASE, MOP INCREASE, AND LINER INSTALLATION ONLY 0 0 0 0 s 0 C a 0 m o J O 5 0 N d • V 5 O c • on • 2 m .2 co 2 0. L r: N 10. RESUMPTION, DISCONTINUATION AND ABANDONMENT: ONLY O 000❑ 0 0 0 0 0 a z z z 0 0 a a z O 000❑ 0 W W W W >>>>- >- d c a) a) N N h h w w w >- >- > 0 lA co w u) >- > o a m o o B 5 0 N y To CO s R m o E c n w c C O) a o a w• cc .2 > £ So E v m A U 2. EZ m x• a r 0 w w L.O CO v c a .E o 8 E Ld '� a N o 13 d Ct• Z z d ' N N C _ 0 • N A o 0 a 0 3 8 z • m W a a) Q ' .E _m _ o 1 2 m 4 c o - a b•, S a) > w C e O m _a. E m a s • QEc ic a w . a 'acowm L nac .c c ry c 2 c .Q o 0 • 111`��y'iiila m co n-o0 W CD n m o} c ✓ r - fV Ni , N 23 f N • N m a ¢ m s I mG 5, C "a o a a = m a 8 m a N o C 0' 6 c a .a .a rca) • L a) m a 3. The pipeline was abandoned in Alberta Energy and Utilities Board Facilities Applications 640 -'5 Avenue SW, Calgary Alberta T2P 3G4 FAC -06-2005-10B How to fill out Schedule 3 for Flexpipe Line Pipe - New Pipe Line to, d V C V 0 in Ca U 2 0 Pipeline Segment/Pipeline Installation Identification APPLICANT FILE NUMBER DI F W_' O E E E (id! 0) Pg a S a 0 0 0 0 0 `-- ei STRESS LEVEL MOP (kPa) Your MOP Your MOP Your MOP Your MOP Your MOP GRADE 300 o 00£ U) 0') .- W yd FPLP FPLP FPLP FPLP FPLP F 00000 WALL THICKNESS (mm) O v T O .- .- to co •Q r o OUTSIDE DIAMETER (mm) I 0 N 0 Q Q z o coca o $ ino Examples by Product ID No. for Pipe Specifications I Substanc 0 0 atc 01- 4 300 ANSI 02 - 3", 300 ANSI 03 - 2", 300 ANSI 04 - 4", 150 ANSI 05 - 3", 150 ANS Alberta Energy and Utilities Board Facilities Applications 640 —5 Avenue. SW, Calgary Alberta T2P 3G4 FAC -06-2005-10F How to fill out Schedule 3 for Flexpipe Line Pipe - Freestanding Liner Directive 056 - Schedule 3 APPLICANT FILE NUMBER Z 03 1. IDENTIFICATION Applicant BA Code 2 E 0 2. PARTICIPANT INVOLVEMENT REQUIREMENTS A 1. Consultation and notification requirements have been met t ❑ ❑ ❑❑❑ co <0 W r >- MEI 4. TYPE OF APPLICATION m a E c 8 ❑ E F as LC Z E � C a U E NEW CONSTRUCTIONIADDITION ONLY Licence number P ❑ Addition to existing licence 0 New pipeline licence 6. LICENCE AMENDMENT ONLY co co N D Substance Code To licence number P SubstanceCode ❑❑❑ ❑ ¢ a a z `z zz z ❑❑❑❑❑ 0 0 0 0 0 z z z z z CO CO N CO N W W W W w >- >- ›- >- rd keeping will be implemented .c.' N ODv C O L9 v A C c 76 > a .$ CO ? E d,N. a 0, .j It W N ,p O p N no n _E a m m c co m a a 19 V t 2 . O a- R Ei b+ a =. E to .n H 0 ",.2) .n -Ca 'Ca a o a a m m m Y V s H re jg ❑ ❑ ❑ a 8 o. Q 3 a Qj L V N i N st 2 S C (O <v S m p1 E g 0 n s c bi s. ct c a Cr- a ".z ii, fa to S? a g or a E Oo N Q V 4- QC 8 CO (7 ry cy •�CQ y D fO N aA(" lO 0 C Ct ° N VI V It W .! 0 0. A t.,-, wo N = '.V�.t. 0 C Q O 6 C g= C w c a SI a E ait- y Z coth- t a. o g d a G 6 V b W ❑❑❑n Nre;ticLei cc) r 115 '53 0 u0 = teC) C 0 O. N t V m 7 N C 4, O J 0 CO {O JIG CC b (Schedule 3 continued on next page) ities Board Facilities Applications 640.— 5 Avenue SW, Calgary Alberta T2P 364 Alberta Energy and FAC•06-2005-1OB APPLICANT FILE NUMBER E aC V edule 3, page 2 8. NATURAL GAS PIPELINES > 10 moUkmol 1125 ❑ Level 3 0 Level 4 0) J ❑ ❑ ❑ ❑ 0 0 0 z a ❑ 0❑ N V) CO LU 1/J > Y >- Si m .SR c a - a o a • V C or • E a F • o a ten � n co R a CO co 0 N� _ cn 4 E '6 2 2 aNSO rn m g $ a N 5 E ''5. "£ % - • Sw gN . 2 S 6 d) E .a a N_ 2 r N Cr) V 9. SUBSTANCE. CHANGE, H2S INCREASE, MOP INCREASE, AND UNER INSTALLATION ONLY YES ❑ NO ❑ N/A ❑ 0 Qo 6 O U � • c 2 ❑ c a S C �Q og S y 2 x o n n ffi 4 hi �- IV 10. RESUMPTION, DISCONTINUATION AND ABANDONMENT ONLY ❑❑❑ U Q zz z ❑❑❑❑❑ 0 0 z z z z a 0 z z 0000❑ W W CO W W >- >- C C 0 N_ en 2 V C . gr I cS, Lt; g c W W .� C V a I 2 - yC 2 43 nN O n c c E ts c$ n y N a o C a c o o P. 2 m o a ._ 6 tc m r s rei- lV ace site reclaimed within 1 year . ENVIRONMENTAL CONSIDERATIONS N CD .v 2 t a 3 r e W 03 N Q C C J o Cp O 0 6 6 Z A o co co a co n E V * C tion and Reclamation Approval (white area only) E K 0 • tes F c ryO L d Pe C o ▪ L E w o n w Q: 0 ri C: pi a W d O C • m _V C X00 G I t :a n a o � 6 r H , provide the Notice Expiry pate ties Applications 640 — 5 Avenue SW, Calgary Alberta T2P 3G4 Alberta Energy and Utilities Board Fa FAC -06-2005-10B How to fill out Schedule 3 for Flexpipe Line Pipe - Freestanding Liner d C) t V, u nCo C) V C) a Pipeline Segment/Pipeline Installation Identification APPLICANT FILE NUMBER :a- a, III 2 p. .0 m H a z X g, N al G a m 0 0) C C a 1 z 0 O LL z u z 1.11 J a a 0 8 Lu J a 2 r � LL (12 EJ J U) r q M CATION cc z w STRESS LEVEL Leave Blank to F= - y MOP (kPa) Your MOP a Fx U E E a -v -J TYPE SEC i - g TO LOCATION M C J WALL THICKNESS (mm) Z Z 0 C E L C Lil0 0 6 N 0 I. g O s o 0 0 0 0 O z RIVER POWER SOURCE CATION cc z w COMPRESSOR/ PJMP RATING (kW) to F= - y HW N a z LOCATION Fx U E E a -v -J 0 CLQ g SEC TO LOCATION M C J Z Z 0 C 0 6 U' w U, 0 J LL FROM LOCATION 2 w 0 is 1- C> N J LL LU 6 N ZZ 3. INSTALLATION 0 Q STATUS RIVER POWER SOURCE COMPRESSOR/ PJMP RATING (kW) HW N a z LOCATION 0 CLQ g SEC C J Z Z 0 6 Alberta Energy and Utilities Board Facilities Applications 640 -5 Avenue SW, Calgary Alberta T2P 3G4 IL A LL 6.3 — Appendix 3 "Flexpipe and Compliance with CSA Z662-03 Section 13" 1 c 0 lance with CSA Z662-03 Sec e and Corn X U. 13.1.1- General - Comply 13.12 -Design 13.12.1- Comply w 13.1.2.3 - Comply 13.1.2.4 - Comply 13.1.2.6 - Comply 13.1.2.7 - Comply 13.1.2.8 - Comply E = @ N L0 o37ay >o8�o 0 • 0 a 0_ C -0 I— X N.7 r 4= 0) 0) 0 L O N > I 7 L 0 o >Lo3 12. 