Versaprofiles_versapipe Hd100 Geo_technical Data Sheet

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[ TECHNICAL DATA SHEET ] High Density Polyethylene IPS Pipe for Geothermal Applications Manufactured from PE3408/4710, certified to NSF 358, CSA C448 and CSA B137.1 SCOPE This technical data sheet designates the raw materials properties of the VERSAPIPE® HD100 GEO pipe for use in ground source heat pump exchanger applications. It describes the minimum requirements established by Versaprofiles for the design and manufacture of a pipe especially created for various closed-loop heat exchanger purposes, like vertical, horizontal and pond installations. RAW MATERIAL All VERSAPIPE® HD100 GEO geothermal high density polyethylene pipes are manufactured from PE3408/4710 high density polyethylene resin meeting the cell classification 445574C, or equivalent, as per ASTM D-3350. The raw material is filled with carbon black as an ultra violet inhibitor and can be stored outside. In addition, the raw material offers good protection against chemical products such as glycol and methanol. (See the tables below for more information.) PRINTLINE Versaprofiles VERSAPIPE® HD100 GEO pipe is identified with permanent marking and sequential footage numbering every two (2) feet. Footage Numbering Every 2 feet ==000000 == End Use Application VERSApipe HD100 Manufacturer/ Product Name Made In GEO CANADA Ø 4" Dimension Ratio IPS OD PIPE SDR 13.5 Pipe Diameter & Sizing System Tracking Code PE4710 ==AAMMJJEE== SERIES / PC 160 PSI Pipe Material Designation Code Pressure Rating At 73°F Applicable Standards c us 358 U.M.Code ASTM D3035 CSA C448/B137.1 Third Party Certification HANDLING, JOINING AND INSTALLATION In order to assure the complete integrity of the piping system, do not drag or roll the VERSAPIPE® HD100 GEO pipe across rocks or rough ground. Installation and backfill practices for VERSAPIPE® HD100 GEO pipe in trench, vertical bore or pond applications should comply with guidelines prepared by the International Ground Source Heat Pump Association (IGSHPA), Plastic Pipe Institute (PPI)1, and with the installation recommendations found in CSA C448 and B137.1 standards. VERSAPIPE® HD100 GEO pipe is connected by heat fusions in accordance with ASTM F2620 and Plastic Pipe Institute (PPI)2 recommendations. The fittings must be made with the same polyethylene used in the pipe. Before being buried, the loop should be tested using pressurized water at a maximum 150% of the nominal pressure related to the dimension ratio. This test should never be done using air or compressed gas. 1 : http://plasticpipe.org/pdf/chapter12.pdf 2 : http://plasticpipe.org/pdf/chapter09.pdf VERSAPIPE® HD100 GEO | Rev.2015032601 130 Aubé street, Saint-Lazare-de-Bellechasse, QC, G0R 3J0 Ph. 1-877-335-PIPE(7473) | 418-883-2036 | Fax: 418-883-5044 Email: [email protected] | www.versaprofiles.com 1 [ TECHNICAL DATA SHEET ] High Density Polyethylene IPS Pipe for Geothermal Applications Manufactured from PE3408/4710, certified to NSF 358, CSA C448 and CSA B137.1 RAW MATERIAL PROPERTIES AND CELL CLASSIFICATION RAW MATERIAL PROPERTIES AND CELL CLASSIFICATION AS PER ASTM D3350 Properties Cell Classification (445574C) ASTM Test Method Density (natural) 4 D 792 Typical Values Imperial Units SI Units - 0.949 g/cm3 Melt Index 4 D 1238 - 0.075 g/10min. Flexural Modulus 5 D 790 150,000 psi 1034 MPa Tensile Strength at Yield 5 D 638 3,500 psi 24.1 MPa Resistance to Slow Crack Growth 7 F 1473 >5000 h >5000 h Hydrostatic Design Basis @ 73°F (23°C) 4 D 2837 1,600 psi 11.0 MPa Carbon Black Concentration (by weight) C - - 2% Elongation at Break D 638 > 800% > 800% IZOD Impact Strength, notched D 256 > 8.0 ft-lb./po. > 427 J/m Brittleness Temperature D 746 <-180°F <-118°C Environmental Stress Crack Resistance D 1693 >1,000 h >1,000 h of compound (SCG), hrs. (PENT) (C Condition) Thermal conductivity 0.24 BTU/(hr pi °F) 0.42 W/(m °K) Specific heat capacity 0.55 BTU/(lb °F) 2,300 J/(Kg °K) STANDARD