If you are visually impaired or blind, you can visit the PDF version by Pressing CONTROL + ALT + 4
<br /> RADIANT<br /> COOLING SYSTEMS<br /> RADIANT COOLING<br /> DESIGN MANUAL<br /> Radiant Cooling Design Manual<br /> Embedded Systems for Commercial Applications<br /> RCDMManual_RC03_0513_, Copyright © 2013 Uponor, Printed in the United States<br /> Uponor, Inc. Uponor Ltd.<br /> 5925 148th Street West 2000 Argentia Rd., Plaza 1, Ste. 200<br /> Apple Valley, MN 55124 USA Mississauga, ON L5N 1W1 CANADA<br /> Tel: 800.321.4739 Tel: 888.994.7726<br /> Fax: 952.891.2008 Fax: 800.638.9517<br /> www.uponorengineering.com<br /> Radiant Cooling Design Manual (RCDM) First Edition<br /> ii<br /> Radiant Cooling Design Manual<br /> is published by<br /> Uponor, Inc.<br /> 5925 148th Street West<br /> Apple Valley, MN 55124 USA<br /> Tel: 800.321.4739<br /> Fax: 952.891.2008<br /> www.uponorengineering.co<a title="Radiant Cooling Design Manual page 1" href="http://viewer.zmags.com/publication/789d5266?page=1"> RADIANT COOLING SYSTEMS RADIANT COOLING DESIGN MA</a> <a title="Radiant Cooling Design Manual page 2" href="http://viewer.zmags.com/publication/789d5266?page=2"> RCDMManual_RC03_0513_, Copyright © 2013 Uponor, P</a> <a title="Radiant Cooling Design Manual page 3" href="http://viewer.zmags.com/publication/789d5266?page=3"> Radiant Cooling Design Manual (RCDM) First Edit</a> <a title="Radiant Cooling Design Manual page 4" href="http://viewer.zmags.com/publication/789d5266?page=4"> ii Radiant Cooling Design Manual is published by</a> <a title="Radiant Cooling Design Manual page 5" href="http://viewer.zmags.com/publication/789d5266?page=5"> Table of Contents Radiant Cooling Design Manual </a> <a title="Radiant Cooling Design Manual page 6" href="http://viewer.zmags.com/publication/789d5266?page=6"> iv Table of Contents Radiant Cooling Design Manu</a> <a title="Radiant Cooling Design Manual page 7" href="http://viewer.zmags.com/publication/789d5266?page=7"> Foreword Uponor, formerly Wirsbo, is dedicated t</a> <a title="Radiant Cooling Design Manual page 8" href="http://viewer.zmags.com/publication/789d5266?page=8"> 2 </a> <a title="Radiant Cooling Design Manual page 9" href="http://viewer.zmags.com/publication/789d5266?page=9"> Chapter 1: Introduction The goal of this manual </a> <a title="Radiant Cooling Design Manual page 10" href="http://viewer.zmags.com/publication/789d5266?page=10"> In 1968, a German engineer named Thomas Engel dev</a> <a title="Radiant Cooling Design Manual page 11" href="http://viewer.zmags.com/publication/789d5266?page=11"> well. By utilizing the same PEX-a tubing embedded</a> <a title="Radiant Cooling Design Manual page 12" href="http://viewer.zmags.com/publication/789d5266?page=12"> 6 Fan Energy Example: Calculate the power consum</a> <a title="Radiant Cooling Design Manual page 13" href="http://viewer.zmags.com/publication/789d5266?page=13"> More Efficient Operating Modes: In addition to re</a> <a title="Radiant Cooling Design Manual page 14" href="http://viewer.zmags.com/publication/789d5266?page=14"> Reduced Operating and Maintenance Costs The embed</a> <a title="Radiant Cooling Design Manual page 15" href="http://viewer.zmags.com/publication/789d5266?page=15"> Chapter 2 Fundamentals Mean Radiant Temperature</a> <a title="Radiant Cooling Design Manual page 16" href="http://viewer.zmags.com/publication/789d5266?page=16"> 76°F 80°F 76°F Ceiling = 78°F </a> <a title="Radiant Cooling Design Manual page 17" href="http://viewer.zmags.com/publication/789d5266?page=17"> Radiation Not surprisingly, the sensible heat tra</a> <a title="Radiant Cooling Design Manual page 18" href="http://viewer.zmags.com/publication/789d5266?page=18"> 12 The total heat flux of the radiant floor syst</a> <a title="Radiant Cooling Design Manual page 19" href="http://viewer.zmags.com/publication/789d5266?page=19"> As previously discussed, the radiation within a s</a> <a title="Radiant Cooling Design Manual page 20" href="http://viewer.zmags.com/publication/789d5266?page=20"> 14 Surface Temperature Maximum Heating </a> <a title="Radiant Cooling Design Manual page 21" href="http://viewer.zmags.com/publication/789d5266?page=21"> Flux, Radiant