Sheet Ingers 11-Rcand Single-Stage Horizontally Split ... · Classes UV, AUV, ALV, AFV, LFV, HLV,...
6
Cross section of 6ALV pump. Other sizes are of similar construction. (P-L Ref. 3100.) Sheet 42 Classes UV, AUV, ALV, AFV, LFV, HLV, CFV, SM Single-Stage Horizontally Split • Ingers 11-Rcand Centrifugal Pumps INGERSOLL-RAND UV, AIN, ALV, AFV, LFV, HLV, CFV and SM pumps are single-stage, cen- trifugal units of the horizontally split, volute type. Usually the rotor is mounted on ball bearings, but spherically-seated sleeve bearings with a Kings- bury-type thrust bearing are also available on the larger sizes. These pumps are thoroughly modern, embodying new features of design which increase efficiency, insure reliability and lower maintenance cost. They may be used with any type of prime mover. APPLICATION These pumps are designed for general hydraulic service at low and medium heads. GENERAL CONSTRUCTION Casing is split on the horizontal centerline. Suc- tion and discharge nozzles and the pump feet are cast in the lower half. Side suction and discharge is standard, except on the 10SHV which has bot- tom suction and discharge. Bottom suction can be furnished on most of the larger sizes. Rigid Shaft is of extra-heavy, high-quality, heat-treated, carbon steel. The shaft sleeves are keyed to the shaft and held in position longitu- dinally by external sleeve nuts, secured against reverse rotation. These nuts are packed to pre- vent shaft sleeve leakage. (Sizes 11/2, 2, 21/2 and 3 UV are not equipped with shaft sleeves, but have stainless steel shaft). Pressures: 150 psi Heads: 20 to 350 ft Capacities: 25 to 50,000 gpm Sizes: UV-13., 2, 2, 3, 4 and 5 in. AUV—IM in. ALV-5 to 30 in. ALVS-6 and 8 in. ABV-6 to 36 in. ABVM-12 in. ABVS-10 and 12 in. LPV-8, 20 and 24 in. HLV-6, 8, 10, 12, 14 and 18 in. CFV-2, 3, 4,5 and 6 in. SM-8 to 18 in. Ally-10 in. BHV-8 and 16 in. SHV-10 in. Temperature: 13' to 12-250 ° F max 14 to 36-212 ° F max 12 in. Class AFV pump. Efficient Impellers are of the double-suction (except 11/2 and 21.TV which are single-suction), enclosed type cast in one piece. The impellers are sealed by a stationary casing ring and a revolving impeller ring (UV has casing ring only). The cas- ing ring has a tongue and groove flt in the casing with an offset flange to prevent rotation. Ball Bearings are standard. The housings are solid with bolted end covers, and are bolted and dowelled to the bearing brackets. The outboard bearing consists of two angular- contact type, matched bearings. In addition to carrying the radial load, it is capable of carrying thrust load in either direction. Its position in the housing is fixed. The inboard bearing is of the radial type, carries radial loads only and is free to move longitudinally in the housing to care for ex- pansion and contraction of the pump shaft and casing. Form 100W-7542 10-F4 (R2-E9)
Transcript of Sheet Ingers 11-Rcand Single-Stage Horizontally Split ... · Classes UV, AUV, ALV, AFV, LFV, HLV,...
Cross section of 6ALV pump. Other sizes are of similar construction.
(P-L Ref. 3100.)
Sheet 42
Classes UV, AUV, ALV, AFV, LFV, HLV, CFV, SM
Single-Stage Horizontally Split
•
Ingers 11-Rcand
Centrifugal Pumps
INGERSOLL-RAND UV, AIN, ALV, AFV, LFV, HLV, CFV and SM pumps are single-stage, cen-trifugal units of the horizontally split, volute type. Usually the rotor is mounted on ball bearings, but spherically-seated sleeve bearings with a Kings-bury-type thrust bearing are also available on the larger sizes.
These pumps are thoroughly modern, embodying new features of design which increase efficiency, insure reliability and lower maintenance cost. They may be used with any type of prime mover.
APPLICATION
These pumps are designed for general hydraulic service at low and medium heads.
GENERAL CONSTRUCTION
Casing is split on the horizontal centerline. Suc-tion and discharge nozzles and the pump feet are cast in the lower half. Side suction and discharge is standard, except on the 10SHV which has bot-tom suction and discharge. Bottom suction can be furnished on most of the larger sizes.
Rigid Shaft is of extra-heavy, high-quality, heat-treated, carbon steel. The shaft sleeves are keyed to the shaft and held in position longitu-dinally by external sleeve nuts, secured against reverse rotation. These nuts are packed to pre-vent shaft sleeve leakage. (Sizes 11/2, 2, 21/2 and 3 UV are not equipped with shaft sleeves, but have stainless steel shaft).
Pressures: 150 psi Heads: 20 to 350 ft
Capacities: 25 to 50,000 gpm Sizes: UV-13., 2, 2, 3, 4 and 5 in.
AUV—IM in. ALV-5 to 30 in.
ALVS-6 and 8 in. ABV-6 to 36 in.
ABVM-12 in. ABVS-10 and 12 in.
LPV-8, 20 and 24 in. HLV-6, 8, 10, 12, 14 and 18 in.
CFV-2, 3, 4,5 and 6 in. SM-8 to 18 in.
Ally-10 in. BHV-8 and 16 in.
SHV-10 in.
Temperature: 13' to 12-250 ° F max 14 to 36-212 ° F max
12 in. Class AFV pump.
Efficient Impellers are of the double-suction (except 11/2 and 21.TV which are single-suction), enclosed type cast in one piece. The impellers are sealed by a stationary casing ring and a revolving impeller ring (UV has casing ring only). The cas-ing ring has a tongue and groove flt in the casing with an offset flange to prevent rotation.
Ball Bearings are standard. The housings are solid with bolted end covers, and are bolted and dowelled to the bearing brackets.
The outboard bearing consists of two angular-contact type, matched bearings. In addition to carrying the radial load, it is capable of carrying thrust load in either direction. Its position in the housing is fixed. The inboard bearing is of the radial type, carries radial loads only and is free to move longitudinally in the housing to care for ex-pansion and contraction of the pump shaft and casing.
