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Emerson Type HSR Pressure Regulators Data Sheet
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1. AND BOOST psig bar 4 8 1 3 2 3 16 4 8 1 416 4 3 8 9 5 112113 0 5 0 03 cae 190 5 1 240 6 4 285 7 6 1 0 07 110 3 0 220 5 9 250 6 7 355 9 5 450 12 1 2 0 14 170 4 6 250 6 7 340 9 1 490 13 1 770 20 6 3 0 21 210 5 6 340 9 1 500 13 4 750 20 1 1000 26 8 EnieWel 5 0 34 245 6 6 400 10 7 750 20 1 1190 31 9 1330 35 6 12 mbar 10 0 69 375 10 1 785 21 0 1290 34 6 1585 42 5 tonnhewci 15 1 0 475 112 7 995 26 7 1590 42 6 10 to 15 mbar 20 14 565 15 1 1160 31 1 1850 49 6 1 inch w c droop 30 2 1 740 19 8 1475 39 5 2inches W erboost 40 2 8 900 24 1 1840 49 3 50 3 5 1050 28 1 2180 58 4 60 4 1 1215 32 6 80 5 5 1555 41 7 100 6 9 1880 50 4 1 0 07 a 150 4 0 170 4 6 240 6 4 325 8 7 2 0 14 125 3 4 190 5 1 225 6 0 345 9 3 475112 7 3 0 21 195 5 2 220 5 9 2701 7 2 475 112 7 660 17 7 5 0 34 210 5 6 275 7 4 400 10 7 685 18 4 880 23 6 Ganchesdicel 10 0 69 2801 7 5 440 11 8 710 19 0 1235 33 1 1250 33 5 22 mbar 15 1 0 370 9 9 685 18 4 1360 36 4 1585 42 5 1400 37 5 8 ie toinches wee 20 14 485 13 0 945 25 3 1610 43 1 1820 48 8 1540 41 3 20 to 25 mbar 30 24 680 18 2 1485 39 8 2080 55 7 2110 56 6 14 inch w c droop 40 2 8 885 23 7 1840 49 3 2300 61 6 2 inches w c boost 50 3 5 1050 28 1 2150 57 6 2760 74 0 60 4 1 1215 32 6 2475 66 3 3115 83 5 80 5 5 1530 41 0 3150 84 4 100 6 9 1855 49 7 2900 77 7 125
2. Angle Position C Position D Position E standard Position F Specification Worksheet Position 2 Position 3 standard Position 4 Position 2 Position 3 standard Position 4 Pressure Differential Pressure Maximum Inlet Pressure 8 to 10 inches w c 20 to 25 mbar Black Application 10 to 12 5 inches w c 25 to 31 mbar Silver Specific Use 12 5 to 20 inches w c 31 to 50 mbar Gray Line Size 20 to 35 inches w c 50 to 87 mbar Pink Fluid Type 1 25 to 2 2 psig 0 09 to 0 15 bar Light Blue Specific Gravity Body Orientation Select One Temperature Globe Angle Does the Application Require Overpressure Protection Position 1 Position 1 Yes No Minimum Inlet Pressure Set Pressure Maximum Flow Regulators Quick Order Guide Accuracy Requirements 20 O 40 Construction Material Requirements if known Availability of the product being ordered is determined by the component with the longest shipping time for the requested construction e Readily Available for Shipment Less Than or Equal To O O sa Allow Additional Time for Shipment 5 10 Special Order Constructed from Non Stocked Parts Consult your local Sales Office for Availability
3. 21 7 1250 33 5 1750 46 9 2150 57 6 0 07 bar 20 1 4 510 13 7 1050 28 1 1520 40 7 2050 54 9 2380 63 8 Spring T14402T0012 30 2 1 660 17 7 1500 40 2 2020 54 1 2400 64 3 Color Pink 40 2 8 830 22 2 1850 49 6 2320 62 2 1 ABS 50 3 5 970 26 0 2120 56 8 2580 69 1 60 4 1 1130 30 3 2400 64 3 2850 76 4 80 5 5 1440 38 6 2600 69 7 100 6 9 1760 47 2 2700 72 4 125 8 6 2150 57 6 3 0 21 200 5 4 300 8 0 400 10 7 5 0 34 250 6 7 350 9 4 510 13 7 750 20 1 10 0 69 250 6 7 450 12 1 650 17 4 1020 27 3 1340 35 9 15 1 0 380 10 2 620 16 6 950 25 5 1350 36 2 1820 48 8 apie 20 1 4 480 12 9 780 20 9 1210 32 4 1680 45 0 2120 56 8 foc 30 24 650 17 4 1150 30 8 1680 45 0 2220 59 5 Spring 11440310012 40 2 8 800 21 4 1500 40 2 1950 52 3 e Re ae 50 3 5 920 24 7 2020 54 1 2300 61 6 1 ABS 60 4 1 1100 29 5 2250 60 3 2550 68 3 80 5 5 1450 39 5 2500 67 0 100 6 9 1750 46 9 2750 73 7 125 8 6 2000 53 6 1 Setpoint was established with an inlet of 10 psig 0 69 bar The regulators were not reset as inlet pressure was increased or decreased 2 Setpoint was established with an inlet of 5 psig 0 34 bar The regulators were not reset as inlet pressure was increased or decreased Gray areas show where indicated droop boost would be exceeded regardless of capacity Blank areas indicate where maximum operating inlet pressure is exceeded for a given ori
4. 35 9 15 1 0 330 8 8 600 16 1 800 21 4 1350 36 2 1480 39 7 Po 20 1 4 410 11 0 740 19 8 1040 27 9 1540 41 3 1800 48 2 30 2 1 560 15 0 1050 28 1 1450 38 9 1850 49 6 1 25 to 2 2 psig 0 09 to 0 15 bar 40 2 8 730 19 6 1320 35 4 1640 44 0 AES 50 3 5 870 23 3 1620 43 4 1900 50 9 60 4 1 1030 27 6 1910 51 2 2140 57 4 80 55 1350 36 2 2090 56 0 100 6 9 1650 44 2 2180 58 4 125 8 6 2000 53 6 3 0 21 150 4 0 270 7 2 420 11 3 600 16 1 790 21 2 5 0 34 210 5 6 420 11 3 620 16 6 960 25 7 1230 33 0 10 0 69 340 9 1 700 18 8 1050 28 1 1430 38 3 1880 50 4 15 1 0 440111 8 940 25 2 1350 36 2 1880 50 4 2230 59 8 f a ae 20 14 520 13 9 1150 30 8 1620 43 4 2260 60 6 2540 68 1 30 2 4 670 18 0 1540 41 3 2110 56 6 2520 67 5 1 25 to 2 2 psig 0 09 to 0 15 bar 40 2 8 830 22 2 1880 50 4 2430 65 1 oars 50 3 5 970 26 0 2170 58 2 2640 70 8 60 4 1 1130 30 3 2460 65 9 2850 76 4 80 55 1450 38 9 2850 76 4 100 6 9 1750 46 9 3000 80 4 125 8 6 2100 56 3 Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice Bulletin 71 1 HSR Table 9 3 4 x 1 NPT Globe Body Capacities OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS SETTING SPRING INLET PRESSURE RANGE DROOP Orifice Size Inches mm
5. 60 3 3000 80 4 80 5 5 1450 38 9 2800 75 0 100 6 9 1750 46 9 3500 93 8 125 8 6 2000 53 6 1 Setpoint was established with an inlet of 10 psig 0 69 bar The regulators were not reset as inlet pressure was increased or decreased 2 Setpoint was established with an inlet of 5 psig 0 34 bar The regulators were not reset as inlet pressure was increased or decreased Bulletin 71 1 HSR Table 8 3 4 NPT Globe Body Capacities OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS SETTING SPRING INLET PRESSURE Orifice Size Inches mm RANGE DROOP l AND BOOST psig bar 118 3 2 3 16 4 8 114 16 4 3 8 9 5 1 12113 0 5 0 03 zess sess 190 5 1 240 6 4 285 7 6 1 0 07 95 92 5 220 5 9 250 6 7 330 8 8 400 10 7 2 0 14 150 4 0 250 6 7 335 9 0 490 13 1 650 17 4 3 0 21 185 5 0 290 7 8 430 11 5 600 16 1 750 20 1 meee d 5 0 34 235 6 3 400 10 7 580 15 5 900 24 1 1100 29 5 12 mbar 10 0 69 325 8 7 775 20 8 1050 28 1 1200 32 2 40 6indhes weed 15 1 0 420 11 3 980 26 3 1295 34 7 10 to 15 mbar 20 1 4 500 13 4 1120 30 0 1380 37 0 1 inch w c droop 30 2 1 655 17 6 1475 39 5 2 inches w c boost 40 2 8 820 22 0 1785 47 8 50 3 5 945 25 3 2150 57 6 60 4 1 1100 29 5 80 5 5 1400 37 5 100 6 9 1700 45 6 0 5 0