0 N t C o .O 0 0 N 4c7; In C _@ w 0 0) _ @ m 4....0 t.c m m 0.... • L'''' N L a) L .c W O N a) 0 I- I y N O) N @ L r C a N @ O U O p 3 c —° c O 7 p_ N N ON W co C 0 Y L a- 0) •En' O N r✓ C .0) C 7 3 � y ? (tcLo� 0.▪ o O'N0)ca7 c.• 0 N@0a .0 s co C 0 0 N fl. d. NO.. @ c.o 0 Y x L O cu U ca ,_k> a)_ o N .N 1 @ IL F- O 0 N T 13.1.2.11 - Comply • V .0 0 @ CO -I-. L ._ 4- U a> s E 1p .0 to. C 4 o C 0) -o • +� N O N C C L _ N ice.. A • V G O. co N U 0 0 O) 0) E X U N LL C -O O p O N O {-3 0. U Cll N 0 a U Q� U CO a) � (cu G C LL. N o O C O C a) _I! a co 7 +� @ o 0 m c .0 0) .0 0 .-� aN mO a CD.0 0 0) O 0 Ea (7 E4.p 0 C O Q N 0 0 O N @ N N CD 1 N N M 13.13 - Materials 0) 0 N 0 a 75 a7 x x fl 4. o 0" N. Q) 4:% a) 0 . Q.�. 11. U_ e.. Y:: C 7 a Ch Q. coa C .0 0).. 73) 0 co @ L > L c nV- .Qy L'LILO -0 IL.tInmaC O 0d 0 a _(1) 'Ca r � N .2 N . 0 C d >@ 0 E n@ Q 0 a) co N Cen L °"° 6 0) 0Ni a .Cao - O>•-•- p 2>,N� c@ COR ' O g a_ d O 0 d c • 0.0- '0 N N O `L n 41) 0 X. 0 q) .0 E f9 CN 0. ('" up a C ,,,> N N 7 C G 0 0 n 0) O O N ...C• •C (n..0)Y a-0 N 0 (6 N '�. R. 0 o 4s @ O O' (0 0 O Q w m a) ED �sL c o 0 �O N 0) 'O N E .o .n 0 Li •0) C 1 •� ++-- @.0 -crab 0 d'+� a0'N a e V.. to Q N O >. N (0 co O 0 �. I .- L 0 E a >, O O £ u' O. 0 Q. ::� G Q @� U3fa>.—D H 11 C 2 L._ I I- NNti o• C 0 1 N I 1 1- I !.. m ch M M 13.1.6 - Pre 0 4 ATTACHMENT 4 ,!, o v, o, O rn M N `D Y N ro . UN O 0 O co i24 (/7 N b F a N C 7n cU wpUUO G: p C • N cd Y v '� r Y p: ' a C co cd N G° a C� O U c• U3 0.. N O N �' W G) N �. E N O p, .� N cd N O G !Y. [--.. p" '" fn 0O y y � 2. a) ^ Q N 0 • o T..c-. Y U n. T a) 0 v U CI.3cd G ID d • P4 G G 3 y a d G > cd p O U 3 y cd 'O ,?. . 3 b U .� 'CS L O rte_) U ' a cd b O � p >, �q w o > 3 N - o3 ,oroc.c - E U >, U O Fy w WO V' O 0 d U ;G 0, y du) 3P U U pb 0 ov ,0., Hx s: 4o Ca v o.- ac) cd o Y td U m 5. U o O d ti U .-G co '� �' a 3 0 U0 aGi ,� q 0.? w ay�y c G4' U o G O O U O o m • bn ro w '- a a. • i G a U, a a U on C o v,01 Q QA c ~� N 0.o.N 43 C 6. U ot a 0 '� 0 U • i Y o p O E E ¢ 3 >, o H Nc-0 ; o)v,2 IS: o o al • E - . e a o .o ci ° w \p rU O b `' on oo C wo v . 0 dd 0 v o0b y ooapbp ou .9 w r�ro4 b . ro O 51 0 CO' a' an td id N 0 0 :+ cGd Y O ry e_. ?' U G'f C cc :01V v c a' U7 .0. .'GU' ° .0 • cn V y '.El al U '4j U ,y 0 O a 0 0 0� y a ,i a•C� 34 <d• ▪ :`. 0 G a �j b CD U -00 0 0 0 • o G E F >[ o• T b b cd .a ' o CC • w m a o ai ti • 4 r -a c • c w w W oo `N • 0 y u h ,�. ti bn a U fi. o a W atli � o 0 ca m vv, co a co 0 s o a° E 0 V ° x Co C7 C7 C4 �1 a s a. 3 o°° F a a h a a o vD W paw ¢ U Attachment A o _ y w 75 o P T 0 3 o G O b0 F N ti C W XX W C C • y T b E y c0 inO a m -C o o' 0 4. 3 on at) -o o " 0 w OC v C71 o E � � N ao x b .E H w • • G N Op A t N y .D ^' C .0„,-..a W� N 8.:a' _. y to m a E N C E y o ,mss Li y „ o n y_ ci ca. a' Z ac E ea '.. a -- 6. x.0 C E. x.o 300 o C a a v to i oo'v, y .c O 0y • EC O - C N . 4-1 o P P'v U aCO.c N .0 on J 2 C N C C C o E w ... a ro 5 cn ° B > Y al N a°: C n v et U C .L 'o . y �� ,y id C y 0 C U (42 4_, b G w '03.Cw o .0 'o o- .a o al 5 N b 5 U '' Y E n a o, m ro" c v o o. q 0 .y tyr G y U U .Ti -C y a+ G y y G �• .U. y y <d 'J 5 0 3 y E o ca. L w" ° c v � R. 1%> ' [Fi vi i OC co N w C U O ro y a .w 0 y N ti w b0 0 0 > --, - N 4O 0 N .P. a N >> 45 E ay.. o. t y o w . , Y G 1 :y�r, P CD -0 'C N O -C t. N .�: 4: a ;� G y L v. y U a) y ,.0 rn ti .a H .5 3 'G 3 H F.� a N- t to 0- © Flexpipe Systems Installation Guide Making Our Product O cn N H O o. o 5- T y NOw N U Da'o LI .GI O V1 l+ N ca d :51 ca Y C C/rile 0 bya b 'CGW 1 '" .c o dY w NCao '^ m ri ato [a >' Y27 ^ -C CC N C L 0 5' 0 U O >• Oa+ Co 0 '0. Q0a .P'0.n o.O E a 3 m° o .. OOUU cu O. L. O0. O O O L cd d d E °N aw0.m w CI r tcl O y VO cl• 00 ca cn 0 NN •0 L. 'FP' O Y o 0 ,p 'O boC O '17) ro E a a Co ... w v,9 P. a5 '' >a U OO IDD C fa , 0 U •.., X C>> om • U OO CoC a A O a N b .p•yA a s W U e a 0Y 0 b. ca I. W y L O O'.LOa g cn 'O L4^ aN w b4 `�ro"acn bO C . XII ,y d a>oo mo ...0 a.) , O' • 8 O ~To U O Yj t•n . 0 U : cE. O (-1j O -4I4 . Co ca vi , N O 0 o o m a 0..o. x F ... a� O 7 bD7 1-, 0. ,..0" ...° i d G O O Tri o 4 w .c E • ° 0 0 x d a w a o b0•^ U .O O a% C 0.0 U 0. o 'N U Si X 0 ti 3 a b 'a E, a ^0 cu C s a 0 ca id O >, L 0 .a v o Co Co d wan y Co 3 0 °d 'LI E d -0 0 � 60 'd 'O E a m _a P. ,n .n 2 P ro¢ .O, O Y O E. 4 -'bo E E'o n ° °' .a . u x .c w a .a .d •E •>3; ro ..9w, .6, T o vCg K W OO .n co w O a S .Oa m C ,a ccaaa 0 pa, a 3 ti Q. N w W w W b 6, bn O w bO E m o ,n. .aa b t,�, O . d O n •^�, 'b a.E U ca '� O T w b U N '1 0 .0 X E H -60 P. O E.`5, H UwY Co Normal wear and tear that is OK: 4) cket is intact a U Of) 0 .. a CO O W Co O O p r O, -Ca) oC m . EO 3 Co '- f; ›Th o C 0 O ca 0 o P. ° ti b ti b0 m E > a 3 °.' v ,, C O ° <a 0 ?tWI> C "0w O. f E E r a? i; V] w d 0 • N aO P. to ^ oa C w or L. P. 'cC 0 L. 0 C ON Co U N M Co E O ro W M O O P. ,._, 0 w .- 0 0. y P. W E. E O 0 Co I-. w�+ U ,- O 0 O E o v � bH OTN4U 'DU .ti O "D 0 . Co .41 0 ct'0 d u .bD .y' P. t m Co a • E 44 .p, Co '0 �,� E a Co o Co ro (2' .6.,r4 w a a • Once the print string has been printed on the pipe, it is baked on. 0 bD a Installation Guide Attachment B \ -73), iElE t ; »«f/«22 (~(°((((E(C /\ff\f ƒf \/,.. . ,. .� \ \{ {$ . E/ ' . (! \ 2E\\\CD9PaC� \\\tf{\(\ \\/ -=121,'2!,'21-5,/ \fm&oa,col2a, o=0i«»&»ti- 6»<£&4««>za0 —J U):«U)HLUH «»<«< on of milligrams per liter 7.6 co c CO CO ' 134 11E 20 \ \\ 9929\ I Attachment C TR 19/2000 O) u)C co •CL E N co oU co i O O O E a N C SC C (13 C U - @ LL @ 7 y0 .p O .