Form 100W-7542 10-F4 (R2-E9)
ro Ingersoll 1 - Rea n cl 6 11 Broadway New York, N. Y. 10004
Both bearings are mounted in dirt-tight housings, which permit removal of the rotor without dis-turbing bearing adjustment or exposing the bear-ings to dirt or moisture. A positive locking nut and washer secures the outboard bearing against a shoulder on the shaft. Oil lubrication is standard except on UV, AUV; 30 ALV, 36 AFV, 2, 3, 4, 5 and 6 CFV which have grease lubrication.
Deep Stuffing Boxes are provided with water seal cages which are supplied with water from the discharge passage of the pump. When handling hot, gritty or corrosive liquids the seal can be ar-ranged to take water from an external source.
The stuffing box glands are of the two-piece, split type which can be entirely removed from the shaft to give the greatest accessibility in packing the box. A 12 AFV pump on cooling water service at a large refinery.
A 16 AFV pump on condenser circulating
Class 10 AFV pumps on cooling water service in a steel mill. service in a gas company.
©Ingersoll-Rand Company 1966 Back of Sheet 42, Section 7
(P-L Ref. 3100)
Sheet 42A
Classes UV, AUV, ALV, AFV, LFV, HLV, CFV
Single-Stage Horizontally Split
Ingersoll-Rand
Centrifugal Pumps
Dimensions for Single-Stage Pumps
APPROXIMATE DIMENSIONS - DO NOT USE FOR CONSTRUCTION
PumP Dia. of Disch.
Dia. of Suet. A B C D E F* G* H 1 J* K* L* M* N* 0
11/2UV 1 1/2 61/2 31/4 31/4 131/2 1651/46 10 103/46 13 203/46 431/4 161/4 . 6% 11/2AUV 11/2 81/2 4 7% 201/2 231/4 14 1/. 141/4 19% 27 60% 231/4 111/4 2CFV 2 61/4
CO
43% 51/2 14% 18 1/2 12 1% 11% 14 22% 48 1/2 193/4
en 8%
2UV 2 7 31/2 51/4 16 18 11% 103/46 13 27% 50 1/2 19% 81/4
21/2UV 71/4 91/2 3% 5 5% 16% 201/4 131/4 12 3% 15.4 26 547%6 22 3CFV 81/4 9 5 51/4 171/4 20% 131/2 11% 14 25% 51 3% 21% 3UV 7% 101/2 4 1/2 6 18% 20146 13% 12 159/16 26 53% 21%
CU
4CFV 8 91/4 51/2 61/4 17% 21 7% 14 3% 121/2 159A6 3013,46 59 23% 4UV 81/2 11 5 61/2 191/2 21% 14% 141/4 19% 33% 671/2 28%
5CFV 9 6 6 20 22% 15% 14% 18% 29% 62% 231/2 101/2 5UV
LO 101/2
CU
5% 6% 221/2 23% 15% 151/4 19% 33% 68% 26%
CV
12 5ALV 12 6 91/2 27 28% 181/2 16% 20% 30% 67% 28% 14%
6CFV 251/2 17 14% 181/2 33% 66% 26 25 13% 6AFV 311/2 22% 19% 241/16 357/14 79% 32% 30% 15% 6ALVS
01
OD
CO
351/2 231/2 21 24 71/4 38% 85 35% 30%
CO
17 6ALV 351/2 231/2 21 24% 38% 85 35% 30% 17
8LFV 151/2 9 101/2 331/2 341/2 241/2 20 24% 331/2 783/4 35% 307% 8AFV 161/2 91/2 11 341/2 35% 241/2 20% 24% 37 82% 36% 30% 8ALVS
CO
- 18 91/2 11% 39 38% 251/2 23 271 1/46 42% 93% 39% 33%
LO
CO
cn
8ALV 18 91/2 11% 39 38% 251/2 23 2713,46 42% 93% 39% 33 7% 8BHV 20 111/2 14 42 431/4- 28 241/4 . 30% 53% 1081/4 45% 39%
IOAFVS 211/4 11% 12% 411/4 401/4 27% 23 273/4 44% 957A4 42 33% 21% IOAFV , 18 9% 11 37 38% 26 231/4 27% 39 90 381/4 337% 191/2 10ALV 19 11 12 40 41% 271/2 24% 297/14 46% 10011/j6 42 397% 21 IOSHV**
CV
43% 241/2 24 29% 53% 106% 41% 641/2 131/2 IOAHV 2 0 121/2 1i74 44 481/2 32 3% 23% 30% 53% 107 31/4 50 401/2 24 1OHLV 23 12 131/2 '47 46% 31% 23% 31% 56% 111 7% 49 401/2 23
12AFVM 161/2 11 11 371/2 41% 28% 23 273/4 957A6 42 7% 33% 17% 12AFVS 22 13% 14% 46 46% 311/2 24% 297/16 98% 45% 40 25 12AFV
CV
22
CV
137% 14% 46 46% 311/2 24% 297A6 100 3% 46 40 25 12ALV 26 131/2 15% 511/2 50 33 28 34% 116% 50% 40 261/2 12HLV 181/2 161/2 18% 591/2 57 371/2 28% 33% 121% 571/4 521/2 284
14AFV 51% 34% 28 34% 48% 110% 51% 401/2 100 14ALV
03
CV
CU
en 56% 371/2 261/4 32% 55% 114% 573/4 48 110
Cf)
CU
14HLV 59 40% 29 361/4 631/4 1281/2 .61% 521/2 120
16AFV 261/2 36 193% 21% 621/2 63% 41 1% 301/2 37% 55% 1237% 62 521/2 120 331/2 16ALV
LSI 311/2 301/2 151/2 18% 62 62 42% 27 34 557% 1171/2 621/2 48 110 30% 16BHV 401/2 42 19 Y2 21 1/2 82 1/2 73 1/2 49 1/2 36 % 46 71 153% 771/4 65% 133 37
18SM 26 161/2 181/4 59 65 % 44 % 28 1/4 35 1/4 60 1/4 123%
.1. 0
01
CD N
.