6. Industrial Regulators Emerson Process Management Regulator Technologies Inc USA Headquarters McKinney Texas 75069 1872 USA Tel 1 800 558 5853 Outside U S 1 972 548 3574 Asia Pacific Shanghai 201206 China Tel 86 21 2892 9000 Europe Bologna 40013 Italy Tel 39 051 419 0611 Middle East and Africa Dubai United Arab Emirates Tel 971 4811 8100 Natural Gas Technologies Emerson Process Management Regulator Technologies Inc USA Headquarters McKinney Texas 75069 1872 USA Tel 1 800 558 5853 Outside U S 1 972 548 3574 Asia Pacific Singapore 128461 Singapore Tel 65 6770 8337 Europe Bologna 40013 Italy Tel 39 051 419 0611 Chartres 28008 France Tel 33 2 37 33 47 00 For further information visit www fisherregulators com TESCOM Emerson Process Management Tescom Corporation USA Headquarters Elk River Minnesota 55330 2445 USA Tels 1 763 241 3238 1 800 447 1250 Europe Selmsdorf 23923 Germany Tel 49 38823 31 287 Asia Pacific Shanghai 201206 China Tel 86 21 2892 9499 The Emerson logo is a trademark and service mark of Emerson Electric Co All other marks are the property of their prospective owners Fisher is a mark owned by Fisher Controls International LLC a business of Emerson Process Management The contents of this publication are presented for informational purposes only and while every effort has been made to ensure their accuracy they are not
7. 125 8 6 2140 57 4 Gray areas indicate capacities limited by either droop or boost Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice continued 10 Table 10 1 NPT Globe Body Capacities continued Bulletin 71 1 HSR OUTLET PRESSURE SETTING SPRING RANGE DROOP INLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS Orifice Size Inches mm AND BOOST psig bar 1 8 3 2 3 16 4 8 1 4 16 4 3 8 1 9 5 1 2113 2 0 14 120 3 2 250 6 7 310 8 3 420 111 3 570 15 3 3 0 21 150 4 0 280 7 5 380 10 2 570 15 3 770 20 6 5 0 34 220 5 9 380 10 2 550 14 7 830 22 2 1040 27 9 10 0 69 330 8 8 600 16 1 890 23 9 1310 35 1 1570 42 1 28 inches w c 15 1 0 410 11 0 810 21 7 1220 32 7 1600 42 9 2000 53 6 Ombar 20 1 4 510 13 7 1020 27 3 1490 39 9 2000 53 6 2300 61 6 20 to 35 inches w c 30 2 1 660 17 7 1440 38 6 1820 48 8 2450 65 7 50 to 87 mbar 40 2 8 830 22 2 1800 48 2 2080 55 7 1 ABS 50 3 5 970 26 0 2120 56 8 2430 65 1 60 4 1 1130 30 3 2340 62 7 2800 75 0 80 5 5 1440 38 6 2800 75 0 100 6 9 1760 47 2 3100 83 1 125 8 6 2150 57 6 2 0 14 150 4 0 310 8 3 470112 6 710 19 0 970 26 0 180 4 8 390 10 5
8. 18 2 1485 39 8 2080 55 7 2110 56 6 1 inch w c droop 40 2 8 885 23 7 1840 49 3 2300 61 6 2 inches w c boost 50 3 5 1050 28 1 2150 57 6 2760 74 0 60 4 1 1215 32 6 2475 66 3 3115 83 5 80 5 5 1530 41 0 3150 84 4 100 6 9 1855 49 7 2900 77 7 125 8 6 2300 61 6 Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice ES Dark Gray areas show where indicated droop boost would be exceeded regardless of capacity Light Gray areas indicate capacities limited by either droop or boost Bulletin 71 1 HSR Table 13 1 NPT Angle Body Capacities OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS SETTING SPRING ene Orifice Size Inches mm RANGE DROOP i AND BOOST psig bar 118 I 3 2 3 16 4 8 114 I 6 4 3 8 9 5 1 12113 0 5 0 03 70 1 9 120 3 2 170 4 6 240 6 4 300 8 0 1 0 07 100 2 7 180 4 8 240 6 4 340 9 1 430 11 5 2 0 14 130 3 5 250 6 7 330 8 8 510 13 7 630 16 9 3 0 21 170 4 6 340 9 1 420 11 3 680 18 2 860 23 1 5 0 34 220 5 9 420 11 3 650 17 4 1030 27 6 1130 30 3 7 inches w c 17 mbar 10 0 69 330 8 8 730 19 6 1100 29 5 1560 41 8 1520 40 7 15 1 0 430 11 5 1000 26 8 1560 41 8 1830 49 0 1820 48 8 6 PRA 20 1 4 530 14 2 1200 32
9. 03 70 1 9 120 3 2 170 4 6 240 6 4 300 8 0 1 0 07 100 2 7 180 4 8 240 6 4 340 9 1 430 11 5 2 0 14 130 3 5 250 6 7 330 8 8 510 13 7 630 16 9 3 0 21 170 4 6 340 9 1 420 11 3 680 18 2 770 20 6 5 0 34 220 5 9 420 11 3 650 17 4 900 24 1 960 25 7 7 inches w c 47 mbar 10 0 69 330 8 8 730 19 6 1100 29 5 1310 35 1 1310 35 1 15 1 0 430 11 5 1000 26 8 1380 37 0 1520 40 7 1520 40 7 bes eg 20 1 4 530 14 2 1200 32 2 1560 41 8 1620 43 4 1620 43 4 O mbar 30 2 1 680 18 2 1550 41 5 1840 49 3 1750 46 9 Bae eae 40 2 8 850 22 8 1900 50 9 1950 52 3 50 3 5 970 26 0 2200 59 0 2000 53 6 60 4 1 1150 30 8 2280 61 1 2100 56 3 80 5 5 1450 38 9 2350 63 0 100 6 9 1750 46 9 1900 50 9 125 8 6 2100 56 3 1 0 07 Fuss 140 3 7 170 4 6 240 6 4 325 8 7 2 0 14 125 3 4 190 5 1 225 6 0 345 9 3 475112 7 3 0 21 190 5 1 220 5 9 270 7 2 475112 7 660 17 7 5 0 34 210 5 6 275 74 400 10 7 685 18 4 880 23 6 9 inches w c 10 0 69 280 7 5 440 11 8 710 19 0 1235 33 1 1215 32 6 22 mbar 15 1 0 370 9 9 685 18 4 1235 33 1 1400 37 5 1400 37 5 Sie 10cinehes wie 20 14 485 13 0 945 25 3 1475 39 5 1540 41 3 1500 40 2 20 to 25 mbar 30 2 1 680 18 2 1475 39 5 1800 48 2 1690 45 3 janchiwee dteep 40 2 8 835 22 4 1770 47 4 1925 51 6 2 inches w c boost 50 3 5 990 26 5 2000 53 6 1960 52 5 60 4 1 1135 30 4 2155 57 7 2050 54 9 80 5 5 1440 38 6 226