� _U 0 -0 E a) a-2 N a co 0 o N co 'U O C aa) a • s C Q) C E a) @ a) co U co p p o° E a o i i co @ a "O a) @ N@ O. z d) 7 a .0@ E L 1-- i Ea 3. p aEn 0 C o .0 a tNY c i a O r'�Ca5 .3; O .O U jn Oa N U N C NC N C W _ 0 w @-.N _ -UQp .1° O8 wC OC C O U trn CO CD Tu 3 U.d_a)NO Q ,N.N ai .N E VU -O C J 0 0NO " O O.� -O (° m CO m N 7V1 U N@ cCD vvt O ) a) CY oUE o U o a c o .92 r w c m N@ oa) c H@m a �° -o n E® @ co w Y QE Et aa m '° a-.5 aoa p N 30 N O V 123 w3 .a dLL O 6a .c o mocl C y n'Eora o N .c .� a) co U a^� tocN onaooEW�"c�DLti O@° u a)a 0 O .a. .jEo a`r,r o a o u. �a I- 1- vd m ' -o v • vc@E 0 '_ 3 �omc Zfn U.. 7d a.n o oN s Eco C ao N 3<0 accN @ oNUa) >,@ 000 -c ccs d3Jdmd c@@ a s V2.�U3 ° a E c O • � �oEEE �C W co" o>w � a := a m E ra Lo---41—w--s_ moyooC a)`co �o;HHrycEQ -0w-a) a)N20aia =� l�O - 0 o > Dv a 0 a) O a .Ea Cr d p N O C N O W • 1- o c a O N o pU co@ a o N o N . U E .L. ® C co 7 a) a - Y O a) N N N p p 'O m 4) Q1 C N L N E IY N N W° .> 7 a) N c E _G O w Z U N Y - O @ O` N Lc ---a E r c@ a) p '� L C '= U N a o N O 9 O T) Q. CD 0 O O • O N 'O QO L o oc O C HU O� 'O O O ` O c -O Q gc CU C Li C�,a U a , N ._ aN 4 N -ON -O @ .mo amr.a22EscE "Q E a@ c a ro N a p C 0 U ON d t -p a N CD L L Q@@ ® t .c co L 42 a) a w0 C o OL E N 3 C_ 7 .- o H N C V) CO 0 H> H .0 L .E < .0 < 0 a 0 c 03 d co 2 0 0 0 0 N @ C CHEMICAL RESISTANCE IN GENERAL >, co -a (13 a) U a) aF- C E c c o o a_ c U o a) 03 4- U) c4 O 0 'N C L , FT) C U `n co 0_ O E (3 0) a)c > w ,a a) o2 O a U _c, co c ( a) a) — N U E . t .co U) CO co a n3 c o E L V) U 7 r C L `V a) coo 2 U) X a. -p C Q a) O a--' 0 a_ c a)= CD "p0 CL N Q co u) L. u) — 0L a) . (13 U a °) a) i a) a) (• Np U 7 N 7 N O N @ U) N U .fl N O - °"C O N N C = U a) O U N N T Cu a) Y o > . L aL(N No UT a) @ O O L •-(5)'J a O L c a) • C co T 4 w• O• L U LL ` c ~O ▪ a)0 L a Co O N473 • O N > @ N U @ L L a) O O U @ N O • .0 O c N L N L 0 o ON.o3o37 0 OO o C_ c a1 CO a N c p O Nco a 0 0 . @ E o f E N O E a U p L O Y a) @ �p Y U L c L 2 U N_ (0 13...; �- U L p O O N 7 0 ° T C T L C a) @ C a) .-. N @ N T C .0 a) "= a) @ L U 3 >• T N L a m .3 N N o N ca a) >' U Cu® a) C'7 O C 6 @ O N N a) a) U N c a t •-O > co a E. @ U .O U 2 a @ E O @ a) - a X C E V U L a) ,N N E Tu co U• )L.j .U:2L - E - ° @ U_ Y N Cu arm C U p co N E a a co EE s.U 3.0 0� oma' > TYPES OF CHEMICAL ATTACK ON PLASTICS U a) Q) a) 0•( U co T CO 3 CO_ E O U O U C N 0 C O .N N O a) -O L N O U O y L CO aE U O @ @ E 6 ,- g_ d N L @ O U T O a C 7 O N N 0) N C U ▪ L -° • O ° O N _ ° > O N N= a) 0 U -O a a@ co N N co U tLo'-76E @ a) 7 @ 0 p O a a 0 c E o mcDEEtno E ma U U O a) ▪ T L a a 0 a— O p Cu a) a) a L O L y N U a'E o CO a 0 T @ a) ° C a)„La a) L 0 E a CuO 0_c O) @ E C U a ° .® 0= 0 7.(1)0 .. 4)' Oa•- a) w N y> N E a) E 3 °> S 7 T E O 3 C ` ° a p@ N O 'a ° = U T N T,.. C C N E = a — @ p @ a 7 .° N U i+ a fl. 7 U 7 o =p O m — E C 0° 0 T.E O L p E C p_ S U E 0 L L @ ° CO O y 0 C E COC >' T L C' @ O O 0 0) ° .0 a) a L CON E @ co 0 > a)> C _ .0 N NO p L 0 0 0 O a @ 0 _N >' L @ O C N 00 N- T a) > a) D U@ CO °- L L t E -co D T @�� ,u r @ C 3 a a) c o E c E m E w o°° a +-: ° N @ D L L C @ a N@ Y O _p E C C U U O L 7 7 C E N C O@ 7 a) E >� w a) 7 U N. 0 @ @ -° N . E 'co U 7 a) @ O O 5 N@ L a) .. O 0'E E a� TC E 7.L a) N L 0 7@ Cp V) O 0® 7 U a p .0 _ N O C 'N @ L a) a) J j N c C N -� C .0 N � .. N L 7 .0 N O C C @@ .a a C 3@ co 0 O O N a a ° E E a O@° a) co a.c E' @ N a) 0 y L .°- ° a) O F. ° C (0 O a C a a o o x C o '0F. U v° a •o '� a C .O 7 'a_ E L O pE L L C a)�” N CD _ E E U(13 Mi a o > C= V° L O O O@ L N C C @° Cp a s '- Eo'_o a)E�o�cEEo L C T C co a) c p a) a) L O a a a a) E p L 7 7 >,a ° O U O o ° a) Y - a a O) L N ° c O) E C) N C O @ WN - L a) C U a) E 7 a) a) -O 'Pi, ° U a O E a co a) a OC E L Q C C COo °U a) .1= .0 CO O a) N U_ C 4 y E.0 w C 0 O ° ° N N @ o •- a a E N m C X 7 Y 7 U — 0 To • N a v O E U NE O 7 Q) U O CO U ' @N T N CO C ® N C 1 O U � @ CO> o 'C C 0 ° U E a .O CO N a) • N N -O L 3 U U a) h a) ° O D E°)U U L O a a) Y E N a U >` C o o C o ° U C o @ @ Y O U • O 0 L L • C CO U O 7 O CO N 61 • .O Cu o @ N 0 co !� N (o U O L O cO X v c o_ L N m -o a o 0 L.a m E CO a) w N a) w 2 U co -O C fn O a) C > @ N 7 7 N U m N dam c 3 w o E 7 a c Co 7 u _o - 0_ -c E o• �.� r n N E w U C O O E a) to yo to N a) .O N O (o -O O -�, C c0 O dd.c -a �Lm Eo�E v.� oN(�No�nO 3@v Na`ama��3 c �.N as o U N g Q� N.o c'cc f aaa) o oco 0 CLC EEE ocNU y. NgDaoNacN a))Ev>i° �a Loa>'°N @ <-% O E x c x >. O U m @ O N 0= �0 0 0] N N ° T N CO •(-7) >' C O L O y Eo> E ) o .o w E> o o a o m L .c Q o o m Q o 3 0 3 a) co"E c O a w co . a is ns n. E c c a a .O U U N m m N L c = E o O a^ O `�- 0 0@ O y -@ 'o T L 7 C a) O a) •Y O 0 cs N 3 N .o L= v- -o (o LL Q1 N (0 C f N .f] ui > _ f6 �n c9 (p O a) Q O .- Y1 (d w N@ O c C O a) fn N a) N _O "o O (o O.0 w a) @ 7 (n N C 'o (o N a U a7 ' a) -o N O 7 C N N w a) C co'' t1 w N E a E n> 6 C> _2 7 m 7 (6 C O .-� C r- :" O) a) C` N N N E U 5 -O N Co N o O cO U)> N O a.a a O) Co (o CO CO .0 O) — O f, -5 N a) O@ a) N L C n n N Q a @ O n � E N E U a o U>> T c v v n o 'N a@ , E 7ch 3 .a > ° c N@ o C o N .0 N E a a OT- a) d L U OU N U U E a O@ a) V) a.0 -a CO N U 'U O U> -7p L co W O 18:1 n a U a a) a1 .0 E a) >` ,� N Q .� >..? C Y N N N N L co o N -- co T U C d N a -O O a) N a N O a) E Rj = a to (6 o yO U — L U U 41 L N co O) (O N O C N C a) w E U a) E P .0 a E .S @ O O U` O@ v 3 ro ma 3.CL as a).o.0 ' m > c. E n- r.. OX E N m U Id EL) -C a) w 'O to N - To > Si N ,O a 0] O>, O @ o) . a) c'is H N .0 CO c N '@ U N d O a) .L-- al 7, E m co�y� oaE0 �QU@c 'a-�°�a Q_�c o @ E0E]UQo @000 -°o -a D Wa U N .fl. c a) N Y 'N O O j 5. N T N OEQs U O C O C N C E a) cd N'' in ,(D U coo U Q .4 C co j CO O T C Cl (� N w > d a co V .N E@ L' ? g•N .L- -pc U N p co w a cCO U d n N N N N E;÷3 ao o E o a) E o y Y a? a CO y 1-2 y 72 Ta> YiE m N a) E -E E E y u m N.