48 121 31% 18ALV
OD
-
er C
U
C•1
401/2 191/2 23 821/2 711/2 481/2 33% 40% 711/4 145% 78 132 36 18HLV 45 23 221/2 83 72 48 35% 451/2 72% 154% 701/2 145 36
2OLFV 20 24 31 37 20 181/2 68 683/4 46 321/4 38% 587% 130 65% 58 125 321/2 20ALV 20 24 44 43 22 3% 25 87 76% 521/2 41% 481/4 711/4 1611/4 74 75 155 40
24ALV 24 BO 441/2 47 24 28% 911/2 82% 531/2 36% 461/2 75% 158% 87% 66 145 41
30ALV 30 42 57 60 28 34 117 104 69 441/4 54% 89 187% 921/2 85 190 55
30AFV 30 36 35 58 30 331/2 93 102 661/2 47 57 84 188 115 77% 190 54
36AFV 36 48 42 62 431/2 38% 104 115 74% 50 58% 93% 2011/2 1081/2 85 205 60
All Dimensions in Inches. *Dimensions will vary with size, make and type of driver. **10SHV has bottom suction and discharge.
Form 100W-7542A 8-F5 (R2-E9)
Inge rscol I - Rai n 11 Broadway New York, N. Y.1 0004
Dimensions For Single-Stage Pumps
(Bottom Suction)
0 DISCHARGE-4I —
E T HER ROTA7 ION CAN BE FURNISHED
• SUCTION
• A- 28 77
APPROXIMATE DIMENSIONS - DO NOT USE FOR CONSTRUCTION
PUMP Diameter
A B C D E F* G* H
J* K*
L* M* N* 0
Suet. Mach. Ball &Ff.
Sleeve Brg.
Bell Brg.
Sleeve Brg.
Bell Big.
Sleeve Brg.
BALV 10 8 18 23 1134 0 333/4 38% 251/2 23 291/2 27131/46 331/4 42% 03346 105% 39% 39% 95 15
IOAFVS 12 10 213/4 24 12% 1 36% 45% 33% 23 291/2 273/4 331/4 44% 93346 107 11/4 471/2 39% 190 16%
IOAHV 12 10 20 291/2 151/4 0 401/4 48 1/2 32% 23% 29% 30% 34% 53% 107 11/4 117% 50 39% 110 24
1OHLV 14 10 20 28 14 1/2 0 39% 451/2 30 23% 31 1/2 31% 411/4 56% 111% 129 471/4 39% 115 21
I 2AFV 14 12 22 28 14% 0 41 48% 34 24% 30 1/2 29716 351/4 46% 1009,46 112 11/4 481/2 461/2 95 21 1/2
12ALV 16 12 26 34 151/4 0 47% 52 35 28 361/2 34% 411/4 53% 116 11/4 131 521/4 461/2 120 251/2
1 2HLV 16 12 281/2 34 18% 11/2 51% 591/4 39% 28% 371/4 33 3% 401/4 58% 121% 1361/4 591/2 52 1/2 120 28% I4AFV 16 14 20 33 14 1 7/ 41% 51 1% 34% 28 331/4 341/4 36% 48% 111 118% 51% 461/2 105 26
I 4ALV 18 14 26 32 18 0 4815,46 57% 381/4 263/4 341/2 32% 37 55% 114% 127% 58 521/2 120 261/2
14HLV 18 14 37 38 20% 21/2 611/2 58% 381/4 29 39% 361/4 45% 631/4 1281/4 148 1/2 59% 521/2 130 28
16AFV 20 16 261/2 481/2 21% 11/2 52% 68% 47 30 391/4 371/4 4354 55% 1231/4 138% 67% 521/2 130 31
16ALV 20 16 311/2 39 18% 0 55 621/4 43 27 35% 34 40% 55% 116% 132 62% 521/2 130 24
I 8AFV 20 18 26 421/2 161/2 0 521146 65 441/2 30% 391/2 37% 441/4 601/4 128% 143% 641/4 47% 120 311/2
18ALV 24 18 401/2 41 1/2 23 21/2 6811/46 72 49 33% 42 40% 47% 713/4 145% 160% 701/2 65% 140 321/2
1BHLV 24 18 45 411/2 221/2 21/2 741/4 69 45 35% 43% 451/2 491/2 72% 154 166 1/1 70 65% 145 321/2
20ALV 24 20 44 48 25 1% 73% 651/4 41 41% 491/2 481/s 54% 711/4 160% 1751/2 621/2 71 7/. 165 25
2OLFV 24 20 31 44 181/2 0 591/4 671/4 45 323/4 401/2 38% 451/4 58% 129% 1441/2 64% 57% 135 321/2
24ALV 30 24 441/2 54 28% 2 79% 86% 58 3634 46% 461/2 52',46 751/4 1581/2 174% 91% 65% 155 28%
30ALV 42 30 57 70 34 0 101% 97 62 441/4 621/4 541/4 681/4 89 187% 219% 851/2 77% 190 34
36AFV 48 36 42 76 38% 0 93 83 42 481/2 69 581/4 713/4 831/4 190 223% 761/4 80% 180 32
All dimensions In Inches. *Dimen ions wi I vary with size make, and type of driver.
Back of Sheet 42A, Section 7 ©Ingersoll-Rand Company 1965 SIMS. IS N. S. O.