10. 1 655 17 6 1475 39 5 2 inches w c boost 40 2 8 820 22 0 1785 47 8 50 3 5 945 25 3 2150 57 6 60 4 1 1100 29 5 80 5 5 1400 37 5 100 6 9 1700 45 6 0 5 0 03 7011 9 120 3 2 170 4 6 240 6 4 300 8 0 1 0 07 100 2 7 180 4 8 240 6 4 340 9 1 430 11 5 2 0 14 130 3 5 250 6 7 330 8 8 510 13 7 630 16 9 3 0 21 170 4 6 340 9 1 420 11 3 680 18 2 770 20 6 5 0 34 220 5 9 420 11 3 650 17 4 900 24 1 960 25 7 7 inches w c i7 mbat 10 0 69 330 8 8 730 19 6 1100 29 5 1310 35 1 1310 35 1 15 1 0 430 11 5 1000 26 8 1380 37 0 1520 40 7 1520 40 7 ED ING ES wib 20 1 4 530 14 2 1200 32 2 1560 41 8 1620 43 4 1620 43 4 15 to 20 mbar 30 2 1 680 18 2 1550 41 5 1840 49 3 1750 46 9 Pe mR 40 2 8 850 22 8 1900 50 9 1950 52 3 50 3 5 970 26 0 2200 59 0 2000 53 6 60 4 1 1150 30 8 2280 61 1 2100 56 3 80 5 5 1450 38 7 2350 63 0 100 6 9 1750 46 9 1900 50 9 125 8 6 2100 56 3 1 0 07 wee 140 3 8 170 4 6 240 6 4 325 8 7 2 0 14 125 3 4 190 5 1 225 6 0 345 9 3 475112 7 3 0 21 190 5 1 220 5 9 2701 7 2 475 112 7 660 17 7 5 0 34 210 5 6 275 7 4 400 10 7 685 18 4 880 23 6 Oiinches wes 10 0 69 280 7 5 440 11 8 710 19 0 1235 33 1 1215 32 6 22 mbar 15 1 0 370 9 9 685 18 4 1235 33 1 1400 37 5 1400 37 5 Bio 4 Osincheswezl 20 14 485 13 0 945 25 3 1475 39 5 1540 41 3 1500 40 2 20 to 25 mbar 30 2 1 680 18 2 1475 39 5 1800 48 2 1690 4
11. 2 1800 48 2 2080 55 7 1 ABS 50 3 5 970 26 0 1980 53 1 2280 61 1 60 4 1 1130 30 3 2320 62 2 2380 63 8 80 5 5 1440 38 6 2400 64 3 100 6 9 1760 47 1 2500 67 0 125 8 6 2150 57 6 Gray areas indicate capacities limited by either droop or boost Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice continued Bulletin 71 1 HSR Table 11 3 4 NPT Angle Body Capacities continued OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS SETTING SPRING INLET PRESSURE RANGE DROOP Orifice Size Inches mm AND BOOST psig bar 1 8 3 2 3 16 4 8 1 14 6 4 3 8 9 5 1 2113 2 0 14 150 4 0 310 8 3 470 12 6 710 19 0 930 24 9 3 0 21 180 4 8 390 10 5 590 15 8 940 25 2 1230 33 0 5 0 34 250 6 7 530 14 2 840 22 5 1290 34 6 1600 42 9 10 0 69 360 9 7 810 21 7 1320 35 4 1890 50 7 2200 59 0 28 inches w c 15 1 0 430 11 5 1010 27 1 1650 44 2 2290 61 4 2530 67 8 aan 20 14 530 14 2 1200 32 2 1940 52 0 2490 66 7 2780 73 7 20 to 35 inches w c 30 2 1 670 18 0 1570 42 1 2430 65 1 2900 77 7 30 to 87 mbar 40 2 8 830 22 2 1920 51 5 2720 72 9 t 2 ABS 50 3 5 970 26 0 2280 61 1 2830 75 8 60 4 1 1130 30 3 2630 70 5 3050 81 7 80 5 5 1440
12. 8 2 0 14 120 3 2 200 5 4 2701 7 2 420 11 3 530 14 2 3 0 21 150 4 0 250 6 7 350 9 4 530 14 2 680 18 2 5 0 34 190 5 1 340 9 1 480 12 9 770 20 6 870 23 3 iincheswe 10 0 69 290 7 8 550 14 7 910 24 4 1230 33 0 1350 36 2 27 mbar 15 1 0 400 10 7 840 22 5 1290 34 6 1450 38 9 1630 43 7 10 to 12 5incheswc 20 1 4 480 12 9 1140 30 6 1420 38 1 1650 44 2 1870 50 1 25 to 31 mbar 30 2 1 670 18 0 1530 41 0 1680 45 0 2100 56 3 4 inch w a droop 40 2 8 820 22 0 1970 52 8 1750 46 9 2 inches w c boost 50 3 5 970 26 0 2150 57 6 1840 49 3 60 4 1 1120 30 0 2260 60 6 2130 57 1 80 5 5 1420 38 1 2390 64 1 100 6 9 1730 46 4 1950 52 3 125 8 6 2110 56 6 1 0 07 80 2 1 140 3 7 190 5 1 290 7 8 330 8 8 2 0 14 120 3 2 230 6 2 300 8 0 430 11 5 570 15 3 3 0 21 160 4 3 290 7 8 360 9 7 580 15 5 730 19 6 5 0 34 210 5 6 360 9 7 500 13 4 760 20 8 970 26 0 i inchesw i 10 0 69 320 8 6 570 15 3 890 23 9 1190 31 9 1530 41 0 35 mbar 15 1 0 410111 0 820 22 0 1210 32 4 1460 39 1 1780 47 7 12 5 to 20 inchesw c 20 1 4 500 13 4 1050 28 1 1440 38 6 1660 44 5 1950 52 3 31 to 50 mbar 30 24 670 18 0 1500 40 2 1790 48 0 2200 59 0 2 inches w c droop 40 2 8 830 22 2 1830 49 0 2020 54 1 2 inches w c boost 50 3 5 970 26 0 2100 56 3 2100 56 3 60 4 1 1140 30 6 2350 63 0 2180 58 4 80 5 5 1440 38 6 3000 80 4 100 6 9 1770 47 4 2550 68 3
13. ratings does not prevent the possibility of damage from external sources or from debris in the pipeline A regulator should be inspected for damage after any overpressure condition Capacity Information The high efficiency flow through design provides maximum capacity for a given orifice size Tables 8 through 1 give the HSR Series flow capacities at selected inlet pressures and outlet pressure settings Flows are in SCFH at 60 F and 14 7 psia and Nm h at 0 C and 1 01325 bar of 0 6 specific gravity natural gas To determine equivalent capacities for air propane butane or nitrogen multiply the listed SCFH capacity by the following appropriate conversion factor air 0 775 for air propane 0 628 butane 0 548 nitrogen 0 789 For gases of other specific gravities multiply the given SCFH capacity by 0 775 and divide by the square root of the appropriate specific gravity If capacity is desired in Nm h multiply SCFH by 0 0268 For Critical Pressure Drops Use this equation for critical pressure drops absolute outlet pressure equal to one half or less than one half the absolute inlet pressure Q Pae Co 1 29 where Q gas flow rate SCFH C gas sizing coefficient P absolute inlet pressure psia For Non Critical Pressure Drops For pressure drops lower than critical absolute outlet pressure greater than one half of absolute inlet pressure use the following formula Q C P SIN ial AP DEG GT 1 Pi wh
14. to be construed as warranties or guarantees express or implied regarding the products or services described herein or their use or applicability We reserve the right to modify or improve the designs or specifications of such products at any time without notice Emerson Process Management Regulator Technologies Inc does not assume responsibility for the selection use or maintenance of any product Responsibility for proper selection use and maintenance of any Emerson Process Management Regulator Technologies Inc product remains solely with the purchaser Emerson Process Management Regulator Technologies Inc 2003 2013 All Rights Reserved EMERSON Process Management