>_ � 0 O M 7� N O c4 U U .c wO '` y N �O O. a) N a 7 n' --• .N > o ) N cO .a)N y co >, 3 5 a0 N N U o N„ U@ L N C O w ._: N C _U y a (O C '~ N O` N C a@ o o a CO O O N Co .C) C > T U O 0i C a) a) N o N o m o o N m c o w o co o E o> o H' N N a o o c E E U -o E a> m a l!) U fo N L a U1 7 N n co O c 06,L.., NET) w L N D `� a) aEi co a L c N -o Q Q OU L . N C to O c m •0 m o v oo Y L ° .4 vo o E- v° .o E H U c (-) o a m �o d a`) o o m a) �° Y> TvD .0 a T N a) .0 a) W 'C (o M> N V- w O) 7 7 N a) ' oo i 3 .V N >' a) n a U a) — E U co;U U E o a a o 0 O Co O O c o E o m m a) o `m m T E N c c N L a:Q co o U E m Qw. N 'E U.- 2 Q'E io a@ O_— • 4 ,Q (O N E J O U N a O O p 0 J cc -- U co fl. a) .o U 2 L V m o u .c (Coy O O E 0_ a U O O N c a a a C v=- E m m m p io in o o a s o. 7 0 o m E' oo �N NE��o= rn .N U - u ti a co U> E m n E E' E o N 0r2,71.0- 0 a) a 2 G C 30 co L co L -co V o L in co E a a Q to Q . a E N f6 D T t L O i N - o O a N 2 E E H a o,- a H a 3 O a D U v) .E H O) •CO Cn .N r W m o 0 E CO 2 m Co a .� 7®Lc $§°O k�\ S ±4) ))§ §3G 0 ± t&)®k\ gnu Lu § §§fM<I- w2zI%Fue (2w°epq I0 Zk1j4± \ \($�Lu 2 1- 02< -l<00 < � oz e± CK 0 < W. °Em==wHW n (}§\3z§k Zr'0-0- - o 2nG1)¥g o wcwzw� <?_LLE w on?rLU2 §§/2F -§k2 « not°°°® <w_ wu=o £(/±/Ek ur=own«= =ZWWCeZ o=m2L=@m j ( 0 § \ >- 0 0 0> (OMIX\ �m=E± < ESE\nQe-00 =<oLIJ w o zƒ=G< §§w-0 Z01Q E/03Lu@ / )%)i& °m)$uz e0-0Hw o u/ma-w0= go=o) =we«@o 0<<¥oW 2&ES§¢ _i$z9/o � reU)>o) wowop ik\%F-2 )442§5( ®<gE2\ z=g=±_j wuwz,t< =u=ow> �5oo±u U C m o n E m c -C C >,CF- O ti .Lm, co o ) O p O m O w- E C coN N E °'o ° E o o o° U E cn 2 o� E Q o> mi o c o .� o 0 -s- n CO � C a Z .- D N o.N D E v m o a c �a m� �.o o.T co C7 J 0 O • C 0 CZ E L 6 3 m'N @ a a ,O C N N y O a ZtaCii ° na my P_) -0 a@ �a �w.� �v m a co '- EC 15 �am�. o mcg a o ap ° oc qj Ev Q)a)c'- �� E. E �' L U o c ° ° o o= o 0 a < m o 0 5 'N ' E m o m a m E C) a c> � o E ,0) O E o s °a U F- m t .E C C a> w e .`,17?) n m m a@ L ..- 0)° °_ - `° m" NQ U 0 7 -° OU U N co C N m n Y a 0 'OO a) > L '0 T O .� a E o 0> o @ ‘6 _o c E o 2 m `2c F- c) a� o t co o L. J C L O 0 a) N U a m c E a) d) n ? Q U CD (L f0 U >„C n •m w > E r C U .N O N o N C Q) a) O a m U U h O t� w'> c m `o N t 3:0 'E a. vi.m a .N U om n E a) 0 0 o Z m E E °U o r F O a s E co m.o N'Ej w a) N " t° O a) p m '°' -c C a) U U m a m O a p a N> L- 4) 0 o 0000 W< U co t. m 0 O C_ co 75 > W "O U E C C Em co C .. -Q ,Q F- V •C LL. a) ° O "O U m D U m O a n y a) a) ° -° p r O E 0 s m Q N • _ w 0 C d o_ U Et J O -p 'O N ''. _ C p E L CO 01 CO O)" c t .0 C o = a 0 a) O j a O d c -o °a ° a) >,- c �4 m m o .- 0 v o u- d ° u y c m c `� o �° U y ,a Co .N .E .° o ,�'. 3 o E m� Q E o w o a ° c CO o s H ct Q E co N N '5 m ,, a m a in O)'N ,� N C c9 N 'O L 0 0 +L-, Q C p a a U V < r= U o.— u) o U o m o E o O a) — m o v U) m C .- N .� L �O opoE>.m 0E -c-2 .ma p° .0conm� a� m- ,- w m>.oEmc 0_ a) m ��° n co -,- 0 -.0 o U� oma_E. acro �@o °xm 0 cnwinE c0 a�oc Z} a E o m cA U m C c�) U O a _c — .0 m c C o a) a) •h Q r 'd ,c ,U N 0 0 o f a a, o .«. U p ._ o or U) h m O Y m 0 a- -0 C a) C — O O C c a y Q O 'a NCD5 CO N 0 92 m >, m -o O= N N -° v C. 0 0 a w o .c Z.Q .4 (O ma)ro�a onEo °72>, cow 'o8a)EmV_ oa �oQaa CK -- o w 3 ri c c E ate) 5 o -o m .Nom —= E U o U v h J W E Co'a) m° a`> ) m a) c o_ .0 o o E E j .E o oc Ec o a >, a> m'a)0) 00cco) c m i.:)- -= Q 0 c o w ° O m r c s c m c a) m V) o W o _ L O C1. CO Q CO C J F- N H p a) > Q) 0 co�cov 'oE 9ma o.� m'm a) '0v3,E ) mm wc0aB W W L Y a a) O > C �- r C E> a a_ n ~ o) O Vj a 1 o a °c L o CO •m m a — 7 o>003><X0 O ,c a 0 a m F- . .-Cr _ - -C- m - 0 0 C L 0 o > .1E > .0 .0 Q h cn -c Resistance Codes The following code is used in the data table Typical Result Swelling < 3% or weight loss < 0.5% and elongation at break not significantly changed. Swelling < 3% or weight loss < 0.5% and elongation at break not significantly changed. Swelling 3-8% or weight loss 0.5-5% and/or elongation at break decreased by < 50%. Swelling > 8% or weight loss > 5% and/or elongation at break decreased by > 50%. 0 C >, 5 >. O a Meaning Plastic type is generally resistant to temperature (°F) indicated by code. Plastic type is generally resistant to temperature (°F) indicated by code and may have limited resistance at higher temperatures. Plastic type has limited resistance to temperature (°F) indicated by code and may be suitable for some conditions. Plastic type is not resistant. Data not available. I Code I 71- M N O C to 73 Z PEX Plastic Materials Identification acrilonitrile-butadiene-styrene chlorinated polyvinyl chloride polypropylene polyvinyl chloride N G OO > _ U) T O a 0 C >, 5 >. O a poly vinylidene fluoride crosslinked polyethylene polyamide 11 0 C O N - >+ O a ABS 0 U d L d PEX c- n- PK 0 0 0 O co 0 • N- U coo 0 0 CC Z U N K N- 2 2 M Z U O 0- 0 - La ti Q Acetaldehyde (0 0 0 cOo 0 0 n N m N- 0 O co 0 0 0 o 0 v 0 0 Z 0 xi - CC o z M co co N r r 0 0 V V M M M c+) N r N N N- CO N- 0 N Z Z n To O 0 0 0 0 oco g -D o @ o O U) O O O 0 V) N > U) N V tf) CC N co 0) U) N U 0 Z I O m O = U = O < 0 Acetic Acid S 0 0 U Acetic Anhydride E' a/ O F- E E 9 is 0 C- (1 c. N Q O N- CO 0 N N CO N M N r 0 0 U o O O 0 J -o E E tM O U ,f U 0 0 2 U M CO