(P-L Ref. 3100) Sheet 43
Selection Chart Classes UV, ALV, AFV, LFV, HLV, CFV
In werNol Mona
Centrifugal Pumps
60 Cycle Performance FOR CONDITIONS ABOVE THE HEAVY LINE THE CAMERON MOTORPUMP IS AVAILABLE. SEE SHEETS 3 THROUGH 39
U. S. Gals. per min.
TOTAL HEAD IN FEET OF WATER
20 30 40 50 60 70 80 90 100 110 120 150 ,s
2
250
21.1V132 23•211V1Y2 30V12 3UV2 301/2
20112 30112
234UV3 23•2UV3
311113
2 UV3 2 UV3
21/201/3 301I3 301/5
3UV3 201/5
2L2UV5 23,2UV5 2L2UV5
2 UV5 20175
2L1UV5 2LWV5
24313.7L2
1,32UV5 20115
2L6UV73•2 2...2UV73,2 234131173,2
13031/5 2UV7.32
2321.1V7L2 23,213V7L2 2L2UV7i2
132UV7L2 2UV732
2L2UV732 2L2LTV732 232UV10
1 A UV7.32 2 UV7L2
232UV73.2 232UV10 2320V10
021TV7.32 20V7L2 2L2UVI0
2L2UVI0 2341JV 10
13213V7L2 201/10
23•20V10 23,2 UVIO 21,2 UVI5
275 300 350
X
3111/3 311V3 4UV3 4UV5 411V5
3 U1/3 3UV5 31.1V5 401/5 4U1/5
30115 3UV5 30175
3 UV714 401/42
2321.1V5 313V5
3U17 7 ,/, 301/7 A 4 UV7L2
2L2UV752 3131/732 401/73,2 4 111/10 4 UV 10
232UV73,2 2L21.11110 401/10 301/ 10 3 UV 15
23.21JV 10 25,2 UVIO 301/10 301/15 3 U1/15
232UV10 27201710 2L2UVI5 3 131/15 3111,15
2320V10 232011 15 2720VI5 30 1715 3131, 15
2L201/15 23031/15 272UV 1 5
3 UV 15 3 LIV20
2303V15 2721.31, 15 2:2131/15 301/20 3 UV20
11 640 650 700
4175 04 4CFV5 4CFV5 5CFV5 5CFV5
4C1V734 4CFV7,32 4CFV734 5CFV774 5CFV732
4CFV772 401/10 501/I0 5UVIO 5111110
4 UV I 0 401/10 50VI0 5131115 501/15
401/10 4CFV 1 5 4C0V15 4CI7V15 5CFVI5
4 tIV 15 4C0V 15 4CFV15 ■ 4CFV20 5CFV20
4U1/15 4CFV15 4CFV20 4C01/20 5CFV20
401/20 4CFV20 4CFV20 4CFV20 5CFV25 5CPV25 5CFV30 5CFV30 5CFV40 6CFV40
4 UNT20 4CFV20 4CFW5 4CFV25 5ALV25 5ALV30 5CFV30 5CFV40 5ALV40 6CFV40
4131,7 20 401125 4 UV25 4 UV25 5ALV30 5ALV30 5A LV40 5ALV40 SALVO 6AFV40
Rii 4 LIV25 4 UV30 4 UV30. SALVO 5A LV40 5ALV40 5ALV50 6AFV50
goo
1,, 1 ili 1 I ,
6CFV5 6CFV72
6CFV772 6CFVIO 6CFV10 6CFVI5 6CFVI5
6CFV10 6CFVI5 6CFV15' 6CFV15 6CFV20
5CFVI5 5CFVI5 5CFV20 6CFV20 6CFV20
5CFVI5 5CFV20 5CFV20 6CFV20 6CFV25
5CFV20 5CFV20 5CF1/25 5CFV25 6CFV30
5CF1120 5CFV25 5CFV30 5CFV30 6CFV30
2S vyN 6CFV,10 _
1 11111 1700 128 1 3LFV10
81,17V10 . 8LFV10
OLFV10 8L141715
OLFV15 8LFVI5 8LFV15 8LFVI5 8LFV20
8LFV20 8LFV20 8LF1/20 8LFV20
10AFV20
6CFV20 8LFV20 8LFV20 8LFV20 OLFV261
8LFV25
6CFV20 6CFV25 8LFV25 8AFV25 8A0V30
8AFV30 J
6CFV25 6CFV25 6CFV30 8LFV30 8AFV30
13AFV40 8AFV40
10AFVS40 10AFVS40 10AFVS40
6CFV30 6CFV30 6CFV40
6CFV40 6CFV40 6CFV40 xvkiao
6CFV40 6CFV40 (8,Egai
6CFV40 6CFV50 6AFV50 8LFV50 8LFV60
8LF1/60 OLFV60 8LFV75 8LFV75 8LFV75
6AFV50 6AFV50 6AFV50 8LFV60 8AFV60
8AFV60 8LFV75 8LFV75 8LFV75 8LFV75
6AFV50 6AFV50 6AFV60 6ALV60 8AFV75
8AFV75 13LF1/75 8AFV75 8AFV75 8AFV100
8LFV50 8LFV50 8LFV60 8LFV60 8LFV60 8LFV60
gi. ..gg OLPV34
OLFV50 8LFV50 8LFV50 8LFV60 8L15V60
1 • 1 i I H
2100 2250
10AFV15 10AFV15 10A30VI5 10AFV15 1QAFVI5
81.3. V25 73LFV25 8LFV25
10AFV30
8A1'V30 10AFVS30 10AFVS40 10APVS40
2200 2155 21100 250i 2710
10AFITI5 10AFV15. 10AFV20 10AFV20 12AFVM20
10AFV25 10AFV25 10APV25 10AFV25 10AFV30
10AFV30 10AFV30 10AFV30 10AFV40 10AFV40
10AFV40 10AFV40 10AFV40 10APV40 10AFV40
OLFV50 10AFVS50 10AFVS50 IOAFVS50 IOAFV55
SS
.53S
Soco
>>
>>
>
8LPV60 8LFV60 8LFV60 8LF1/75 8LFV75
8LFV75 8LFV75 8LFV75 8LFV75 8LFV75
8LFV75 8LFV75 OLFV75 8LFV75 8LFV100
13LFV75 8LFV100 8LFV100
10AFVS100 10AFVS100
8AFV100 8AFV100 8AFV100
10AFVS100 10AFVS100
2800 2700 3000 5200 3400
12AFVM20 12AVVM20 12AFVM20 12AFVM25 14AFV25
10A2V30 10AFV30 10AFV30 I2AFVM40 I2AFVM40
10AFV40 10AFV40 10AFV40 ICIAFV40 1 2AFVM50
10APV50 10AFV50 10AFV50 10AFV50 10AFV60
10AFV50 10AFV60 10AFV60 10AFV60 I 2AFV60
10ALV60 10ALV75 I OALV75 10ALV75 I2AFV75
10AFV75 10AFV75 10AFV75 10ALV100 10ALV100
10AFV100 10AFV100 10AF1/100 10AFV100 10ALV100
10AFV100 10AFV1C4) 10A1'V100 10AFV100 10AFV125
10AFV100 10AFV100 10APV I 25 10AF1/125 IOAFVI25
10AFV.125 10AFVI25 10AFVS125 10AF1/S126 10AFVS125
3 ii
• I' 1
4400
14AFV25 14AFV25 14AFV25 14AFV25 14AFV30
12AFVM40 12AFVM40 12AFVM40 14AFV40 14AFV40
12AFVM50 12AFVM50 I2AFVM50 I 2AFV60 12AFV60 .