15. 1 ABS 60 41 1030 27 6 1910 51 2 2500 67 0 80 55 1350 36 2 2350 63 0 100 6 9 1650 44 2 2600 69 7 125 8 6 2000 53 6 3 0 21 150 4 0 270 7 2 420 11 3 600 16 1 790 21 2 5 0 34 210 5 6 420 11 3 620 16 6 960 25 7 1320 35 4 10 0 69 340 9 1 700 18 8 1050 28 1 1650 44 2 2150 57 6 psal 15 1 0 440 11 8 940 25 2 1450 38 9 2230 59 8 2720 72 9 0 14 bar 20 14 520 13 9 1150 30 8 1750 46 9 2730 73 2 3240 86 8 30 2 1 670 18 0 1540 41 3 2470 66 2 3520 94 3 1 25 to 2 2 psig 0 0940 0 15 bar 40 2 8 830 22 2 1880 50 4 2930 78 5 50 3 5 970 26 0 2220 59 5 3600 96 5 2 ABS 60 41 1130 30 3 2600 69 7 4200 113 80 55 1450 38 9 3340 89 5 100 6 9 1750 46 9 4000 107 125 8 6 2100 56 3 Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice Bulletin 71 1 HSR 10 0 69 9 0 62 8 0 55 0 48 71 4 V 1 2 inch 13 mm ORIFICE 6 t 0 41 P 5 l y 3 8 inch 9 5 mm ORIFICE 0 34 4 0 28 1 4 inch 6 4 mm ORIFICE 0 21 OUTLET PRESSURE psig bar _ 3 16 inch 4 8 mm ORIFICE 4 7 ecseneeeg 0 07 1 8 inch 3 2 mm ORIFICE 40 2 8 60 4 1 80 5 5 INLET PRESSURE psig bar 140 9 7 I 120 8 3 Figure 3 7 inches w c 17 mbar Setpoint Relief Curves with Lever Disconnec
16. 1 2 13 185 5 29 0 79 Bulletin 71 1 HSR Table 5 Standard Inlet Pressures for Set Flows ORIFICE SIZE INLET PRESSURE FOR SET FLOWS Inches mm 1 8 psi bar 4 1 3 16 3 5 1 4 2 1 3 8 1 2 1 0 0 69 through 2 psi 12 mbar through 0 14 bar outlet settings For each orifice size the outlet pressure setting is made with the same inlet pressure regardless of outlet pressure Example 3 16 inch 4 8 mm orifice uses 50 psi 3 5 bar inlet for 5 inches w c Principle of Operation Refer to Figure 2 When downstream demand decreases the pressure under the diaphragm increases This pressure overcomes the regulator setting which is set by a spring Through the action of the pusher post assembly lever and stem the valve disk moves closer to the orifice and reduces gas flow If demand downstream increases pressure under the diaphragm decreases Spring force pushes the pusher post assembly downward and the valve disk moves away from the orifice Type HSR regulators include an internal relief valve for overpressure protection If the downstream pressure exceeds the regulator setting by 7 inches w c to 1 25 psig 17 mbar to 0 09 bar depending on the main spring used the relief valve opens and excess gas escapes through the vent in the upper spring case Installation The HSR Series regulators may be installed in any position However the spring case vent sho
17. 140 3 8 190 5 1 290 7 8 330 8 8 2 0 14 120 3 2 230 6 2 300 8 0 430 11 5 570 15 3 3 0 21 160 4 3 290 7 8 360 9 6 580 15 5 730 19 6 5 0 34 210 5 6 360 9 6 500 13 4 760 20 4 970 26 0 ianen 10 0 69 320 8 6 570 15 3 890 23 9 1190 31 9 1290 34 6 35 mbar 15 1 0 410111 0 820 22 0 1210 32 4 1460 39 1 1560 41 8 12 5 to 20 inchesw c 20 1 4 500 13 4 1050 28 1 1440 38 6 1660 44 5 1700 45 6 31 to 50 mbar 30 24 670 18 0 1500 40 2 1790 48 0 1850 49 6 2 inches w c droop 40 2 8 830 22 2 1830 49 0 2020 54 1 2 inches w c boost 50 3 5 970 26 0 2100 56 3 2100 56 3 60 4 1 1140 30 6 2120 56 8 2180 58 4 80 5 5 1440 38 6 2220 59 5 100 6 9 1770 47 4 2250 60 3 125 8 6 2140 57 4 2 0 14 120 3 2 250 6 7 310 8 3 420 11 3 570 15 3 3 0 21 150 4 0 280 7 5 380 10 2 570 15 3 770 20 6 5 0 34 220 5 9 380 10 2 550 14 7 830 22 2 1040 27 9 10 0 69 330 8 8 600 16 1 890 23 9 1310 35 1 1570 42 1 28 inches w c 15 1 0 410111 0 810 21 7 1220 32 7 1600 42 9 1860 49 9 70 mbar 20 14 510 13 7 1020 27 3 1490 39 9 1790 48 0 2020 54 1 20 to 35 inches w c 30 2 1 660 17 7 1440 38 6 1820 48 8 2100 56 3 see ae nba 40 2 8 830 22 2 1800 48 2 2080 55 7 1 ABS 50 3 5 970 26 0 1980 53 1 2280 61 1 60 4 1 1130 30 3 2320 62 2 2380 63 8 80 5 5 1440 38 6 2400 64 3 100 6 9 1760 47 2 2500 67 0 125 8 6 2150 57 6 Gray area
18. 2 2220 59 5 2270 60 8 2370 63 5 30 2 1 680 18 2 1550 41 5 2880 77 2 2770 74 2 Pe ee 40 2 8 850 22 8 1900 50 9 3550 95 1 50 3 5 970 26 0 2200 59 0 4000 107 60 4 1 1150 30 8 2280 61 1 4200 113 80 55 1450 38 7 2350 63 0 100 6 9 1750 46 9 1900 50 9 125 8 6 2100 56 3 1 0 07 80 2 1 150 4 0 200 5 4 240 6 4 330 8 8 2 0 14 120 3 2 200 5 4 270 7 2 420 11 3 530 14 2 3 0 21 150 4 0 250 6 7 350 9 4 530 14 2 680 18 2 5 0 34 190 5 1 340 9 1 480 12 9 770 20 6 970 26 0 114 inches w c 10 0 69 290 7 8 550 14 7 1050 28 1 1230 33 0 1430 38 3 27 mbar 15 1 0 400 10 7 840 22 5 1470 39 4 1750 46 9 1760 47 2 10 to 12 5 inchesw c 20 1 4 480 12 9 1140 30 6 1920 51 5 2230 59 8 2450 65 7 25 to 31 mbar 30 21 670 18 0 1530 41 0 2430 65 1 2900 77 7 1 inch w c droop 40 2 8 820 22 0 1970 52 8 2870 76 9 2 inches w c boost 50 3 5 970 26 0 2150 57 6 3420 91 7 60 4 1 1120 30 0 2260 60 6 3750 101 80 55 1420 38 1 2390 64 1 100 6 9 1730 46 4 1950 52 3 125 8 6 2110 56 6 1 0 07 80 2 1 140 3 8 190 5 1 290 7 8 330 8 8 2 0 14 120 3 2 230 6 2 300 8 0 430 11 5 570 15 3 3 0 21 160 4 3 290 7 8 360 9 7 580 15 5 730 19 6 5 0 34 210 5 6 360 9 7 500 13 4 760 20 4 1000 26 8 14 inches w c 10 0 69 320 8 6 570 15 3 890 23 9 1290 34 6 1480 39 7 35 mbar 15 1 0 410 11 0 820 22 0 1210 32 4 1570 42 1 1760 47 2 12 5to20 inc
19. 38 6 3050 81 7 100 6 9 1760 47 2 3150 84 4 125 8 6 2150 57 6 3 0 21 120 3 2 190 5 1 250 6 7 330 8 8 450 12 1 5 0 34 150 4 0 270 7 2 360 9 7 560 15 0 750 20 1 10 0 69 250 6 7 430 11 5 620 16 6 1020 27 3 1340 35 9 f 15 1 0 330 8 8 600 16 1 800 21 4 1350 36 2 1480 39 7 dea 20 14 410 11 0 740 19 8 1040 27 9 1540 41 3 1800 48 2 30 21 560 15 0 1050 28 1 1450 38 9 1850 49 6 1 25 to 2 2 psig 0 09 to 0 15 bar 40 2 8 730 19 6 1320 35 4 1640 44 0 1 ABS 50 3 5 870 23 3 1620 43 4 1900 50 9 60 4 1 1030 27 6 1910 51 2 2140 57 4 80 5 5 1350 36 2 2090 56 0 100 6 9 1650 44 2 2180 58 4 125 8 6 2000 53 6 3 0 21 150 4 0 270 7 2 420 11 3 600 16 1 790 21 2 5 0 34 210 5 6 420 11 3 620 16 6 960 25 7 1230 33 0 10 0 69 340 9 1 700 18 8 1050 28 1 1430 38 3 1880 50 4 15 1 0 440 111 8 940 25 2 1350 36 2 1880 50 4 2230 59 8 rA 20 1 4 520 13 9 1150 30 8 1620 43 4 2260 60 6 2540 68 1 1 25 to 2 2 psig 30 24 670 18 0 1540 41 3 2110 56 6 2520 67 5 0 09 to 0 15 bar 40 2 8 830 22 2 1880 50 4 2430 65 1 2 ABS 50 3 5 970 26 0 2170 58 2 2640 70 8 60 4 1 1130 30 2 2460 65 9 2850 76 4 80 5 5 1450 38 9 2850 76 4 100 6 9 1750 46 9 3000 80 4 125 8 6 2100 56 3 Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice 14 Table 12 3 4 x 1 NPT Angle Bod