N- N- O M U r 0 Co M a r Z ZCO r Acetophenone C6 Hs COCH3 Acetyl Chloride CO O o 0 0 m r rn m ;0 U U O 0 2 t U • U S. - n ▪ o d U < I Q o Q H2 C:CHCOOH a 0 Z U r 0 0 O N- 0 0 O CO 0 CO 0 rn COOH(CH2 )} COON CH2 = CHCH2 OH Z Z O Q 0 E E Q Ammonium Ct. :L 2 d z, AL 4 0 N 0 N 0 N O N i K N IX N w N K N z 0 0 0 0 v v a O o d O O o 0 v v v d O V 0 O O O O o O. co co cc co m d U O O O O O O CO N of CO U U Sulfate (Alum) AINH4 (SO4 )2 12H 20 O O O a Aluminum Chloride Aluminum Fluoride sat'd Aluminum Hydroxide A103 03H2 0 a 0 N Aluminum Nitrate AI(NO3 )3 09H2 0 Aluminum Oxychloride O v co 0 cc O N N N 0 v CO 0 O Act z co o O co V V V O O mz z m O O O O CAO z O N Aluminum Potassium sat'd Sulfate (Alum) AIK(SO4 )2 o12H2 0 Aluminum Sulfate E 7 0 0 o O O O O O N O v a a Amonia Gas Amonia Liquid 2 z Amonia Acetate NH4(C2 H3 02 ) LE. Li Li E F mum Operatic ci U 0. O U Amonium Bifluoride 0 O O N 0 O N CC Amonium Bisulfide Amonium Carbonate sat'd (NH4)HCO3o (NH4) CO2 NH2 O O N z CO N- N N M N- Amonium Chloride 5 C) Z Amonium Dichromate -- Z M 5% - O co • N 0 o 0 o o O a a • a d O CO O 0 N Amonium Fluoride Z 0 Amonium Hydroxide 10% O 0 O 0 N O 0 I 0 N 0 O (0 z E c Z Q O N K N O N CC N 0 0 0 v O O v v N O co 0 N O roN Amonium Nitrate Amonium Persulphate M N 0 0 K 0 0 0 V V V CO a.. r r r r -- u. w C O p O N O N a N CC N r r , CC N 0 O O O 0 CO v a a , , F w a v a a a , U 0 o O u 00 CO m (0 U d U) 0 o 0 N U Amonium Phosphate all 0 0 0 Amonium Sulfate Ul o J ON 173 � Amonium Sulfide m 0 N Amonium Thiocyanate 50-60% CO CDr 0 ce CH3 CO005 Hn M N 0 U Z 0 O o 0 V K U r U o o CO N it CO o O p O O U a O a 0 O N N- N- Z z z 0 O n -Amyl Chloride CH3 (CH2) 3CH 2CL N 0 c Q Q 0 U N Z 0 O z Z Aniline Chlorohydrate -- m 2 0 Co r N- o O O K U • 0 0 0 d O O 0 a O O o z U n U n 0 0 d O CO v m Z CoCO N v Cr N O 0 z 0 a z N 0 a CO N 0 0 V CO > O O O 2 O O • z CO CO CO N CO n d Aniline Hydrochloride sat'd C6 Hs NH2 oHCI Anthraquinone C6 H5 (00)2 C 6H5 Anthraquinone Sulfonic Acid 014 H702 0503 Hoa H 20 N d Q Antimony Trichloride s z (Nitrohydrochloric Acid) CO Arsenic Acid H3 As04 o1/2H 20 Aryl Sulfonic Acid Ta .c Q 0 m K N 0 v 0 V 0 N Barium Carbonate O U CO N N 0 V 0 N 0 V CO N M N O Barium Chloride 0 O U m Barium Hydroxide O m 0 co N a- 0 0 0 CC 0 O o QC 03 O O CO O O O OOD 2a V V K N r co , d' (O Cr r 'i K N 3. G O N 0 co 0 N a , , CC N , CC N , , 0 C.- 0 0 0 0 0 Cl 00 d a v v v 0 z U 0 O 0 O 0 0 O co y0 0 O c) K r r O CC r M O O O O 0 r K 0 0 o o O CO 03 CO M co co r r r Barium Nitrate O z m Barium Sulfate Barium Sulfide w 0 0 0 Beet Sugar Liquors CO 0 N Z Z Z Z Z Z a) O r O in a)i a) a) O g 0 C C V) N ±n2 in C N C D m U m 0 m Q 0 a 0 N m Benzoic Add O O co Benzoyl Chloride 05 H5 CH2 OH C, N- 0 a i 0 0 ,t O Na3 Ba 07 o10H2O Z O O O r a Z Z Z Z O N O N O co O CC N CC N i CC N , O O a v 0 Z Z Z Z N N O 00 O O V V p c m O Z U Bromic Acid Z M n Z 0 op a o n o o a o > > N a) 0 E n I m CO Z a Bromine Water Bromotoluene C6 H5 CH2 82 co N- CC CD 0 0 r— o co co co H2 C: CHHC: CH2 70 • CO 0- .21 co • I 15 co co a) co CH3 COOCH (CH3) (C2 H5 ) 00 CH3 (CH2 )2 CH 20H Co Butyl Cellosolve HOCH2 CH2 OC4 H9 n -Butyl Chloride o LTJ o \0 - CH3 CH:CHCH3 sco M r N- O N O CC N C CH3 CH2 CH2 COOK 20% O CO 0 z M r Z 0 0 O co O co O co N N N a OD Ji i i fn Cadmium Cyanide Calcium Bisulfide Ca(HS)2 o6H 20 Calcium Bisulfite 6 U) m O Calcium Carbonate O O 0 0 0 0 O O V co V O CO Calcium Chlorate Ca(C103 )2 o2H2 0 0 in Calcium Chloride O 0 O O 0 N vt (0 N a O O 0 0 0 v r Calciuim Oxide 0 0 0 00 O CO Calcium Sulfate 0 U o m • N Calcium Hydrogen >100/ 0 a N CO r r M r z L E 0 O S 0 O N 0 O O W Cane Sugar Liquors M r z v 0 O CO Carbon Dioxide M 0 0- o z O CO O O a U `,13N- LL ❑ N O 0 YO a N r\-1 o O m d Z o. O O o o o L.) U v Ti- U 1 r 0 i ro ro m 0 U Z Z 0 N Z Z m U O U Carbon Dioxide m O Carbon Monoxide O U Carbon Tetrachlori U U 0 0 U Carbonic Acid O m 0 m Caustic Potash 2 O Caustic Soda O z (Sodium Hydroxide) 0 N U O 0 N cO co r N- 0 M M 2 0 r- z N O TDO 0 CICH2 COOH Z Cellosolve Acetate CH3 COOCH2 CH2 0C2 Hs m Q Chloral Hydrate CCL3 CH (OH)2 N Plastics at Maximi U i M CO r r n o o a v Z o _0 0 U n O n U I Z O N CC N Z O M O O M U r U g U Z r °. N- r n Z Z Z Z U U Z 0 U o in CO m Z z 0 0 Cl <V 0 m 0 0 0 2 N Q O NN 0 d NN d O� d J O d U) 6 N u = N E N N N P2 Uv c c • O o `o L S t U L L L U Z Chlorinated Water O U z 0 0 O A N A CH2 CICOOH N Chloroacetyl Chloride - 0 0 U 2 U U O U o 0 U r CY 0 Z 0 O I -- CO CO Z z oo- ❑ J Chlorobenzene U S U coN 0 U Z Z Chlorobenzyl Chloride - O CICS H4 CH2 Cl at Maximum 0 M N- 0 o O o 0 W K O Llf2 Z Co U r Ci N O N v0 N a Z r d' N d' N O CO O r i I Z O M 0 O Lu O IC i r U r d el Z Z N. a Z Z U aon V Z r 0 U Z a =CT o- Chloroethanol 2 0 o U = U 0 N CD Chloromethane C 0 `o Li t U U U Chlorosulfonic Acid O CO ct (0 Z Z M co co co N- r N- r O N O N O N O N O N O N O N CC N K N K N N CC N K N CC N Z co r M Co Co N- N- N- m 0 ? Z M Co M N- r r 0 co 0 0 U Z Z Z O 0 0 0 0 0 0 0 o o u> 0 0 0 N N N N Co V N 0 O i M M r r O N O co co o co cam. N NCCN CL N 0 N O O a CC N r M co r N- 0 0 v v d M a N - 0 O 0 a. CoU `O V 0 V U v o 0 O A E E 0 U Potassium Sulfate CrK(SO4)2 o12H2 O D N Co O C0 0 U s O Cod Liver Oil 0 a) 0 U 0 Co) t -- CO M M N. N- CO M r Coke Oven Gas Copper Acetate 0 0 O 0 U_ Ci 0 Copper Carbonate 0 U U 0 O 0 v Co r Copper Chloride 0 0 U 0 0 O co N- 0 N Copper Fluoride CuF2 021-12 0 O 0 v 0 M Copper Nitrate 0 0 K 0 F O o 0 0 0 a O - K .