I 2AFV60 I2AFV60 I 2AFV60 I 2AFV75 12AFV75
I2ALV75 I 2ALV75 1 2A LV75 I 2ALV75 I 2AFV100
88
88
8
>»
..
lAtA
t..
,t1,1g
cl
I 2AFV100 I 2AFV100 I 2AFV100 12AFVIO0 I2AFV I 25
I2AFV100 12AFV125 12AFVI25 1 2AFV 1 25 12AFV125
I2AFV 125 12AFV I 25 12APV 1 25 I2AFV 125 12AFV150
12AFVSI 25 12AFVS125 12AFVSI50 1 2AFVS150 12AFVS150
I 2AFVS150 12AF1/S150 12AFVSI50 12AFVSI50 1 2AFVS200
400 4000 2000
14AFV30 16ALV40 16ALV40
14A171/50 14AFV50 14AFV50
12AFV60. 14ALV60 14AL1/60
I4AFV75 14 AFV75 I4AFV75
I 2A FV100 12AFV100 J2AFV100
1 2AFVI25 1 2AFV 125 12AFV I 25
12APV125 12AFV125 12AFV150
I 2AFVI50 1 2AFV150 12AFV 1 50
12A15VS100 1 2AFV200 12AFV200
12AFVS200 I 2AFVS200 12AFV2610
G. S. Gallons per Minute
TOTAL HEAD IN FEET OF WATER
130 140 150 160 170 180 190
F,1EE 1--M
U
225 250
Iril
225 250
UATIV10 2U1/10
274031/10 23401/15 27431715
IYATVIO 2UV 10
274131/15 27451./15 27501, 15
IUVIO 2UNT I 5
274111/15 23,201/ 15 27401/15
IVARTICI 2 UV 1,5
274031/15 27401/15 23,20VI5
20 1/15 21.11r15
27401(15 27401/15 274 UV 15
2 1.1V15 2 UV 15
23031/15 234 U1/15 27401720
2 111115 2UV15
27401/ 1 5 23.201/20 2741.11,20
2 UV15 2 UV20
. 2740V20 27413V20 232 L1V25
201/20 21.11/20
234UV20 27401/25 24UV25
275 300 350
ig8
27401/15 274UVI5 301/I5 3 11V20 3111/20
23201/15 2740V15 274131/20 301120
1 301/25
2741.1V15 27411720 2 2U.V20 301/20 301725
2320V20 27201/20 27401120 301725 301/25
23201/20 27401/20 2/031,20 3 UV25 3 UV25
27401/20 27401/20 27401/25
313 1/25 3UV30
ann La
g
27401/20 2303 1/25 27401/25
3 01,7 30 3 UV30 .
232131125 23201/25 21200,1120
3 LIV40 500
i
401/25 4U1/25 01/30
401/30 411
401/30 .111 .I
401/30 • A • I
4 UV40 • A I
4 UV40 • A • i
S22
21
PD
7
. i I, 4,
4131/50 4 UV50 401760*
• 4 4 I 41.11730 4131/30.
4 4 1 4111130 4171140'
• 4 ' 1 401140 401/40.
1
4131/40 40V40.
i g • i 4 UV40 4131/40.
41.1V40 4131/40.
, 4131/40 401/50.
1 , - I 401/50 401/50.
501/60 501/60 5ALV75 6ALVS75 6A LVS100
OS 1 13 1
5ALV40 SALVO 5ALV50 5ALV50 6AFV50
5U1/40 5A1,V40 5ALV50 5ALV50 6AFV60
5111/40 501/50 5ALV50 5ALV60 6A1'V60
501/50 5011 50 5ALV50 5ALV60 6AFV60 I
I
501/50 501/60 5ALV60 5ALV75 6ALVS75
501/50 50V60 SALV E.° 5AL,V75 6ALVS75
501/60 513V75 50V75* 6ALVS100 6ALVS100
1300 1400 1500 1600 1700
6AFV60 6AFV60 6AFV60 6ALV75 6ALV75
6AFV60 6AFV60 6AFV75 6ALV75 6ALV75
6AFV60 6AFV75 6AFV75 6ALV75 6ALV100
2ALV75 6ALVS100 6A1,VS100 6ALV100 6ALV100
6ALVS100 -4,ALVS100 6ALVS100 6ALV100 6ALV I00
6ALVS100 6ALVS100 6ALVS100 6ALV100 6A LV 125
6ALVS100 6ALVS100 6ALVS125 6ALV 125 6ALVI25
In Eznnn53
1800 1100 MOO
i188
8AFV75 8AFV75 8AFV100 8AFV100 8AFV100
8AFV75 8AFV100 8AFV100 8AFV 100 8AFV100
6ALV100 8AFV100 8AFV100 8AFIt 100 8AFV100
SE3SS
L4
6ALV100 8ALV 1 25 8ALVI25 8ALVI25
•8ALVI25
6ALV125 SALV125 8ALVI25 8ALVI25 8ALVI25
6ALV I 25 8ALV I 25 8ALVI25 8ALV125 8ALV ISO
6ALV 125 13ALV150 8ALV I 50 8ALVI50 8ALVI50
6ALVI50 8ALV 150 8ALV2O3 8ALV200 8ALV200
23(0 2400 2500 2600 2700
8AFV100 8AFV100 8AFITIO0
10AFVS100 10AFVS125
8AFV100 8AFV100 8AFVI25
10AFVS125 10AFVS125
OA FV100 SAFV 125 8A FVI25
10AFVSI 25 10A FVS125
8A LVI25 8ALVI25
10AFVSI25 10AFVS125 10AFVS150
F2V-i-nc7i7) >
>>
>>
8ALVI25 8ALV150
10AFVS150 IOAFVSI 50 10AFVS150
SALV150 8ALVI50
10AFVS150 10AFVS150 10AFVS200
AA LVI50 8A LVI50
10AFVS200 10ALV200 10ALV200
8ALV200 8ALV200
10ALV200 10ALV200 10ALV200
8ALV200 10SHV200 10SHV200 IOSH V200 10SH V200
2800 2900 3000 3200 3400