20. 5 60 7 100 6 9 1750 46 9 2100 56 3 125 8 6 2120 56 8 Gray areas indicate capacities limited by either droop or boost Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice continued Bulletin 71 1 HSR Table 8 3 4 NPT Globe Body Capacities continued OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS SETTING SPRING aie Orifice Size Inches mm RANGE DROOP i AND BOOST psig bar 1 8 13 2 3 16 4 8 1 4 16 4 3 8 9 5 1 12113 1 0 07 80 2 1 150 4 0 200 5 4 240 6 4 330 8 8 2 0 14 120 3 2 200 5 4 270 7 2 420 11 3 530 14 2 3 0 21 150 4 0 250 6 7 350 9 4 530 14 2 680 18 2 5 0 34 190 5 1 340 9 1 480 12 9 770 20 6 860 23 1 hene 10 0 69 290 7 8 550 14 7 910 24 4 1210 32 4 1210 32 4 27 mbar 15 1 0 400 10 7 840 22 5 1210 32 4 1380 37 0 1380 37 0 410 to12 5 incheswc 20 14 480 12 9 1140 30 6 1550 41 5 1590 42 6 1590 42 6 25 to 31 mbar 30 2 1 670 18 0 1530 41 0 1830 49 0 1810 48 5 1 inch w c droop 40 2 8 820 22 0 1970 52 8 1950 52 3 2 inches w c boost 50 3 5 970 26 0 2150 57 6 1990 53 3 60 4 1 1120 30 0 2260 60 6 2050 54 9 80 5 5 1420 38 0 2390 64 1 100 6 9 1730 46 4 1950 52 3 125 8 6 2110 56 6 1 0 07 80 2 1
21. 5 3 Senate drop 40 2 8 835 22 4 1770 47 4 1925 51 6 2 inches w c boost 50 3 5 990 26 5 2000 53 6 1960 52 5 60 4 1 1135 30 4 2155 57 7 2050 54 9 80 5 5 1440 38 6 2265 60 7 100 6 9 1750 46 9 2100 56 3 125 8 6 2120 56 8 Gray areas indicate capacities limited by either droop or boost Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice continued 12 Table 11 3 4 NPT Angle Body Capacities continued Bulletin 71 1 HSR OUTLET PRESSURE SETTING SPRING RANGE DROOP INLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS Orifice Size Inches mm AND BOOST psig bar 1 18 1 3 2 3 16 4 8 1 4 16 4 3 8 1 9 5 1 2113 1 0 07 80 2 1 150 4 0 200 5 4 240 6 4 330 8 8 2 0 14 120 3 2 200 5 4 270 7 2 420111 3 530 14 2 3 0 21 150 4 0 250 6 7 350 9 4 530 14 2 680 18 2 5 0 34 190 5 1 340 9 1 480 12 9 770 20 6 860 23 1 Oh aa ae 10 0 69 290 7 8 550 14 7 910 24 4 1210 32 4 1210 32 4 27 mbar 15 1 0 400 10 7 840 22 5 1210 32 4 1380 37 0 1380 37 0 104 Sincheswe if 20 1 4 480 12 9 1140 30 6 1550 41 5 1590 42 6 1590 42 6 25 to 31 mbar 30 24 670 18 0 1530 41 0 1830 49 0 1780 47 7 4 inch w c droop 40 2 8 820 22 0 1970 52 8 1
22. 590 15 8 940 25 2 1290 34 6 250 6 7 530 14 2 840 22 5 1380 37 0 1710 45 8 360 9 7 810 21 7 1320 35 4 2060 55 2 2500 67 0 28 inches w c 430 11 5 1010 27 1 1750 46 9 2550 68 3 3030 81 2 eal 20 1 4 530 14 2 1200 32 2 2130 57 1 2930 78 5 3380 90 6 20 to 35 inches w c 30 2 1 670 18 0 1570 42 1 2790 74 8 2550 68 3 50 to 87 mbar 40 2 8 830 22 2 1920 51 5 3400 91 1 2 ABS 50 3 5 970 26 0 2280 61 1 3800 102 60 4 1 1130 30 3 2630 70 5 4050 109 80 5 5 1440 38 6 3330 89 2 100 6 9 1760 47 2 4050 109 125 8 6 2150 57 6 3 0 21 120 3 2 190 5 1 250 6 7 330 8 8 450 12 1 5 0 34 150 4 0 270 7 2 360 9 7 560 15 0 750 20 1 10 0 69 250 6 7 430111 5 620 16 6 1020 27 3 1340 35 9 zp3g 15 1 0 330 8 8 600 16 1 800 21 4 1350 36 2 1600 42 9 0 14 bar 20 1 4 410 11 0 740 19 8 1040 27 9 1580 42 3 2040 54 7 30 2 1 560 15 0 1050 28 1 1350 36 2 1980 53 1 1 25 to 2 2 psig 00o t0015 tabar 40 2 8 730 19 6 1320 35 4 1790 48 0 50 3 5 870 23 3 1620 43 4 1960 52 5 t1 ABS 60 4 1 1030 27 6 1910 51 2 2140 57 4 80 5 5 1350 36 2 2350 63 0 100 6 9 1650 44 2 2600 69 7 125 8 6 2000 53 6 3 0 21 150 4 0 270 7 2 420111 3 600 16 1 790 21 2 5 0 34 210 5 6 420 11 3 620 16 6 960 25 7 1230 33 0 10 0 69 340 9 1 700 18 8 1050 28 1 1650 44 2 2000 53 6 saa 15 1 0 440111 8 940 25 2 1450 38 9 2130 57 1 2580 69 1 0 14 ba
23. 660 17 7 1440 38 6 2120 56 8 2650 71 0 50 to 87 mbar 40 2 8 830 22 2 1800 48 2 2500 67 0 1 ABS 50 3 5 970 26 0 2120 56 8 2900 77 7 60 44 1130 30 3 2340 62 7 3350 89 8 80 55 1440 38 6 2800 75 0 100 6 9 1760 47 2 3100 83 1 125 8 6 2150 57 6 2 0 14 150 4 0 310 83 470 12 6 710 19 0 1030 27 6 3 0 21 180 4 8 390 10 5 590 15 8 940 25 2 1380 37 0 5 0 34 250 6 7 530 14 2 840 22 5 1380 37 0 1850 49 6 10 0 69 360 9 7 810 21 7 1320 35 4 2170 58 2 2650 71 0 28 inches w c 15 1 0 430 11 5 1010 27 1 1750 46 9 2800 75 0 3250 87 1 Omba 20 1 4 530 14 2 1200 32 2 2130 57 1 3300 88 4 3650 97 8 20 to 35 inches w c 30 2 1 670 18 0 1570 42 1 2790 74 8 4000 107 50 to 87 mbar 40 2 8 830 22 2 1920 51 5 3550 95 1 2 ABS 50 3 5 970 26 0 2280 61 1 4150 111 60 4 1 1130 30 3 2630 70 5 4800 129 80 5 5 1440 38 6 3330 89 2 100 6 9 1760 47 2 4050 109 125 8 6 2150 57 6 3 0 21 120 3 2 190 5 1 250 6 7 330 8 8 450 12 1 5 0 34 150 4 0 270 7 2 360 9 7 560 15 0 750 20 1 10 0 69 250 6 7 430 11 5 620 16 6 1020 27 3 1340 35 9 psal 15 1 0 330 8 8 600 16 2 800 21 4 1350 36 2 1600 42 9 0 14 bar 20 1 4 410 11 0 740 19 8 1040 27 9 1700 45 6 2040 54 7 30 2 1 560 15 0 1050 28 1 1650 44 2 2240 60 0 1 25 to 2 2 psig 60846 0 15 lobar 40 2 8 730 19 6 1320 35 4 1920 51 5 50 3 5 870 23 3 1620 43 4 2130 57 1 t
24. 8 6 2300 61 6 Gray areas indicate capacities limited by either droop or boost Blank areas indicatewhere maximum operating inlet pressure is exceeded for a given orifice Bulletin 71 1 HSR Table 10 1 NPT Globe Body Capacities OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS SETTING SPRING AEETERESSURE Orifice Size Inches mm RANGE DROOP AND BOOST psig bar 1 8 13 2 3 16 4 8 1 4 16 4 3 8 1 9 5 1 12113 0 5 0 03 7011 9 120 3 2 170 4 7 240 6 5 300 8 0 1 0 07 100 2 7 180 4 8 240 6 4 340 9 1 430 11 5 2 0 14 130 3 5 250 6 7 330 8 8 510 13 7 630 16 9 3 0 21 170 47 340 9 1 420 11 3 680 18 2 770 20 6 5 0 34 220 5 9 420 11 3 650 17 4 960 25 7 1080 28 9 APES 10 0 69 330 8 8 730 19 6 1100 29 5 1310 35 1 1600 42 9 15 1 0 430 11 5 1000 26 8 1440 38 6 1770 47 4 1800 48 2 6 fo 8inches wc 20 1 4 530 14 2 1200 32 2 1810 48 5 2100 56 3 1960 52 5 15 to 20 mbar 30 2 1 680 18 2 1550 41 5 2100 56 3 2450 65 7 a ne 40 2 8 850 22 8 1900 50 9 2150 57 6 50 3 5 970 26 0 2200 59 0 2690 72 1 60 4 1 1150 30 8 2280 61 1 3010 80 7 80 5 5 1450 38 9 2350 63 0 100 6 9 1750 46 9 1900 50 9 125 8 6 2100 56 3 1 0 07 80 2 1 150 4 0 200 5 4 240 6 4 330 8