Floor Cooling Including Short-wave </a> <a title="Radiant Cooling Design Manual page 22" href="http://viewer.zmags.com/publication/789d5266?page=22"> 16 The values of θ f, i vary only slightly with </a> <a title="Radiant Cooling Design Manual page 23" href="http://viewer.zmags.com/publication/789d5266?page=23"> Floor Cooling Calculating the convective heat tra</a> <a title="Radiant Cooling Design Manual page 24" href="http://viewer.zmags.com/publication/789d5266?page=24"> 18 Floor Heating Unlike the radiant heat exchang</a> <a title="Radiant Cooling Design Manual page 25" href="http://viewer.zmags.com/publication/789d5266?page=25"> Space Heat Flux Coefficient — Floor Systems The i</a> <a title="Radiant Cooling Design Manual page 26" href="http://viewer.zmags.com/publication/789d5266?page=26"> Flux, Radiant Floor Heating For example, using th</a> <a title="Radiant Cooling Design Manual page 27" href="http://viewer.zmags.com/publication/789d5266?page=27"> Chapter 3: Zoning, Controls and Piping Zoning t</a> <a title="Radiant Cooling Design Manual page 28" href="http://viewer.zmags.com/publication/789d5266?page=28"> Determining the Load Requirements As with any sys</a> <a title="Radiant Cooling Design Manual page 29" href="http://viewer.zmags.com/publication/789d5266?page=29"> Load Analysis Example 1 Estimate the radiant heat</a> <a title="Radiant Cooling Design Manual page 30" href="http://viewer.zmags.com/publication/789d5266?page=30"> Control System The control system is a critical c</a> <a title="Radiant Cooling Design Manual page 31" href="http://viewer.zmags.com/publication/789d5266?page=31"> Principally, the control strategy depends on the</a> <a title="Radiant Cooling Design Manual page 32" href="http://viewer.zmags.com/publication/789d5266?page=32"> Control of Thermo Active Building Systems (TABS) </a> <a title="Radiant Cooling Design Manual page 33" href="http://viewer.zmags.com/publication/789d5266?page=33"> Dew Point Control The surface temperature at any </a> <a title="Radiant Cooling Design Manual page 34" href="http://viewer.zmags.com/publication/789d5266?page=34"> 28 Piping Strategy for Mixed Water Temperature C</a> <a title="Radiant Cooling Design Manual page 35" href="http://viewer.zmags.com/publication/789d5266?page=35"> Hot Water Supply Hot Water Return Cold Water Retu</a> <a title="Radiant Cooling Design Manual page 36" href="http://viewer.zmags.com/publication/789d5266?page=36"> Temperature Differences and Flow Rates Using the </a> <a title="Radiant Cooling Design Manual page 37" href="http://viewer.zmags.com/publication/789d5266?page=37"> Constant Flow, Variable Temperature For illustrat</a> <a title="Radiant Cooling Design Manual page 38" href="http://viewer.zmags.com/publication/789d5266?page=38"> 32 Constant Flow, Constant Temperature For this </a> <a title="Radiant Cooling Design Manual page 39" href="http://viewer.zmags.com/publication/789d5266?page=39"> Local Zone Control As described previously, it is</a> <a title="Radiant Cooling Design Manual page 40" href="http://viewer.zmags.com/publication/789d5266?page=40"> Mixing or Injection Valves Depending on the speci</a> <a title="Radiant Cooling Design Manual page 41" href="http://viewer.zmags.com/publication/789d5266?page=41"> Peak Shaving with TABS Incorporating TABS can exp</a> <a title="Radiant Cooling Design Manual page 42" href="http://viewer.zmags.com/publication/789d5266?page=42"> 30 2 29 28 27 Temperature (ºC) 26 25 24 </a> <a title="Radiant Cooling Design Manual page 43" href="http://viewer.zmags.com/publication/789d5266?page=43"> 30250 20 Maximum Total Heat Gain in Space (W/m</a> <a title="Radiant Cooling Design Manual page 44" href="http://viewer.zmags.com/publication/789d5266?page=44"> Figure 3-14: An entry area could be hydronically </a> <a title="Radiant Cooling Design Manual page 45" href="http://viewer.zmags.com/publication/789d5266?page=45"> Figure 4-1: Uponor Motorized Valve Actuator and Z</a> <a title="Radiant Cooling Design Manual page 46" href="http://viewer.zmags.com/publication/789d5266?page=46"> Selecting the Construction Method There are a var</a> <a title="Radiant Cooling Design Manual page 