�- O U 0 0 0 0 O V d d V i o en o 0 a N n v a m > O 0 0 N 0 O v m U m w (-) m a N 0 O LL r r Q 7 0 U 0 Cu(NO3)z o3H2 0 0 Copper Sulfate CuSO4 o5H2 0 U 2 J Cottonseed Oil 0 0 0 0 • N- O U 0, n 0 0 0 0 N O O V O K cep K N M O r- z 0 0 0 m = 4 En ▪ 0 U >, aoi a', 2 U U 0 0 Croton Aldehyde CI -13 CH:CHCHO 0 Q J O t7 • N- CD U 0 O U N Cupric Chloride Cupric Fluoride 0 0 Co r O a o 0 0 o a U a O r • co d v Z n O • K O op 0 • N 0 Z O M • n 0 0 0 0 K a v > O O 0- m Z Z Z CO 0 0 2 00 r U Z Concenrralon 0 ca E V n O Cupric Sulfate CuSO, o5H2 0 Cuprous Chloride a) C X 0 U u U U S U 0 C X 0 L U 0 = U 0 I Cyclohexanone 0 O m v O O O co CO U T N j 0 C O O T C o_ m I m o X N N N U 0 0 (Starch Gum) 0 U 2 0 Z Diacetone Alcohol 0 CHa COCH2 C(CH3 )2 OH Z Z Dibutoxyethyl Pthalate C6 H4 (C0002 H2 004 Hg )z CO n-Dibutyl Ether 04 Hg 004 Hg N- Z CO N Z Z Dibutyl Phthalate C6 H4 (C0004 Hg )g mum Operating. Temperature M r- 0 O a , 0 0- PVDF PEX O o O O O yO O O o O CO U. U r , CC m U U, 0 O O «O W O N O O K r CY a it N CC N Z Z CC -1- Z O 0 a U z Z CO O O O O M O p O 0 0rt- au. r U r U r r V V r U M O M O i r Z Z Z N r O N O N N n U O O 0 U Z Z U CO Z Z CO v, 6 0 O U U U O N 1-'6 o co o O cn — O >. Dichloroacetic Acid 50% Dichlorobenzene Dichloroethylene U U D Q J Diesel Fuels Diethanolamine Diethylamine Diglycolic Acid O(CH2 COOH)2 Dimethyla mine 0 0 'Cr 0 U g2. r- 0 0 co U 0 J N CO Diphenyl Oxide 0 U O V Disodium Phosphate M N- 0 Dishwashing Liquid 0 V) U Z Dow Therm A CO r_ 0 0 0 0 0 O O N O Z CO r- 0 0 U Z Z a� 02 0 10 0) 0 c co C L L W W C0 0- 0 0 0 O ¢ v n CH2 :CHOOC2 Hs r 0 O 0 O 0 0 Ethyl Benzene 0 0 m U r2 1 K O N O N N CC r Z _O Co o 1 Z Z z Z O U N- Z Z Z C = C O ▪ U L = U di U 0 U C Co O' CD Ethyl Chloroacetate CCH2 CICO2 02 H5 Z Z Z Ethylene Bromide BrCH2 CH2 Br 0 U Ethylene Chloride CL U j num Ooeratine Te m 0 0- Ci CICH2 CH2 CL 0 0 13 0 0 0 O O N O O U CC � N O N CC N O N CC N O O 1 it)LO M Co M O O U ^ N- N"' M M 9 O N 9O Co O ^ ^ U N U N O O Z1 Uco Z n Ethylene Chlorohydrin-- 0 Q J CICH2 CH2 OH Ethylene Diamine NH2 CH2 CH2 NH2 0 Q a J 0 0 0 L 0 a c >. 2 it O Ethylene Glycol CH2 OHCH2 OH 0 C N L T W N CH3 (CH2 )3 CHCS H5 CH2 OH W 00 Ferric Chloride 0 Cr Q N LL Ferric Hydroxide cc Ferric Nitrate Fe(NO3 )3 9H2 0 coo O 0 Ferric Sulfate 0 O cc LL 0 0 E v F c Plastics at Maximum 0 a: o O O O 0 0 a a a d V LL, 0 N 0 N i N CC N CO o - o O d 0 a 0 0 d a v c 0 O U 0 Co Ferrous Chloride 0 LL Ferrous Hydroxide 0 LL 0 v 0 CO Ferrous Nitrate 0 z d LL 0 a 0 CO 0 Co Ferrous Hydroxide 0 LL Ferrous Nitrate 0 z LL co 0 v 0 0 00 O Co Ferrous Sulfate 0 N LL M N 0 CC 0 N 0 N O N CO 0 0 CO Ferrous Chloride N N m LL o 0 v a 0 0 • V 0 N U Co N co N Fluoboric Acid o 0 0 w 0 O N O co U N 0 O CO CO N Z CO N Fluorine Gas (Dry) 100% LL C 0 ics at Maximi a Z a U a z M N P. 0. Z ✓ a. M U N Z Fluorine Gas (Wet) U- O N O N O ? O N O N CC N CC N O N I N 0 O O v O 0 0 0 N O O O N M V � Fluosilicic Acid 0 O 0 O O O 0 O 0 0 0 0 ▪ CC v 0 v O N N I 0 O d CO N M O O O M O co r O n O s 0 N O N Formaldehyde 0 S U 2 0 0 (0 co Z O N O N O tp O N CC N N CC 0 0 N 0 O o in r 0 O o O o O M M N '. d' N CO of Formic Acid I O co LL N = U Li F ximt m ()Der a d O , O O O CO O O p i n 4' ( U t- 0 N N NJ - al b O z CO N- C) n N O Z co 0 O O O co Cr O U 0- N CO N N Z Z Z 0 r)c') co co U N N N N o 0 0 0 z a o a Z Z Z Z Z 3 O O N N o Y .8 o a o "O - o o O y O O O O j O V 0 =0 a N o LL N a) 0� 0 Q I LL: N O N O �_^' O 0 O U O O U 2 .0 S - N U 0 2 N S N U E U 2 2 CO U °' 4t) tl 3 LL. U LL 0 LL U LL U ll U U LL U 0 06 H2 (OH)3 CO2 HoH2 O Gasoline, Leaded* Gasoline, Unleaded* Gasoline (Fuel) 0 0 CipCO0 U u F 0 E ro U a a a O n LU d m d C- U a 4 U d U 0 01 C 0 vc • cc z Z z Gasoline, Sour* o 0 v O 0 cc N 0 I 0 0 v a v O V 0 if N O N N N 0 0 CO 0 0 N V c w 0 O CD C7 Cs Hip 06 OH2 O O 0 N Q o a 0 0 if a 0 O if n N- 0 o o U m CO a) 0 J TT CD Co O C7 OHCH2 CH2 OH O N O p O N d N d a Cr N 0 0 ro 0 CO O O D o a a Y @ CO O N O O (0 a O 'c.a.- ' `o Q OU 0 = Q = 0) o U 0 U a a m aa) ) i U O 0 O 0 C9 C9 CD n Co N 0 ho N 0 K Z O d. crU c0 0 M r c M d N Q N O O N O N Ct N N d' V a CO N 0 d a Z 7▪ 3 _ 1 co E c Heptane (Type 1) Co N Co N Co N U 0 o- 1.71 J , J x U a) N = O O O 0 0 0 CH3 (CH2 )a CH2 OH Co N Co Z oC r- 0 0 j 0 20 2 N Z 0Z a I _ O N O L O N CC N 0 ▪ d- ' N O CO N N N 0 N Hydrobromic Acid 2,5 2 Z 0 (0 (0 Hydrochloric Acid 2 O N O N O N • N C N CC N 0 0 0 0 0 Co Co O 0 0 U O N 0o*- 0 0 o - N M LL Plastics at Maximum 0 w 0ov a a N 0 O co O co O N O N O N O , K N K N ccN K N cc N CC 0 0 0 0 0 0 V V V N V U O n N co N- r - c0 r 0 o M a m a U U r N Z .9- 0 g0 U Hydrocyanic Acid Z U S Hydrofluoric Acid LL 0 o 5 N 0 r K N Z O U � Z Z 0 0 0 0 0 0 0 0 0 0 0 0 ca V N (0 r -- CD Z 0 0 Hydrofluosilic Acid 0 O 0 O 0 co coco0 N n Hydrogen Cyanide Z U S Hydrogen Fluoride co r O a cc 0 0 0 y M a N- O N O N O cc N N CL Z Z O O V M 0 I-- U N- CD M r C 0 v O M Hydrogen Peroxide 0 0 0 0 0 0 0 0 0 M N 0) m 9 L a N O L d to — O 0 o a M _ a 0 0 o a O m cc N O 0 00 0 CO cc N 0 0 Hydrogen Sulfite 0 N S O 0 0 v O 0 O M N- CO - 0 0 oo N of N- N- Hydroquinone (NH2 OH)oH2 SO4 Hypochlorous Acid O c U 0 S Y c LL Ca a Y a LU LLU o 0 U p o co a r a 0 ti]a U N U Z C1 M r r U O co N- U a.n N 0 o Z U N 0 U ▪ U N a) o C U n o LL Isobutyl Alcohol (CH3 )2 CHCH2 OH M r- 0 0 U N (CH3 )3 CCH2 CH(CH3 )2 r Z Z Isopropyl Acetate CH3 COOCH(CH3 )2 0 N U N v Isopropyl Alcohol N- r Z en 0 U Z Isopropyl Ether (CH3 )2 CHOCH(CH3 )2 0 CO U r U N M 0 0 U O U V O en • r 0 U v N N Z M • o 0 0, r U U r 0 U N N en r Z Z 0 U 0 N 0 N a) N J ] ] c a (.0 o LL Li 0 c a) ✓ L') 2 0 0 a d Y Y Y CO Y w a 0 i d 0 O Nt 0 0 0 d d U o o O O N X N O o O O O co NI- d U r v N- 0cO a N O O O O O o 0 V N N O NO O N CC N K N O 0 O co • 0 0 co U c c r m M N- 0 0 Z O 0 0 0 O O n O N N CO 0 0 U CO J CH3 CHOHCOOH 0 J La uric Acid CH3 (CH2 )io COOH Lauryl Chloride U 0 O 0 Lead Acetate Pb(02 H3 Oz ) o3H2 O Lead Chloride U m a Lead Nitrate 0 m a Lead Sulfate 0 U a O v CHS (CH2 ), HC: 2 U U_ 0 CH(CH2 )7 COOH M N rn O N 0 N 0 •a- 0 O 0 U -O a) a) N N J O 0 0 J C T C Q J H J LI - CV Lithium Bromide m Lithium Chloride 0 J 0 Lithium Hydroxide 2 O J O M O O N- - a U u O O Q 6 r r O O O a U r U F > 0 u 0 U W O. Concentration Lubricating Oil M N- O O # N c It c— It • U 2 co U 2 CO - O I— d N a 3 ? 