shell and coil

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Shell and Coil Heat Exchangers

The shell and coi l heat exchangers are constructed using circularlayers of helically corrugated tubes placed inside a light compact shell.The fluid in each layer flows in the opposite direction to the layersurrounding it, producing a criss-cross pattern. The large number ofclosely packed tubes creates a significant heat transfer surface within alight compact shell. The alternate layers create a swift uniform heating offluids increasing the total heat transfer coefficient. The corrugated tubesproduce a turbulent flow where the desired feature of fluctuatingvelocities is achieved. This haphazard movement of fluid particlesreduces deposit buildup by performing a "scoop and lift" action. Theconnection locations and angle of entry is specially selected to reduce

the probability of debris buildup.

Click Here For Complete Product Specifications

Shell and Coil Construct ion Features The shell and coil tube series are manufactured as a singe unit with no removable parts. The coiled tube bundleswelded to a compact tube sheet located within the entry and exit connections. The cylindrical shell is terminated bspherical heads. Design variations include smooth or grooved tubes, angled or 90 connections in flanged or NPTtermination, and 316L stainless or titanium components.

Advantages of t he shel l and coi l heat exchangers :The shell and coil design is the perfect choice whenever high heat transfer rates, compact design and low mainte

costs are high priorities. Other benefits include:

High Performance: the unique coil arrangement has a large heat transfer area meaning high heat transfer

coefficients.

Compact and Lightweight: closely packed tubes makes our shell and coil exchangers compact and

lightweight. Small footprint makes it easy to install where space is limited and hard to access.

Low Maintenance Costs: corrugated tube design produces a high turbulent flow, which reduces deposit

up and fouling. This means longer operating cycles between scheduled cleaning intervals.

Low Installation Costs: vertical installation makes it ideal for hydronic heating and cooling systems where

is an issue.

Higher Temperature Differentials: helical design allows for higher temperatures and extreme temperatur

differentials without high stress levels and costly expansion joints. Flexible Designs: variety of model types and configurations allow shell and coil heat exchangers to be us

a wide range of pressures, temperatures, and flows.

Low Pressure Drop:

Easy selection based on sub-station space requirements and heat or cooling load.

Units kept in stock for immediate delivery.

Shell and Coil Applications:The shell and coil design were designed specifically for the hydronic markets including:

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Heating Systems:

Chilled Water Systems:

Ground Water Systems:

Residential Use:

Distric t Heating Systems: heating systems that distribute heat from one or more heating sources to multi

buildings.

Please note that all our heat exchangers are available for immediate delivery.

Do you still have questions? We invite you to call or email us today for more information. We'll be happy to providwith a heat exchanger that matches your specific needs.

Call us today: 416.557.1067 or by Email: [email protected]

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Copyright ® 2005 | Heat Exchangers Online | All Rights Reserved

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Thermal Solutions Inc ~ P.O. Box 12033 ~ 2B-848 Burnhamthorpe Road W ~ Mississauga ~ ON ~ L5C 4R7

Phone: 416.557.1067 ~ Email: [email protected]

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a helically corrugated tubes a * with support legs

a smooth tubes a** NPT connections up to 1.5 in 2 in and above - die fored flangers compatible toCL300

Shell & Coil Parameters

Volume Mounting Dimesions Di

Type Heat Tranfer

Area Weight Shellside Tubeside Height Width Shell

sqr f t (m2) lb (kg) gal ( l) gal (l ) in (mm) in (mm) in (mm)

H-0K 3.12 (0.29) 11.0 (5.0) 0.3 (1.0) 0.13 (0.50) 23.03 (585) 3.94 (100) 3.15 (80.0)

H-1K 8.19 (0.76) 17.6 (8.0) 0.6 (2.4) 0.29 (1.10) 31.50 (800) 4.33 (110) 4.00 (101.6)

H-2K 14.21 (1.32) 22.0 (10.0) 0.8 (3.0) 0.50 (1.90) 41.73 (1060) 4.33 (110) 4.00 (101.6)

JAD x 2.11 112.92 (1.20) 43.0 (19.5) 0.7 (2.6) 0.60 (2.26) 59.57 (1513) 6.30 (160) 3.15 (80.0)

JAD x 3.18 21.53 (2.00) 61.7 (28.0) 1.3 (5.0) 1.06 (4.00) 59.45 (1510) 6.77 (172) 4.00 (101.6)

JAD x 5.38 43.06 (4.00) 95.9 (43.5) 3.0 (11.4) 1.75 (6.63) 59.45 (1510) 8.03 (204) 5.50 (139.7)

JAD x 6.50 61.35 (5.70) 121.3 (55.0) 3.6 (13.6) 2.96 (11.20) 58.74 (1492) 8.11 (206) 6.26 (159.0)

JAD x 9.88 115.17 (10.70) 209.4 (95.0) 7.7 (29.0) 4.23 (16.00) 58.31 (1481) 9.96 (253) 8.63 (219.1)