25. 950 52 3 2 inches w c boost 50 3 5 970 26 0 2150 57 6 1990 53 3 60 4 1 1120 30 0 2260 60 6 2050 54 9 80 5 5 1420 38 1 2390 64 1 100 6 9 1730 46 4 1950 52 3 125 8 6 2110 56 6 1 0 07 80 2 1 140 3 8 190 5 1 290 7 8 330 8 8 2 0 14 120 3 2 230 6 2 300 8 0 430111 5 570 15 3 3 0 21 160 4 3 290 7 8 360 9 7 580 15 5 730 19 6 5 0 34 210 5 6 360 9 7 500 13 4 760 20 4 970 26 0 dnes we 10 0 69 320 8 6 570 15 3 890 23 9 1190 31 9 1290 34 6 35 mbar 15 1 0 410 11 0 820 22 0 1210 32 4 1460 39 1 1560 41 8 12 5 to20 incheswoc 20 1 4 500 13 4 1050 28 1 1440 38 6 1660 44 5 1700 45 6 31 to 50 mbar 30 24 670 18 0 1500 40 2 1790 48 0 1850 49 6 2 inches w c droop 40 2 8 830 22 2 1830 49 0 2020 54 1 2 inches w c boost 50 3 5 970 26 0 2100 56 3 2100 56 3 60 4 1 1140 30 6 2120 56 8 2180 58 4 80 5 5 1440 38 6 2220 59 5 100 6 9 1770 47 4 2250 60 3 125 8 6 2140 57 4 2 0 14 120 3 2 250 6 7 310 8 3 420111 3 570 15 3 3 0 21 150 4 0 280 7 5 380 10 2 570 15 3 770 20 6 5 0 34 220 5 9 380 10 2 550 14 7 830 22 2 1040 27 9 10 0 69 330 8 8 600 16 1 890 23 9 1310 35 1 1570 42 1 28 inches w c 15 1 0 410 11 0 810 21 7 1220 32 7 1600 42 9 1860 49 9 Tombar 20 1 4 510 13 7 1020 27 3 1490 39 9 1790 48 0 2020 54 1 20 to 35 inches w c 30 2 1 660 17 7 1440 38 6 1820 48 8 2100 56 3 site Gr mbar 40 2 8 830 22
26. Bulletin 71 1 HSR March 2013 Type HSR Pressure Reducing Regulator for Residential Commercial or Industrial Applications e High Capacity e Compact Design e High Capacity Internal Relief TYPE HSR ANGLE BODY e Globe Bodies e Angle Bodies e Fixed Factor PFM Accuracy TYPE HSR GLOBE BODY e Meets or Exceeds ANSI B109 4 CGA 6 18 Requirements 4 FISHER EMERSON Process Management D103087X012 Bulletin 71 1 HSR Specifications The Specifications section lists specifications for Type HSR Pressure Reducing Regulators Specifications for a given regulator as it originally comes from the factory are stamped on the spring case nameplate Body Sizes Inlet x Outlet and End Connection Styles 3 4 3 4 x 1 and 1 NPT All sizes are available in Globe or Angle body Allowable Inlet Pressures Emergency 150 psig 10 3 bar Maximum Operating Pressure See Table 1 Allowable Outlet Pressures Emergency Casing 25 psig 1 7 bar Maximum Operating Pressure to Avoid Internal Parts Damage 3 psi 0 21 bar differential above outlet pressure setting Outlet Pressure Ranges See Table 2 Orifice Sizes See Table 1 Typical Regulating Capacities 3 4 NPT Globe See Table 8 3 4 x 1 NPT Globe See Table 9 1 NPT Globe See Table 10 3 4 NPT Angle See Table 11 3 4 x 1 NPT Angle See Table 12 1 NPT Angle See Table 13 1 Pressure Factor Accuracy See Tables 6 and 7 Flow and Sizing Coefficients See Tabl
27. RATING INLET PRESSURE TO OBTAIN GOOD REGULATING PERFORMANCE 1 8 3 2 12 5 125 8 6 3 16 4 8 28 2 100 6 9 1 4 6 4 50 0 60 4 1 3 8 9 5 105 30 2 1 1 2 13 185 20 1 2 Table 2 Outlet Pressure Ranges OUTLET PRESSURE RANGE SPRING PART SPRING STANDARD SPRING WIRE DIAMETER SPRING FREE LENGTH NUMBER COLOR CLOSING Inches w c mbar CAP COLOR Inch mm Inch mm 4to6 10 to 15 714398T0012 Black 0 062 1 57 3 40 86 4 6 to8 15 to 20 7T14399T0012 Yellow Black 0 067 1 70 3 61 91 4 8 to 10 20 to 25 71440570012 Black Black 0 067 1 70 3 71 94 0 10 to 12 5 25 to 31 7T14400T0012 Silver Black 0 072 1 83 4 10 104 12 5 to 20 31 to 50 714401T0012 Gray Black 0 080 2 03 3 60 91 4 20 to 35 50 to 87 714402T0012 Pink Black 0 093 2 36 3 52 88 9 1 25 to 2 2 psig 0 09 to 0 15 bar 714403T0012 Light Blue Red 0 105 2 67 3 66 94 0 Table 3 Standard Outlet Pressures and Set Flows OUTLET PRESSURE RANGE STANDARD OUTLET SET PRESSURE STANDARD SET GAS FLOW SCFH Nm h Inches w c mbar Inches w c mbar 4to6 10 to 15 5 12 6 to8 15 to 20 7 17 8 to 10 20 to 25 9 22 10 to 12 5 25 to 31 11 27 50 1 3 12 5 to 20 31 to 50 14 35 20 to 35 50 to 87 1 psi 0 07 bar 1 25 to 2 2 psig 0 09 to 0 15 bar 2 psi 0 14 bar Table 4 Flow and Sizing Coefficients ORIFICE SIZE WIDE OPEN RESIZING RELIEF SIZING c IEC SIZING COEFFICIENTS Inch mm C C 1 X F F 1 8 3 2 12 5 0 36 0 82 3 16 4 8 28 2 0 81 0 82 1 4 6 4 50 1 43 35 0 78 0 82 0 89 3 8 9 5 105 3 00 0 79
28. Y IS F AND FOR ANGLE BODY IS E Figure 5 Regulator Body and Spring Case Vent Locations Body Position is with Regard to the Outlet 2 18 55 gt VENT CONNECTION 3 4 OR 1 NPT Figure 6 Dimensions ji Sree Bru 2 02 51 4 04 103 y 4 58 i 116 a 3 4 OR 1 NPT jasi 5 61 gt P 25 lt 142 7 20 fe gt 183 Inches mm NOTE THE STANDARD BODY ORIENTATION FOR THE ANGLE BODY IS WITH THE BODY OUTLET ROTATED 90 DEGREES TOWARD THE READER COMPARED TO FIGURE 5 THE OUTLET OF THE ANGLE BODY WILL POINT IN THE SAME DIRECTION AS POSITION 3 OF A GLOBE BODY 19 Bulletin 71 1 Ordering Guide HSR Body Type Size and End Connection Style Select One Globe 3 4 NPT 3 4 x 1 NPT 1 NPT Angle 3 4 NPT 3 4 x 1 NPT 1 NPT 4 to 6 inches w c 10 to 15 6 to 8 inches w c 15 to 20 Orifice Size Select One 1 8 inch 3 2 mm 3 16 inch 4 8 mm 1 4 inch 6 4 mm 3 8 inch 9 5 mm 1 2 inch 13 mm Outlet Pressure Range Select One mbar Orange mbar Yellow Vent Size Select One 3 4 NPT 1 NPT Vent Orientation Select One Globe Position C Position D Position E Position F standard