3 O N O O O N K N L r d' N O V N N 0 N Magnesium Carbonate O 0 O O O r Magnesium Chloride Sa LO O O N N N O O O CO CO CO Magnesium Citrate MgHC6 H5 02 o5H2 0 O O O O Magnesium Nitrate Mg(NOa)2 o2H2 0 Magnesium Oxide 0 O V W O CO Magnesium Sulfate MgSO4 o7H2 0 O Q a) To To HOOCCH:CH000H Plastics at Maxim 0 0 i N X O V 6 U 1 U O v O N K N 0 C or 0 O O W 0 O o 0 v O 00 K N 0 0 U o -o C U 4 L Manganese Sulfate MnSO4 o4H2 0 C co coco Mercuric Chloride Mercuric Cyanide z U Mercuric Sulfate O Co Mercurous Nitrate HgNO3 o2H2 0 N M N Z 0 O O O Co Z U) O J co CO U o = N 2 co 2 U 2 (Methyl Alcohol) 0 0 CZ a d O 0- M N- Concentration 0 0 0 0 Methoxyethyl Oleate -- CH3 OCH2 CH2 000012 H33 0 U 0 U Z Z Z Methyl Acetate CH3 CO2 CH3 Methyl Acrylate CH2 :CHOOCH3 CO co r 0 0 L 0 0 0 CL Co CtU 0 U Co Methyl Bromide 0 0 0 0 0 p 0 0 0 U 0 Z CO O 0 0 0 0 0 U 0 r 0 Z Z Z Z Z 0 CO CO Z U Z Z Z Z Z Z Z Methyl Cellosolve HOCH2 CH2 OCH3 r 0 Methyl Chloride U S U Methyl Chloroform U 2 U Methyl Ethyl Ketone 100% CH3 COC2 H5 co U X o 0 0 0 0 i Co n U Z U 0 0 co 0 0 (13 U CO v E- ,_ n CD a a U Z U co Z Z Z n Z Z Z Z E E 2 d n U n Z Z Z Cr) V Z Z Z Z r Z Z Z Z m a 0 U Methyl Isobutyl Ca U (CH3 )2 CHCH2 CH(CH3 )OH Z Methyl Isobutyl 0 a) (CH3 )z CHCH2 COCH3 Methyl Isopropyl 0 m CH3 COCH(CH3 )2 Methyl Methacrylate CH2 :C(CH3 )COOH3 Methyl Sulfate 0 ;Y. S U Methylene Bromide Methylene Chloride 100% U S U Methylene Chloro - Methylene Iodide a Methysulfuric Acid E a Y i 2 0) a • O VO (0 0 0 d Ur - O 2• O N 9O N O. C N CC N 9 OV a 0 N O U 0 2 0 0 3 0 ow. K U r U 0 0 O O a v a a a Z 0 ca 0 M • N U a o a r 0 > o o o U m 0) CO Z N 0 0 b !J M r 0 12N a) N 0 0 N Monochloroacetic CH7 CICOOH Monochlorobenzene Tech Z 8 o 0 a 0 CO O y N Y U U Monoethanolamine HOCH2 CH2 NH2 G 1" Z t O O o_ Z O o 2 U Mustard, Aqueous N -methyl Pyrrolidone 100% 0 0 U O N CC r co co to r r r M r Z a C) C') r N Z N C) C N m (0 L 2 O_ Z 03 Z S C) r Natural Gas 2 p o o o o o o O d U U v U U o N � N 0 0 d Nicotinic Acid Csh4 NCOOH a U Q r 7 N O N o (Y N c N cc Z2 Z 0 r- CO 0 O M U N o N N N o 0 d d O o U N Z Z Z 0, r M r- 0 U N- 0 0 0 01 d N- Z 0 p o 0 0 Z Z Z 0 0 0 0 p p N O N O O CO M d N O co N O N CO 0 U O -o U co • = Q 0 U U = N Z c 0 0 CH3 (CH2 )7 CH: CH(CH2 )2 COON z Z Z Z Z Z E N O X H2 SO4 Oy$O3 o m N 0 0 0 CO CT. n O (0 0 V o > 0 o O o O CL U co O 0 O O 0 O N O N CL C' N U 0 o U 0 0 0 CD 0 0 0 0 N Oxalic Acid HOOCCOOHo2H2O 0 0 O co 0 CO N- 0) co U _ C Q U) 0 Z 0 E 0 0 0N 0 a O O 0 0 O CO co Co C1 r N Pa lmitic Acid CH3 (CH2 )14 COON O N CC N 0 o 0 0 O co O N 0 0 U 0 o U Z 0 0 0 0 0 CO O CO O CO CO CO N Z Z c 0 2 = C 0 0 co 0 a m CO a) C CH3 (CH2 )3 CH3 Peracetic Acid CH3 COOOH LL 0 N 0 i CC N K N 0 w a i u (0 ? � r 0 a v a U Ca V U 0 0 E o C O n U LL Perchloric Acid a O F— U Perchloric Acid 0 U coo z O M 0 O Perchloric Acid n F 0 O 0 U O 0 U r Z Perchloroethyiene M r 0 r Perphosphate 0 N Petroleum Ether 0 o 0 m o o 0 o CC N K a 0 O 0 O , oN O a 0 0 O O O N N (0 m 0 0 Phenylhydrazine S U N 0 E a d U U Co cz ranon Phenylhydrazine Hlydrochloride o U o n O N O N O d O N c N c N U N d N 0 O M d d r -- CO O CO Phosphoric Acid CO ^ • a o O N N CO )n ^ m rn O CO O N- CO ^ r r n M M M ^ ^ Phosphoric Anhydride - O d Phosphorous (Red) 7 Q J c ID l N G O O O L L O. O. CO CO o o L L a a N a O T x 0 Phosphorous Pentoxide 0 U Z cO ^ Z N N 7 O N O LO a O V1 L O U a= I- o' 0 d Photographic Solutions U Phtalic Acid o c� 0 ccoo , 0 0 v � 0 N Ory Ory VO N K N L N CC N CC N O O 0 0 0 0 0 CO CC O O O O r O r O r O N a U o • > v a a O. U U 0 0 0 U S U en O O O O r N Z M r- 82 0 0 0 0 10 a C6 H2 (NO2 )3 OH 0 0 a 0 0 21- 0 CO Z C a Plating Solutions U) C 0 N 2 co 0' E cn C A I CO CCI Cl. U 0 OD Plating Solutions E O U 0 CO Plating Solutions o 0 ✓ v o o V d 0 o co m Plating Solutions co C 0 0 CO CD o • C_ O N 0 Plating Solutions U z 0 d 0 0 0 d d a w 00 N 0N 2 N 2 N a K N N ▪ N N LL 0 0 0 en 0 0 m a U • U N- U r U r E 0 0 0 o O w d d d d a a V 0 0 0 0 a d d d d 0 0 0 0 a d d d d 0 > o CO u v Plating Solutions E 0 Plating Solutions m Co Plating Solutions H 0 CO Plating Solutions N a 0 Q c (o I a O 0 CO Potassium Alum ALK (SO4 )2 o12H2 0 SO M U N 0 0 0 m Potassium Aluminum cl r Potassium Amyl 0 0 CO m Potassium Bicar- Potassium Bi - v co • O E O U o • Y o co Potassium Bisulfate -- U 3 v E v F c CO d C E c. a. O O N Cr N VO N O N K N K ‘C-‘1 o o V a 7 r0 v U 72. s C E Potassium Borate K2 B4 07 o5H2 0 O O N N Potassium Bromate O co K N Z 0 N Potassium Bro 0 O a, Potassium Carbonate -- O Y z 0 N N O CO O Co Potassium Chlorate KCIO3 (Aqueous) 0 O N N Potassium Chloride Y 0 Potassium Chromate - O 0 0 O Potassium Cyanide O O CO N E con E O w o Z CO = 0 • U d o Y r Potassium Ethyl V 0 O O CO O N O V O O O O N 2 N U o d' CL O C 0 O cc N N • n a E E E to h > U - N u Co E ` m O U b u°. ti Y d Li. K4 Fe(CN)6 o3H2 0 