JAD x 12.114 198.06 (18.40) 330.7 (150.0) 14.3 (54.2) 5.31 (20.10) 66.34 (1685) 13.39 (340) 10.75 (273.0)

JAD x 17.217.10 376.74 (35.00) 925.9 (420.0) 63.14 (239.0) 20.50 (77.60) 84.25 (2140)* 26.38 (670) 20.00 (508.0)

JAD x K 2.11 12.92 (1.20) 43.0 (19.5) 0.7 (2.6) 0.60 (2.26) 59.57 (1513) 6.30 (160) 3.15 (80.0)

JAD x K 3.18 21.53 (2.00) 61.7 (28.0) 1.3 (5.0) 1.06 (4.00) 59.45 (1510) 6.77 (172) 4.00 (101.6)

S-OXK 24.76 (2.30) 63.9 (29.0) 1.6 (6.2) 0.87 (3.30) 35.87 (911) 8.03 (204) 5.50 (139.7)

S-IXK 33.80 (3.14) 77.2 (35.0) 2.6 (9.8) 1.19 (4.50) 39.09 (993) 8.11 (206) 6.26 (159.0)

JAD x K 5.38 43.06 (4.00) 95.9 (43.5) 3.0 (11.4) 1.75 (6.63) 59.45 (1510) 8.03 (204) 5.50 (139.7)

JAD x K 5.38.08.71 24.76 (2.30) 54.0 (24.5) 1.8 (6.8) 1.06 (4.04) 35.87 (911) 8.03 (204) 5.50 (139.7)

JAD x K 6.50 61.35 (5.70) 121.3 (55.0) 3.6 (13.6) 2.96 (11.20) 58.74 (1492) 8.11 (2.06) 6.26 (159.0)

JAD x K 6.50.10 54.89 (5.10) 116.8 (53.0) 3.7 (14.2) 2.80 (10.60) 58.74 (1492) 8.11 (2.06) 6.26 (159.0)

JAD x K 6.50.08.72 33.80 (3.14) 77.2 (35.0) 2.6 (.9.8) 1.19 (4.50) 35.94 (913) 8.11 (2.06) 6.26 (159.0)

JAD x K 9.88 115.17 (10.70) 209.4 (95.0) 7.7 (29.0) 4.23 (16.00) 58.31 (1481) 9.96 (253) 8.63 (219.1)

JAD x K 9.88.10 89.34 (8.30) 198.4 (90.0) 8.5 (32.0) 3.43 (13.00) 58.31 (1481) 9.96 (253) 8.63 (219.1)

JAD x K 9.88.12 73.41 (6.82) 198.4 (90.0) 7.9 (30.0) 4.22 (16.00) 58.31 (1481) 9.96 (253) 8.63 (219.1)

JAD x K 9.88.08.85 66.74 (6.20) 127.4 (57.8) 6.6 (25.0) 2.17 (8.20) 42.76 (1086) 9.96 (253) 8.63 (219.1)

JAD x K 9.88.08.65 53.50 (4.97) 117.5 (53.3) 5.5 (20.8) 1.74 (6.60) 34.88 (886) 9.96 (253) 8.63 (219.1)

JAD x K 12.114 198.06 (18.40) 330.7 (150.0) 14.3 (54.2) 5.31 (20.10) 66.34 (1685) 13.39 (340) 10.75 (273.0)

JAD x K 12.114.10 160.38 (14.90) 313.1 (142.0) 14.5 (55.0) 5.10 (19.30) 66.34 (1685) 13.39 (340) 10.75 (273.0)

JAD x K 12.114.12 113.02 (10.50) 291.0 (132.0) 14.7 (55.8) 4.89 (18.50) 66.34 (1685) 13.39 (340) 10.75 (273.0)

JAD x K 12.114.08.75 94.51 (8.78) 170.9 (77.5) 10.2 (38.5) 2.64 (10.00) 40.59 (1031) 13.39 (340) 10.75 (273.0)

JAD x K 12.114.08.60 69.53 (6.46) 150.1 (68.1) 9.0 (34.0) 2.14 (8.10) 34.68 (881) 13.39 (340) 10.75 (273.0)

JAD x K 12.114.08.50 67.27 (6.25) 146.4 (66.4) 7.7 (29.0) 2.11 (8.00) 30.75 (781) 13.39 (340) 10.75 (273.0)JAD x K

14.163.08.121 265.90 (24.70) 451.9 (205.0) 12.8 (48.60 10.40 (39.40) 88.11 (2238)* 15.04 (382) 12.76 (324.0)

JAD x K14.163.10.121 195.90 (18.20) 392.4 (178.0) 13.2 (50.0) 12.52 (47.40) 88.11 (2238)* 15.04 (382) 12.76 (324.0)

JAD x K14.163.12.121 168.90 (15.70) 370.4 (168.0) 12.0 (45.5) 11.10 (42.00) 88.11 (2238)* 15.04 (382) 12.76 (324.0)

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