10AINS125 10AFVS125 10AFVS125 10AFVS125 10AFVS150
10AFVSI25 10AFVSI25 10AFVS150 10AFVS150 10AFVS150
10AFVS150 I OAFVS150 10AFVSI 50 IOAFVSI50 I OAFVS200
10AFVS150 10AFVS150 10AFVS200 10AFVS200 10AFVS200
10AFVS200 10AFVS200 10AFVS200 IDAFVS200 10AFVS200
10AFVS200 10AFVS200 10AFVS200 10AFVS200 10AFVS200
10ALV200 10ALV200 10ALV270 10A41/200 10ALV250
10ALV200 10ALV250 10ALV250 10ALV250 10ALV250
1025-11/250 IOSHV250 10ALV250 104L1/250 10ALV300
3600 3855 4000 4200 4400
12AFVSI50 12AFVSI 50 12AFVS200 12AFVS200 12AFVS200
10AFVS150 10AFVS200. 10AFVS200 . 12ALV200 12ALV200
g §1
1(n
CI)c,
444
-11-1
,gg.411c1c1
10AFVS200 10A FVS300 10AFVS200* 12ALV200 12ALV250
10AFVS200 10AFVS200 10AFVS200 . 12ALV250 12ALV250
I OAFVS200 10AFVS200 10ALV200. 12ALV250 12ALV250
IOALV250 IOALV250 10ALV250* 12A1,V250 12ALV250
10ALV250 10ALV250 10ALV250 1 2HLV300 12HLV300
IOALV250 10ALV300 10ALV300 12HLV350 I2H Lyme
10ALV100 121-ILV300 I2HLV350 I2H LV350 12HLW450
4600 12AFVS200 I2ALV200 12ALV200
12ALV200 I2ALV200 12ALV200
I 2ALV200 12ALV200 12A1.17250
12ALV250 I2ALV250 I2ALV250
I 2ALV250 I2A1.V250 I2ALV250
1 2ALV250 I2ALV300 12A1,V300
12ALV300 I 2ALV300 I2ALV300
12HLV300 12HLV300 12HLV300
12HLV250 I2HLV350 12HLVIMO
12601N350 I2HLV400 12HLV400
Based on clear cold water-15 ft. suction lift except those marked with an asterisk (.) which are based on 10 ft. lift. 5677Z -13
Explanation of symbol: 3 (discharge size) UV (pump type) 3 (motor horsepower).
Form 1 00W-7S43 8-F5 (R2-E9)
Ingersoll-Rona 8 11 Broadway New York, N. Y. 1 0004
50 Cycle Performance FOR CONDITIONS ABOVE THE HEAVY LINE THE CAMERON MOTORPUMP IS AVAILABLE. SEE SI-METRO.
U.S. Gallons
A
TOTAL HEAD IN FEET OF WATER per minute 20 30 40 50 60 70 80 90 100 110
2UV11/2 2Y,UVly, 2 ,UV2
3 UV2 3 UV2
2UV2 21/2 UV2 2 1/2UV3 2 4UV3 2V2UV3
2UV3 2 UV3
21/2U V3 2 V2UV5 2 UV5
2 UV3 2 UV5 2 UV5
2 ,/iliV5 2%UV5
2UV5 2UV5 2UV5
2!4UV5 234UV71,4
2 UV5 2UV5
2UV7 2 UV7 2 UV7I4
21JV5 2UV74 2UV7 1/2'
21/iUV73/ 2ii•UV71.
2 UV734 2UV7% 2 UV714
2y2uv7y 21,0IVIO
2UV73/ 2UV73/i 2UV73,
2MTJVIO 234UV10
2UV7% 2UV73/ 2UVIO 214UV10 23/2UVIO 1
00
00
0
0.0
100
.
01
1010
.1.,
3 UV2 3 UV3 3 UNT3 4 UV5 4 UV5
3 UV3 3 UV'S 3 UV5 4 UV5 4 UV5
3 UV5 4 UV5 4 UV5
4 UV71i 4C FV7 j2
2IAUV5 3UV7V 3 UV71/4 4CPV71.i 4CFV10
21.4UV71/2 3 UV7% 3 UV71/,' 3 UV 1 0
4CFV10
21/2UV7 3UV7V2 3 UV 10 3 UV 10 3 UV 15
21.WV71/4 3 UV 10 3 UV 10 3UVI 5 3UVI5
22UV10 23g.TV10 3 UVIO 3UVI5 3UVI5
2IAU1T10 2%UV10 3UV15 3UVI5 3UVI5
23/2UV15 23.0VI5 2Y2tJV15 3UVI5 3UV20
500 550 600 650 700
5UV5 5UV5 5UV5
5 UV5 4CFV7 4CPV7IA 6C FVM 6CFV7A
4CFV7IA 4C F'V 10 4CPV I 0 4CPV 10 5C FVIO
4CFV10 4CFV10 4CFV10 4CFV 1 5 5CFV15
4CFV 15 4CFV 15 4CFV15 4CFV15 5CFV15
4CFV15 4CFV15 4CFV15 4 UV20 4 IIV20*
4 UV 15 4 UV 15 4 UV20 4 UV20 5UV20
3 UV20. 3 1111120. iglg 4UV20 41IV20 5UV25
4UV20 4U1J20 4UV25 5UV25
4UV20 4UV25 4UV25 4UV25*
5C1. V5 5CFV5
• 800 900
1000 1100
5CPV7IA 6CEV7V2 6CFV7IA 6CF'VV,
5CFV10 5CPV I 0 6CFV10 6C1'V15
5CFV10 5CFV I 5 5C VV 15 5C FV15
5CFV 15 5C FV 1 5 5CFV20 5CFV20
5CFV20 5C PV20 5C FV20 5C FV25
5 UV20 5UV25
6CFV25 6CFV25
5 UV25 5UV25
5ALV30 5AVV30
5UV25 5UV30_
5ALV30 5ALV40
5UV30 5UV30
5ALV40 5ALV40
5UV30 5UV40
SALVO 5ALV40
_ 1200 SLFV7 1A 6CFV15 6CFV15 6CFV20 6CFV25 6AFV30 6AFV30 6AFV40 6AFV40 6AFV50 1300 1400 1500 1600 1700
8LEV I 0 8LFV I 0 8LVV 10 8LFV El 8LEVI5
6CFVI5 8LYV I 5
6C FV20 6CFV20