Potassium Fluoride Potassium Hydroxide 4% 2 0 O O O 0 ▪ O N CC K CC N O CO O CD O O N • N O N N V Potassium hydrogen 10% 0 0 O m O CO 0) N 0 N N N E o w 7 L V L N O a m a O cn d i Y 0 CO N cc N Potassium Iodide Potassium Nitrate O N O v Plastics at Ma Concentration CD O N N O •cr - r r o O O co r- en M N- r- 0 o 0 co co ON ON O Z E 0, O a Orthophosphate E 0 y O m Y d Permanganate O E a Potassium Persulfate -- m O O CO O O Potassium Sulfate 0 V) O COCO 0 Potassium Sulfide O Potassium Sulfite K2 SO3 o2H2 0 O cc N M O M N- N - 0) C d O a 0 2 a 0 0 Q 0 O 0 O 0 0 z 0 U o co r- 0 0 W N • CO I I N O Z ? n 0 0 0 0 20 0 s. a m a v Z U - i j o 0 co U z U N Z Z Z Conccnnat ion Propargyl Alochol HC:CCH2 OH Z Propionic Acid CH3 CH2 CO2 H CO N- CH3CH2CH2OH Propylene Carbonate 10031 Propylene Dichloride 100 CH3 CHCICH2 CI Propylene Oxide CH3 CHCH2 0 2 c o d Z Pyrogallic Acid I O d 0 = c 2 U U U 0 Rayon Coagulating Z co Sal icylald ehyd e Cs H4 OHCHO C6 H4 (OH)(COOH) d a a O O M N- 0 N O W 0 Sodium Acetate Sodium Alum AINa(SO4 )2 o121-12 0 O V Sodium Aluminate 0 CO N N F c 0 0 4 U O O N O N O N CC CO D' N CC N N Sodium Benzoate C6 H5 COONa 0 O r O v N 0 O O 0 C 03 03 YO N N Sodium Bicarbonate 0 I Z O o 0 O O O V N N Sodium Bichromate Na2 Cr2 07 o2H2 0 Sodium Bisulfate 0 I Z O co O O O O co co Sodium Bisulfite O V I Z Sodium Borate X 0 0] Na2 B4 O, o1 OH2 0 O r M r O m Ln M O Sodium Bromide m Z Sodium Carbonate O 0 Z C. O 03 Sodium Chlorate 0 0 Z V m E 0 F Plastics at Maximum Ooerati O N O N N K N 2 C, N- O o co O N O n N U h .L2 LI V C o n o Sodium Chloride 0 co Sodium Chlorite 0 0 co Z O cO Sodium Chromate Na2 CrO4 of OH2 0 0 0 0 0 0 O N � N o o 0 a a 0 0 0 cc O Sodium Cyanide 2 0 2 O cc Sodium Dichromate 20% Na2 Cr2 O, o2H2 0 O Sodium Ferricyanide Sa Na3 Fe(CN)6 o2H2 0 0 O 0 O CO Na2 Fe(CN)6 o10H2 0 O N ‘• C•1 - N Sodium Fluoride m 2 O N N Sodium Hydrogen N L a N o 0 a Sodium Hydroxide 0 Z O 0 2 0 O 0D 0 • N N N ro u E 'EL" E X 5 U m a O 0 CC 0 0 i Z O 9 d a o Z u > O U oo 00 m U 0 0 0 0 0 O O O O O CO 1� O N Sodium Hypochlorite O N O CC N CC 2 N NaOCIo5H2 0 N 0 O N 0 0 CO CO Sodium Iodide z Sodium Metaphosphate 0 z O N cc N 0 O O O CO Sodium Nitrate 0 z co z 0 O N CC N O d CO N 0 O Sodium Nitrite 0 z Z Sodium Palmitrate CH (CH2 )14 COONa r-- n Sodium Perborate NaB02 o3H2 0 :L a d X a U. C i w U j 0 0 0 0 0] d d d d d O O 0 O N O d d d N d v v o 0 0 0 0 0 d d d d .1- N N N O 0 d d d d N N N N 0 0 0 d CO CO a N U o > 0 CO 00 0 0N N 0 00 0 a Concencrat ion V �d E u a E E U LL Sodium Perchlorate -- 0 U m Z Sodium Peroxide 0 m Z Sodium Phosphate Acid 0 a Z O 0 O N O N C CC N CC N Sodium Silicate 2Na2 OoSiO2 0 N N a N N N N 0 O W 0 0 0 O co co co m Sodium Sulfate O Sodium Sulfide J V) E 0 0 CO o CO Z CO Z Sodium Thiosulphate -- O cc K N Na2S2O3o5H2O Sour Crude Oil 0 0 0 a a a 0 0 0 0 a a 0 0 o 0 co 0 v uo N Stannous Chloride U Z N U Ct Starch Solu 0 U 0 N 0 M r 0 00 Stearic Acid CH3(CH2)15COOH 0 O 0 N- Z Z Stoddard's Solvent r - (1) N C T 00 (C6H5CHCH2)n 0 Succinic Acid CO2H(CH)2CO2H U 0 W 0, 0 Sulfamic Acid 2 Z 0 N 2 0 0 N 0 0 0 J 0 CO 0 CO Sulfite Liquors 0 0 0 0 co C 00 Sulfur Chloride U Ct Z Z N Co r z o 0 o v O co O N O co CL N N N O O O N O N 2 N 0 0 0 CO $ CO ▪ U r U r U r Z 0 U Z Z Z Z Z O O G �O o 0 o O 2 M C M 0 • N a' N N U r U r U O O O O O 0 O O co co r r • V `� r r Z Z Z Z N U 0 0 Sulfur Dioxide O 0) Sulfur Dioxide CC CO 00 O O O m r r r r U CO U r U 0 0 0 0 0 0 0 0 Z CO m m m m m Z m U C 0 Sulfur Trioxide O Co Sulfur Trioxide Sulfuric Add O Co CO 9 CO O O 0 0 r O r O^ U r U r Z Z Z 0 rn 0 O 0 0 0 0 0 0 0 0 0 0 0 0 0 CO v 0 CO N CO r N 0) 0) 0) imum Ooera 0 - CD a. w 0 0 0 CO a M O r O N O N c N N O o 0 0 a Co O 0 M O • v 00 N- 0 a > O O O ro U 00 m Concentration Sulfurous Acid 0 0 Tannic Acid v 0 U O O CO O • N z z CO O 0 Co 0 0 0 m Tanning Liquors m F - Tartaric Acid HOOC(CH0H)2COOH (n O o 0 O 0 Tetrachloroethane O z z 0 c s m U I0 UE U U 0 m U I m N U H U CO z 2 co U °O 9 Co r- 2 M r c c O 00 n z z Tetraethyl Lead x U a Tetrahydrofuran O I U E H c O E 0 U Z O of Tetra Sodium Pyrophosphate N94Pzo7o10H2O Thionyl Chloride 0 0 N Thread Cutting Oils Tin (II) Chloride O N C Tin (IV) Chloride N N U N Titanium Tetrachloride H Toluene (Toluol) 2 U U N Tomato Juice O O O O N Transformer Oil Transformer Oil 0 M W F- 0 0 K N r M O O O N U a Tributyl Citrate Z Tributyl Phosphate O a 2 0 d d , ;< 0 0 w v v LL p O O. 0 o 0 d a a U o a 0 U U m C , Concentra io n 0 0 0 0 Trichloroacetic Acid 0 0 0 U U 0 Trichlorobenzene N N 0 Trichloroethane O O c°0 o co 0 O m Z O O U Z z Z Z Trichloroethylene M ^ • ^ U N Triethanolamine (HOCH2CH2)3N N Z Triethyla mine Z x U 0 0 0 Trimethylpropa ne O (CH2OH)3C3H5 O 0 U 0 a 0 O U 0 0 d 0 0 0 v 71 - CO N Trisodium Phosphate -- NaPO4o12H20 Z Z Z m O CO m O N O • N 0 S z_ 0 U 0 LO (Petroleum Jelly) o d K O m w N 09, 0 CH3COOCH:OH: 0 v 0 v N- 0 0 0 0 o o v a O o 0 0 N C_ a a t O Water, Deionized 0 rn 0 rn 0 co 0 co N N m o o o 0 0 0 0 N N Water, Distilled 0 N O CO 0 0 Water, Potable 0 O ° N 0 0 0 0 0 0 0 0 0 0 0 0 0 co Water, Salt 0 0 CO r O N cc N 0 0 ca a) m < (/D co0 m O m 0 m 0 r d U rn r, o d Z LL ❑ 2O o 9 N 0O a d' N K <N U a. m Z 0 0 F u d Z e i C o 0 O d v Z o'. co L y > 0 o u m ro Z n a co Cl M n Z 2 r , 0 U 0 N = — Q 9E a J N s c L 2 h o. N D CO Xylene (Xylol) O x 0 0 O N N O N O N O N O CC N CC N N 0 0 0 0 I � O O O O OD CO ro CO Zinc Acetate Zn(C2H302)2o2H2C Zinc Carbonate O O N Zinc Chloride 0 N n O Zinc Nitrate Zn(NOs)2o6 H2O Zinc Stearate Zinc Sulfate ZnSO4o7H2