PRODUCT SIZES AS PER ASTM D3035† SDR 15.5 Nominal Pipe Size,IN ¾ 1 1¼ 1½ 2 3 4 6 8 SDR 13.5 SDR 11 SDR 9 Outside Diameter, IN (mm) Tolerance, IN (mm) Average Wall Thickness, IN (mm)) Weight for 100 Ft. Lbs (Kg) Average Wall Thickness, IN (mm)) Weight for 100 Ft. Lbs (Kg) Average Wall Thickness, IN (mm)) Weight for 100 Ft. Lbs (Kg) Average Wall Thickness, IN (mm) Weight for 100 Ft. Lbs (Kg) 1.050 (26.67) 1.315 (33.40) 1.660 (42.16) 1.900 (48.26) 2.375 (60.31) 3.500 (88.90) 4.500 (114.30) 6.625 (168.28) 8.625 (219.08) ± 0.004 (0.10) ± 0.005 (0.13) ± 0.005 (0.13) ± 0.006 (0.15) ± 0.006 (0.15) ± 0.008 (0.20) ± 0.009 (0.23) ± 0.011 (0.28) ± 0.013 (0.33) 0.078** (1.98) 0.094** (2.39) 0.117** (2.97) 0.133** (3.38) 0.163** (4.14) 0.240 (6.08) 0.308 (7.81) 0.453** (11.49) 0.590** (14.97) 9,90** (4.49) 14,99** (6.80) 23,58** (10.70) 30,70** (13.93) 47,09** (21.36) 101,99 (46.26) 168,38 (76.38) 364,81** (165.48) 618,70** (280.64) 0.088* (2.24) 0.107* (2.72) 0.133* (3.38) 0.151* (3.84) 0.187* (4.74) 0.275 (6.97) 0.353 (8.97) 0.521** (13.22) 0.678** (17.21) 11,06* (5.02) 16,88* (7.66) 26,53* (12.03) 34,49* (15.65) 53,44* (24.24) 115,64 (52.45) 191,20 (86.72) 415,01** (188.25) 703,27** (319.00) 0.105 (2.67) 0.130 (3.30) 0.161 (4.09) 0.184 (4.66) 0.229 (5.82) 0.337 (8.56) 0.434 (11.01) 0.638** (16.21) 0.831** (21.11) 12,96 (5.88) 20,12 (9.13) 31,52 (14.30) 41,24 (18.71) 64,19 (29.12) 139,22 (63.15) 228,58 (103.68) 494,70** (224.40) 845,95** (383.72) 0.127 (3.23) 0.156 (3.96) 0.195 (4.95) 0.224 (5.68) 0.280 (7.11) 0.413 (10.48) 0.530 (13.46) 0.780** (19.81) 1.016** (25.79) 15.16 (6.89) 23.38 (10.63) 36.78 (16.72) 48.36 (21.98) 75.85 (34.48) 166.08 (75.49) 274.22 (124.65) 594.22** (270.10) 1009.00** (457.77) † Ask your account manager about the availability of the displayed sizes. Versaprofiles may also offer options that are not listed in this document. * Only certified to CSA C448/B137.1 ** Not NSF 358 certified VERSAPIPE® HD100 GEO | Rev.2015032601 VERSAPIPE® HD100 GEO | Rev.2014102001 130 Aubé street, Saint-Lazare-de-Bellechasse, QC, G0R 3J0 Ph. 1-877-335-PIPE(7473) | 418-883-2036 | Fax: 418-883-5044 Email: [email protected] | www.versaprofiles.com 2 [ TECHNICAL DATA SHEET ] High Density Polyethylene Pipe for Geothermal Applications Manufactured from PE3408/4710, certified to NSF 358, CSA C448 and CSA B137.1 PRESSURE RATING MINIMUM BENDING RADIUS Pipe Standard Diameter Ratio (SDR) Standard Pressure Rating (PSIG @ 73°F (23°C) ) Pipe Standard Diameter Ratio (SDR) Minimum Long Term Cold Bending Radius 21 100 9 or less 20 X OD 17 125 11, 13.5 25 X OD 15.5 138 15.5, 17, 21 27 X OD 13.5 160 11 200 9 250 OD = Pipe outside diameter. THERMAL EXPANSION CALCULATION FLUID VOLUME CALCULATION TEMPERATURE COMPENSATING MULTIPLIER Maximum Pipe Sustained Temperature °F (°C) Compensating Multiplier -20 (-29) 2.54 -10 (-23) 2.36 0 (-18) 2.18 10 (-12) 2.00 20 (-7) 1.81 30 (-1) 1.65 40 (4) 1.49 50 (10) 1.32 60 (16) 1.18 73.4 (23) 1.00 90 (32) 0.82 100 (38) 0.73 110 (43) 0.64 120 (49) 0.58 130 (54) 0.50 140 (60) 0.43 TEMPERATURE 80 (27) 0.93 COMPENSATING MULTIPLIER 2 ∆L = L α ∆T V=πr L Where ∆L = pipeline length variation, ft L = pipe length, ft α = 10-6 67 (thermal expansion coefficient, in/in/ºF) ∆T = temperature variation,ºF Where 3 3 V = volume , ft (m ) π = 3.1416… r = pipe inside radius (ID/2), ft (m) L = pipe length, ft (m) Note: For weight calculation, W = V D Where W = weight, lb 3 V = calculated volume, ft D = fluid density, lb/ft3 References : -ASTM Standards F714, D3035, D3350 and F2620 -CSA Standards B137.1 et C448 -Plastic Pipe Institute (PPI), http://plasticpipe.org/publications/pe_handbook.html Versaprofiles can change the information contained in this document without notice. Please contact the customer service to receive an updated version. VERSAPIPE® HD100 GEO | Rev.2015032601 130 Aubé street, Saint-Lazare-de-Bellechasse, QC, G0R 3J0 Ph. 1-877-335-PIPE(7473) | 418-883-2036 | Fax: 418-883-5044 Email: [email protected] | www.versaprofiles.com 3