I 8APV20 SAFV20
6CFV20 6CFV25 6CFV25 8LFV25
6CFV25 6CFV30 8LFV30 8L2V30
6AFV30 6AFV4J)
6AFV40 6AFV40 8AFV40 8AFV40 8AFV40
6AFV40 6AFV40 8AFV50 8APV50 8AFV50
6AFV40 6AFV50 8AFV50 8AFV50 8AFV50
6ALVS50 6ALVS50 6ALV50 6ALV60 8AFV60
8LI.V15 8LFV15
10AFV20
8AFV40 8APV40 8AFV40 8LFV25 8LFV30 8LVV40
— 1800 1900 2000 2100 2200
8LFV15 8LVV15
IOAFV I 5 10AFV15 10AFV15
10APV20 10A FV20 10AFV20 IOAPV20 10AVV20
8LPV25 8LFV25 8LFV25 8LFV30 8LFV30
8LFV30 8LPV30 8LFV30 8LFV40 8LFV40
8LFV40 8LFV40 8LFV40 8LFV40 8LFV40
8AFV40 81XV40 8LFV50 SLFV50 81.FV50
8AFV50 8AFV50 8AFV50 8AFV50 8AFV60
8AFV50 8AFV50 8AFV60 8AFV60 8APV60
8AFV60 8AFV60 8AFV60 8AFV75 8ALV75
8AFV60 6ALV75 6ALVM 8ALV75 8ALV75
—2300 2400 2500 2600 2700 _
IOAFVI5 10AFV20 IOAFV20 12APVM 20 12AFVM 20
10AFV25 10AFV25 10AFV25 10AVV25 10AFV25
8LPV30 8LFV30
10AFV30 10AFV40 IOAPV40
8LFV40 8LPV40 8LFV40 8LFV40
10AFV50
8LFV40 8LFV50 81.FV50 8LFV50 8LFV50
81.PV50 8LPV50
10AFVS60. 10AF'V60 10AFV60
8AFV60 10AFVS60 10AFVS613 10AFVS75 10AFV75
8AFV75 10AFVS75 10AFVS75 10APVS75 10AFVS75
8ALV75 8ALV75
IOAFVS75 10AFVS100 10AFVS100
8ALV100 8ALV100 8ALV100
10AFVSIO0 10AFVS100
2800 2900 3000 3200 3400
12AFVM20 I 2AFVM20 I 2APVM20 ! 2A FV M 25 12A FV M25
10AFV30 10APV30 10AFV30 12APVM 30 12AFV30
10AFV40 10AFV40 I 2AFV40 I 2A PV40 I 2AFV50
10AFV50 10AFV50 IOAFV50 IOAFV50 10APV60
10AFV50 10AFV60 10AFV60 10AFV60 10A F.V75
IOAPV60 IOAPV75 10AFV75 10AFV75 IOAFVM
IOAF1V75 10AFV75 10AFV75 10AFV75 10AFV100
10AF'VS75 10A1'VS100 10AFV100 10APV100 10AFV100
10AFVSIO0 10AFVS100 IOAFVS100 10AFVS100 10AFV100
10AFVS100 10APVS100 10AFVS100 10AFVS125 10APVS125 --3
600 3800 4000 4200 4400
I4AFV25 I4A FV25 14APV25 14 A FV30 I4AFV30
I 2APV40 12 A FV40 14AFV40 I4A FV40 I4AFV40
12AFV50 1 2A FV50 12APV50 I 2AFV60 I2AFV60 12AFV60 14 AFV 60 14AFV60
10AVV60 10A FV60 I2A1V60 I2A FV75 I2APV75 12AFV75 I 2AFV75 12AFV100
10AFV75 10AFV75 10APV75 12AFVM 100 12APV100 I2AFV100 12AFV100 14AFV100
1 OAFVM 1 OAFV100 10AFV100 10AFV100 I2AFVM 100 14AFV100 14 AFVI25 14AVV125
I OAFV100 10AFV100 IOAFVIO0 10A FVI25 12AFVI25 14AFV125 14AFV125 I4AFV125
10AFV100 10AFV100 10AFV125 10AFVI25 12AFVI25 12AFV125 12ALVI25 12ALV150
10AFV125 12APV125 I2APV125 12A1V125 12AFV150 12AFV150 12AFV150 12ALV150
10AFVS125 12AFVI50 I2AFV150 12A1V150 12APV150 12AFVI50 12AFV200 12A vv9nn
4600 4800 5000
14AFV30 1 6APV30 I 6AFV30
14AFV50 14 A FV50 I4AFV50
U.S.Gallons
TOTAL HEAD IN FEET OF WATER per Minute 120 130 140 150 160 170 180 190 200
150 175 200 225 250
2UV7Y4 2 UV 10 2UVIO
2 1,1UV 10 21/2UV 15
211V7M 2 UV 10 2 UV 10
2V2UV 1 5 •21/2UV15
2 UV 10 2UV 10 2UV 15
2 j4UV15 214UV I 5
2UVIO 2UVIO 2 UV 15
21,0.1V15 21/iliV15
2UV I 0 2UV15 2UVI 5
VA UV 15 2AUV15
2UV 10 2UVI5 2UV15
2MUVI5 2MUVI5
2UVI5 2UVI5 2UV15
23UV15 234UV20
2UVI5 2ViUV15 2MUV15- 21UV20 3UV20
13'2A1IV20 IMAUV20 I j2AUV20 11AUV25 13AUV25
275 300 350 400 450
2IAUV I 5 2V2UV 15 2I/2UV 15 3 UV20 3 UV20
2 1,4UV15 2IAUV I 5 2 14UV20 3 UV20 3 UV20
2341.1V15 2 'UVI5 2Y2UV20 3 UV20 3 UV25
23/2UV 15 2ViUV20 2 i'UV20
3 UV20 3 UV25
2AUV20 214UV20 21/iLIV20 3 UV25 3 UV25
2%UV20 2MUV20 2;.‘“JV20 3UV25 3UV25
2 UV20 3 UV20 3UV25 3UV25 3UV30
3UV20 3 UV25 3UV25 41JV30 4UV30
1 3/2AUV30 1Y4AUV30
4UV3O' 4UV30 4UV40