29. ds 2 kg Designed Tested and Evaluated Consistent With ANSI B109 4 CGA 6 18 1 The pressure temperature limits in this Bulletin and any applicable standard or code limitation should not be exceeded Delrin is a mark owned by E I du Pont de Nemours and Co Introduction The Type HSR direct operated spring loaded regulators provide economical pressure reducing control in a variety of residential commercial and industrial applications These regulators can be used with natural manufactured or liquefied petroleum gases and have the same inlet and outlet pressure capabilities In addition the Type HSR regulators have internal relief across the diaphragm to help minimize overpressure Any outlet pressure above the start to discharge point of the nonadjustable relief valve spring moves the diaphragm off the relief valve seat allowing excess pressure to bleed out through the screened spring case vent Bulletin 71 1 HSR CONTROL MAIN SPRING WAIVE DISK RELIEF VALVE SPRING ORIFICE PUSHER POST E0908 GG INLET PRESSURE E OUTLET PRESSURE E ATMOSPHERIC PRESSURE t Figure 2 Type HSR Pressure Regulator Operational Schematic Table 1 Maximum Operating Inlet Pressure ORIFICE SIZE WIDE OPEN C MAXIMUM OPE
30. e 4 Internal Relief Performance Approximate Internal Relief Start To Discharge Point 6 to 12 inches w c 15 to 30 mbar above outlet pressure setting Applies to 6 to 8 inches w c 15 to 20 mbar and 8 to 10 inches w c 20 to 25 mbar springs only Relief Performance See Figures 3 and 4 and Table 14 Temperature Capabilities 20 to 160 F 29 to 71 C Pressure Setting Adjustment Adjusting Screw Pressure Registration Internal Lockup Performance During Normal Operation LOCKUP ABOVE LOCKUP ABOVE ORIFIEE SIZE SETPOINT SETPOINT Inches mm Inches w c mbar psi mbar 1 8 3 2 1 2 0 15 10 3 3 16 4 8 1 2 0 15 10 3 1 4 6 4 2 5 0 15 10 3 3 8 9 5 2 5 6 0 15 10 3 1 2 13 3 7 0 15 10 3 Spring Case Vent Connection Standard 1 NPT with removable screen Optional 3 4 NPT with removable screen Construction Materials Body Cast iron Body Gasket Nitrile NBR Closing Cap ASA thermoplastic provides UV ray protection Adjusting Screw Delrin Diaphragm Case Spring Case Diaphragm Plate Orifice and Valve Stem Aluminum Pusher Post or Relief Valve Seat Delrin Diaphragm and Disk Nitrile NBR Control Spring Zinc plated steel Relief Valve Spring Stainless steel Relief Valve Spring Retainer Stainless steel Vent Screen Stainless steel Lever Pin Stainless steel Spring Seat Lever and Other Metal Parts Plated steel Body Vent Mounting Positions See Figure 5 Approximate Weight 4 poun
31. ere Q gas flow rate SCFH G specific gravity of the gas T absolute temperature of gas at inlet Rankine C gas sizing coefficient P absolute inlet pressure psia Ci flow coefficient AP pressure drop across the regulator psi Then if capacity is desired in normal cubic meters per hour at 0 C and 1 01325 bar multiply SCFH by 0 0268 Ordering Information Carefully review each specification and complete the Ordering Guide on page 20 Send the Ordering Guide to your local Sales Office Bulletin 71 1 HSR Table 6 Typical HSR Regulating Capacities for a 3 4 NPT Outlet Body Size with 1 Pressure Factor Accuracy Gray areas show where indicated droop boost woul Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice d be exceeded regardless of capacity OUTLET PRESSURE INLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY GAS SETTING SPRING RANGE ecg bar Orifice Size Inches mm DROOP BOOST 1 8 1 3 20 3 16 4 80 114 1 6 40 31 8 9 5 1121138 2 0 14 220 5 9 390 10 5 570 15 3 3 0 21 220 5 9 350 9 4 570 15 3 770 20 6 5 0 34 200 5 4 380 10 2 520 13 9 830 22 2 1040 27 9 10 0 69 330 8 8 600 16 1 890 23 9 1400 37 5 1710 45 8 1 psig 15 1 0 410 11 0 810
32. fice Table 7 Typical HSR Regulating Capacities for a 1 NPT Outlet Body Size with 1 Pressure Factor Accuracy OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY GAS SETTING INLET PRESSURE TE SPRING RANGE Orifice Size Inches mm DROOP BOOST psig bar 1 8 3 2 3 16 4 8 1 41 6 4 3 8 9 5 1 2 1132 2 0 14 220 5 9 390 10 5 570 15 3 3 0 21 220 5 9 350 9 4 570 15 3 770 20 6 5 0 34 200 5 4 380 10 2 520 13 9 830 22 2 1150 30 8 10 0 69 330 8 8 600 16 1 890 23 9 1400 37 5 1980 53 1 1 psig 15 1 0 410 11 0 810 21 7 1250 33 5 2050 54 9 2550 68 3 0 07 bar 20 1 4 510 13 7 1050 28 1 1520 40 7 2600 69 7 3000 80 4 Spring T14402T0012 30 2 1 660 17 7 1500 40 2 2020 54 1 3450 92 5 Color Pink 40 2 8 830 22 2 1850 49 6 2500 67 0 1 ABS 50 35 970 26 0 2120 56 8 2900 77 7 60 4 1 1130 30 3 2500 67 0 3400 91 1 80 5 5 1440 38 6 3250 87 1 100 6 9 1760 47 2 3950 106 125 8 6 2150 57 6 3 0 21 200 5 4 300 8 0 400 10 7 5 0 34 250 6 7 350 9 4 510 13 7 750 20 1 10 0 69 250 6 7 450 12 1 650 17 4 1020 27 3 1450 38 9 15 1 0 380 10 2 620 16 6 950 25 5 1510 40 5 198 53 1 copie 20 14 480 12 9 780 20 9 1210 32 4 1900 50 9 2350 63 0 ree 30 2 1 650 17 4 1150 30 8 1780 47 7 2800 75 0 Spring TS ONE 40 2 8 800 21 4 1500 40 2 2080 55 7 sper A 50 3 5 920 24 7 2020 54 1 2550 68 3 1 ABS 60 4 1 1100 29 5 2250
33. heswc 20 1 4 500 13 4 1050 28 1 1510 40 5 1800 48 2 2400 64 3 31 to 50 mbar 30 2 1 670 18 0 1500 40 2 1980 53 1 2430 65 1 2 inches w c droop 40 2 8 830 22 2 1880 50 4 2250 60 3 2 inches w c boost 50 3 5 970 26 0 2190 58 7 2570 68 9 60 4 1 1140 30 6 2450 65 7 3400 91 1 80 55 1440 38 6 3390 90 9 100 6 9 1770 47 4 2600 69 7 125 8 6 2140 57 4 Gray areas indicate capacities limited by either droop or boost Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice continued 16 Table 13 1 NPT Angle Body Capacities continued Bulletin 71 1 HSR OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS SETTING SPRING a ala Orifice Size Inches mm RANGE DROOP AND BOOST psig bar 1 8 13 2 3 16 4 8 1 41 6 4 3 8 19 5 1 12113 2 0 14 120 3 2 250 6 7 310 8 3 420 11 3 570 15 3 3 0 21 150 4 0 280 7 5 380 10 2 570 15 3 770 20 6 5 0 34 220 5 9 380 10 2 550 14 7 830 22 2 1150 30 8 10 0 69 330 8 8 600 16 1 890 23 9 1310 35 1 1700 45 6 28 inches w c 15 1 0 410 11 0 810 21 7 1220 32 7 1720 46 1 2200 59 0 Lombar 20 1 4 510 13 7 1020 27 3 1490 39 9 2100 56 3 2500 67 0 20 to 35 inches w c 30 2 1