500 3111/20* 4UV25* 3UV25* 3 UV25 3 UV30° 3UV30* 4UV30 4131740 4UV40 550 4 UV25 4 U V25 9 UV25 4 UV30 4 UV30 4UV40 41JV40 41.1V40 5UV40 600 4 UV25 4 UV25 4 UV30 4 UV30 4UV40 4UV40 4UV40 4UV40 5UV50 650 4 UV25 4 UV30 4 UV30 4IJV40 4UV40 4 UV40 4UV40 511V50 5UV50 700 4 UV30* 4 UV30* 4UV40* 4UV40* 4 UV40* 4UV40* 5UV50 5U1750 5UV50 800 5UV40 5UV40 5UV40 5UV40 5UV50 5UV50 5UV50 51D/50 511V60 900 5 UV40 5UV40 5UV40 5UV50 5UV50 5UV50 5UV60 5UV60 511V60
1000 5ALV40 5ALV50 5 UV50 5UV50 5UV50 5UV60* 5UV60* 5UV60* 5UV75* 1100 5ALV50 5ALV50 6ALVS50` 6ALVS60 6ALVS60 6ALV75 8ALVSM 8ALVS75 8ALVS100 1200 _ 6ALVS50 6ALVS50 6ALVS60 6ALVS60 6ALVS75 6ALV75 8ALVS75 8ALVS100 8ALVS100 1300 6ALVS50 6ALVS60 6ALVS60 6ALV575 6ALVS75 6ALV75 8ALVS100 8ALVS100 8ALVS100 1400 6ALVS60 6ALVS60 6ALVS75 6ALVS75 6ALV75 6ALV75 8ALVS100 8ALVS100 8ALV100 1500 6ALV60 6ALV60 6ALV75 6ALV75 6ALV75 6ALV100 8ALV100 8ALV100 8ALV100 1600 6ALV60 6ALV75 6ALV75 6ALV75 6ALV100 6ALV100 8ALV100 8ALV100 8ALV100 1700 6ALV75 6ALV75 6ALV75 6ALV100 6ALV100 8ALV100 8ALV100 SALV1130 8ALV125 1800 6ALV75 6ALV75 6ALV75 6ALV100 6ALVIO0 8ALV100 8A1.V100 8ALV 125 8ALVI25 1900 6ALV75 6ALV75 6ALV100 6ALVIO0 8ALV100 8ALV100 8ALV125 8ALVI25 8BHVI50 2000 6ALV75 6ALV100 6ALVIO0 6ALV100 8ALV100 8ALV100 8ALV125 8ALV125 8BHV150 2100 8ALV75 8ALV100 8ALV100 8ALV100 8ALV100 8ALV125 8ALVI25 8ALVI25 8BHV150 2200 8ALV100 8ALVIO0 8ALV100 8ALV100 8ALV125 8ALV125 8ALVI25 8BHV150 8BHV150 2300 8ALV100 8ALV100 8ALV100 8ALV125 8ALV125 8ALV125 8ALV125 10SHV150 IOSHV150 2400 8ALV100 8ALV100 8ALV100 SALV125 8ALV125 8ALV125 8ALVI50 IOSHVI50 IOSHVI50 2500 8ALV100 8ALV100 8ALV125 8ALV125 8ALV125 8ALV125 10ALV150 IOSHV150 10SHV200 2600 8ALV100 8ALVI25 8ALVI25 8ALV125 8ALV125 8ALV150 10ALV150 10SHV150 IOSHV200 2700 10AFVS100 10AFVS125 10ALV125 10ALV125 IOALV150 10ALV150 10ALV150 10SHV200 IOSHV200 2800 I OAFVS100 IGAFESI 25 10ALV125 IQALV125 10ALV150 WALVIS° 10ALV200 10SHV200 IOSHV200 2900 IOAFVS125 10ALV125 10ALV125 10ALV150 MALVIN MALVIN) 10SHV200 IOSHV200 10SHV200 3000 10APVS125 10ALV125 10ALV125 113ALVI50 WALVIS() 10ALV200 10SHV260 IOSHV200 IOSHV200 3200 10AFVS125 10ALV125 10ALV150 IOALV150 10ALV200 10ALV200 10SHV200 IOSHV200 IOSHV200 3400 10ALV125 WALVIS° 10ALV150 10ALV200 10ALV200 10ALV200 12HLV200 12HLV200 IOSHV250* 3600 MALVIN 10ALV150 10ALV150 IOALV200 10ALV200 10ALV200 1214LV200 12HLV250 IOSHV250. 5800 10ALV150 MALVIN IOALV200 10ALV200 10ALV200 12HLV200 12HLV250 12HLV250 10SEIV250* 4000 I2AFV 150 10ALV200 10ALV200 10ALV200 I2HLV200 12HLV250 12HLV250 I2HLV250 4200 12AFV150 12ALV200 I2HLV200 12HLV200 12HLV200 12HLV250 12HLV250 12HLV250 4400 I2ALV200 I2ALV200 121ILV200 12H LV200 12HLV250 12HLV250 121ILV250 4600 12ALV200 12HLV200 12HLV200 I2HLV250 12HLV250 1211 LV250 12HLV250 4800 VW
12ALV200 12ALV200
12HLV200 12 HLV200
12HLV200 12 HLV250
12HLV250 12HLV250
12HLV250 1214LV250
12HLV250 12HLV11111
12HLV300. 1211LV5011
Based on clear cold water-15 ft. suction lift except those marked with an asterisk (.) which are based on 10 ft. lift. 56 773-3 Explanation of symbol: 3 (discharge size) UV (pump type) 3 (motor horsepower).
Back of Sheet 43,SectIon 7
©Ingersoll-Rand Company 1965 PRINT. IN Y. 8
![DANIEL W. BAROWY, arXiv:1901.11100v1 [cs.PL] 30 Jan 2019 · 2019-02-01 · sheet. At each step, the algorithm finds the best rectangular split, either horizontally or vertically.](https://static.fdocuments.in/doc/165x107/5eaa400828761a4dac1b4f54/daniel-w-barowy-arxiv190111100v1-cspl-30-jan-2019-2019-02-01-sheet-at.jpg)