34. r 20 1 4 520 13 9 1150 30 8 1750 46 9 2600 69 7 2980 79 9 i 30 24 670 18 0 1540 41 3 2290 61 4 3180 85 2 1 25 to 2 2 psig Soom a aac 40 2 8 830 22 2 1880 50 4 2740 73 4 50 3 5 970 26 0 2220 59 5 2310 61 9 t2 ABS 60 41 1130 30 3 2600 69 7 3600 96 5 80 5 5 1450 38 9 3340 89 5 100 6 9 1750 46 9 4000 107 125 8 6 2100 56 3 Gray areas indicate capacities limited by either droop or boost Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice 11 Bulletin 71 1 HSR Table 11 3 4 NPT Angle Body Capacities OUTEET ene seUne NLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS RANGE DROOP Orifice Size Inches mm AND BOOST psig bar 118 13 2 3 16 4 8 1 4 16 4 3 8 9 5 1 12113 0 5 0 03 seas 190 5 1 240 6 4 285 7 6 1 0 07 95 2 6 220 5 9 250 6 7 330 8 8 400 10 7 2 0 14 150 4 0 250 6 7 335 9 0 490 13 1 650 17 4 3 0 21 185 5 0 290 7 8 430 11 5 600 16 1 750 20 1 Binches w ce 5 0 34 235 6 3 400 10 7 580 15 5 900 24 1 1100 29 5 12 mbar 10 0 69 325 8 7 775 20 8 1050 28 1 1200 32 2 410 64nches wie 15 1 0 420 11 3 980 26 3 1295 34 7 10 to 15 mbar 20 1 4 500 13 4 1120 30 0 1380 37 0 anghaNee droop 30 2
35. s indicate capacities limited by either droop or boost Blank areas indicate where maximum operating inlet pressure is exceeded for a given orifice continued Bulletin 71 1 HSR Table 8 3 4 NPT Globe Body Capacities continued OUTLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS SETTING SPRING AERTERESSURE Orifice Size Inches mm RANGE DROOP AND BOOST psig bar 1 8 3 2 3 16 4 8 1 4 64 3 8 19 5 112113 2 0 14 150 4 0 310 8 3 470 112 6 710 19 0 930 24 9 3 0 21 180 4 8 390 10 5 590 15 8 940 25 2 1230 33 0 5 0 34 250 6 7 530 14 2 840 22 5 1290 34 6 1600 42 9 10 0 69 360 9 6 810 21 7 1320 35 4 1890 50 7 2200 59 0 28 inches w c 15 1 0 430 11 5 1010 27 1 1650 44 2 2290 61 4 2530 67 8 mban 20 1 4 530 14 2 1200 32 2 1940 52 0 2490 66 7 2750 73 7 20 to 35 inches w c 30 2 1 670 18 0 1570 42 1 2430 65 1 2900 77 7 9040 87 mbar 40 2 8 830 22 2 1920 51 5 2720 72 9 2 ABS 50 3 5 970 26 0 2280 61 1 2830 75 8 60 4 1 1130 30 3 2630 70 5 3050 81 7 80 55 1440 38 6 3050 81 7 100 6 9 1760 47 2 3150 84 4 125 8 6 2150 57 6 3 0 21 120 3 2 190 5 1 250 6 7 330 8 8 450 12 1 5 0 34 150 4 0 270 7 2 360 9 6 560 15 0 750 20 1 10 0 69 250 6 7 430 11 5 620 16 6 1020 27 3 1340
36. ted No Vent Piping and 3 4 or 1 NPT Vent 10 0 69 9 0 62 8 0 55 TI 0 48 U 1 2 inch 13 aa 3 8 inch 9 5 mm ORIFICE mm ORIFICE 7 Pig 4 4 inch 6 4 mm ORIFICE 0 41 Ci 3 16 inch 4 8 mm ORIFICE 0 28 1 8 inch 3 2 mm ORIFICE 0 21 2 OUTLET PRESSURE psig bar 0 14 1 0 07 20 0 1 4 80 5 5 40 2 8 60 41 INLET PRESSURE psig bar 100 6 9 120 8 3 9 7 140 Figure 4 2 psig 0 14 bar Setpoint Relief Curves with Lever Disconnected No Vent Piping and 3 4 or 1 NPT Vent Table 14 Relief Performance ORIFICE SIZE MAXIMUM ALLOWABLE INLET PRESSURE IF OUTLET PRESSURE IS HELD AT OR BELOW 2 psig 140 mbar Inch mm psig bar 1 8 3 2 125 8 6 3 16 4 8 65 4 5 1 4 6 4 30 2 1 3 8 9 5 10 0 69 1 2 13 7 0 48 The relief performance testing is in accordance with ANSI B109 4 and CSA 6 18 with the regulator set at 7 inches w c 17 mbar stem linkage disconnected and vented directly to atmosphere using the 3 4 or 1 NPT vent 18 Bulletin 71 1 HSR y POSITION 1 v POSITION 3 POSITION 4 POSITION 2 STANDARD B2504 SPRING CASE VENT LOCATION STANDARD VENT LOCATION FOR GLOBE BOD
37. uld be pointed downward If gas escaping through the Type HSR internal relief valve could constitute a hazard the spring case vent must be piped to a location where escaping gas will not be hazardous If the vented gas will be piped to another location obstruction free tubing or piping at least equal to the vent and the end of the vent pipe must be protected from anything that might clog it Dimensions are shown in Figure 6 Type HSR Flow Capacity for Pressure Factor Measurement Tables 6 and 7 contain the flow capacities for the Type HSR at accuracies of 1 of absolute pressure This data can be used in applying the regulator in Pressure Factor Measurement also called Fixed Factor Measurement or other applications requiring better accuracy Normally pilot operated regulators with high accuracy are required for these applications However as shown in the table by flow testing and by limiting the droop on flow capacity 1 of absolute pressure is obtained Overpressure Protection The wide open C for relief sizing see Table 1 along with the capacity information should be used in choosing appropriate overpressure protection devices to ensure that none of the limits in the Specifications section are exceeded Overpressuring any portion of a regulator or associated equipment may cause leakage parts damage or personal injury due to bursting of pressure containing parts or explosion of accumulated gas Regulator operation within
38. y Capacities Bulletin 71 1 HSR OUTLET PRESSURE SETTING SPRING RANGE DROOP INLET PRESSURE CAPACITIES IN SCFH Nm h OF 0 6 SPECIFIC GRAVITY NATURAL GAS Orifice Size Inches mm AND BOOST psig bar 1 8 13 2 3 16 4 8 1 4 16 4 3 8 19 5 1 12113 0 5 0 03 190 5 1 240 6 4 285 7 6 1 0 07 110 3 0 220 5 9 250 6 7 355 9 5 450 12 1 2 0 14 170 4 6 250 6 7 340 9 1 490 13 1 770 20 6 3 0 21 210 5 6 340 9 1 500 13 4 750 20 1 1000 26 8 5 inches w c 5 0 34 245 6 6 400 10 7 750 20 1 1190 31 9 1330 35 6 Tempat 10 0 69 375 10 1 785 21 0 1290 34 6 1585 42 5 4 to 6 inches w c 15 1 0 475112 7 995 26 7 1590 42 6 10 to 15 mbar 20 1 4 565 15 1 1160 31 1 1850 49 6 inwe doop 30 2 1 740 19 8 1475 39 5 2 inches w c boost 40 2 8 900 24 1 1840 49 3 50 3 5 1050 28 1 2180 58 4 60 4 1 1215 32 6 80 5 5 1555 41 7 100 6 9 1880 50 4 1 0 07 l 150 4 0 170 4 6 240 6 4 325 8 7 2 0 14 125 3 4 190 5 1 225 6 0 345 9 3 475 12 7 3 0 21 195 5 2 220 5 9 2701 7 2 475112 7 660 17 7 5 0 34 210 5 6 275174 400 10 7 685 18 4 880 23 6 ahdheswne 10 0 69 280 7 5 440111 8 710 19 0 1235 33 1 1250 33 5 22 mbar 15 1 0 370 9 9 685 18 4 1360 36 4 1585 42 5 1400 37 5 A 16 10inches wei 20 14 485 13 0 945 25 3 1610 43 1 1820 48 8 1540 41 3 20 to 25 mbar 30 2 1 680
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