47" href="http://viewer.zmags.com/publication/789d5266?page=47"> Figure 4-4: Floor Slab on Grade Floor Slab on </a> <a title="Radiant Cooling Design Manual page 48" href="http://viewer.zmags.com/publication/789d5266?page=48"> Figure 4-5: Slab on Steel Deck Slab on Steel</a> <a title="Radiant Cooling Design Manual page 49" href="http://viewer.zmags.com/publication/789d5266?page=49"> Figure 4-6: Topping Slab on Slab Topping Slab </a> <a title="Radiant Cooling Design Manual page 50" href="http://viewer.zmags.com/publication/789d5266?page=50"> Figure 4-7: Slab on Wood Subfloor Slab on Wood </a> <a title="Radiant Cooling Design Manual page 51" href="http://viewer.zmags.com/publication/789d5266?page=51"> Figure 4-9: Tubing Dipped Below Expansion or Isol</a> <a title="Radiant Cooling Design Manual page 52" href="http://viewer.zmags.com/publication/789d5266?page=52"> 46 Determining System Parameters and Operating C</a> <a title="Radiant Cooling Design Manual page 53" href="http://viewer.zmags.com/publication/789d5266?page=53"> Tubing Calculation 1 Estimate the length of tubin</a> <a title="Radiant Cooling Design Manual page 54" href="http://viewer.zmags.com/publication/789d5266?page=54"> Construction Materials1/8" 1/4" 3/8" </a> <a title="Radiant Cooling Design Manual page 55" href="http://viewer.zmags.com/publication/789d5266?page=55"> Operating Temperatures and Flow Rates The capacit</a> <a title="Radiant Cooling Design Manual page 56" href="http://viewer.zmags.com/publication/789d5266?page=56"> Capacity Calculation: Estimate the capacity of a </a> <a title="Radiant Cooling Design Manual page 57" href="http://viewer.zmags.com/publication/789d5266?page=57"> Determining Flow Rates and Pressure Drops The flo</a> <a title="Radiant Cooling Design Manual page 58" href="http://viewer.zmags.com/publication/789d5266?page=58"> 52 Sizing and Locating Manifolds Supply and retu</a> <a title="Radiant Cooling Design Manual page 59" href="http://viewer.zmags.com/publication/789d5266?page=59"> Engineered Polymer (EP) Manifold Exploded View </a> <a title="Radiant Cooling Design Manual page 60" href="http://viewer.zmags.com/publication/789d5266?page=60"> Manifold Calculation: Calculate the number of EP </a> <a title="Radiant Cooling Design Manual page 61" href="http://viewer.zmags.com/publication/789d5266?page=61"> TruFLOW Manifold Exploded View </a> <a title="Radiant Cooling Design Manual page 62" href="http://viewer.zmags.com/publication/789d5266?page=62"> Figure 4-16: Single-wall Serpentine Tubing Layout</a> <a title="Radiant Cooling Design Manual page 63" href="http://viewer.zmags.com/publication/789d5266?page=63"> Reverse Return Layout An alternative method for l</a> <a title="Radiant Cooling Design Manual page 64" href="http://viewer.zmags.com/publication/789d5266?page=64"> Energy Modeling There are a number of commerciall</a> <a title="Radiant Cooling Design Manual page 65" href="http://viewer.zmags.com/publication/789d5266?page=65"> Appendix A Glossary This glossary identifies and</a> <a title="Radiant Cooling Design Manual page 66" href="http://viewer.zmags.com/publication/789d5266?page=66"> Injection Mixing — A method of regulating water t</a> <a title="Radiant Cooling Design Manual page 67" href="http://viewer.zmags.com/publication/789d5266?page=67"> Room Setpoint Temperature — The desired operative</a> <a title="Radiant Cooling Design Manual page 68" href="http://viewer.zmags.com/publication/789d5266?page=68"> 62Appendix A – Glossary — www.uponorenginee</a> <a title="Radiant Cooling Design Manual page 69" href="http://viewer.zmags.com/publication/789d5266?page=69"> Appendix B The Benefits of PEX-a Currently, th</a> <a title="Radiant Cooling Design Manual page 70" href="http://viewer.zmags.com/publication/789d5266?page=70"> 64 </a> <a title="Radiant Cooling Design Manual page 71" href="http://viewer.zmags.com/publication/789d5266?page=71"> Appendix C Frequently Asked Questions What is </a> <a title="Radiant Cooling Design Manual page 72" href="http://viewer.zmags.com/publication/789d5266?page=72"> Is separate embedded tubing needed to heat and co</a> <a title="Radiant Cooling Design Manual page 73" href="http://viewer.zmags.com/publication/789d5266?page=73"> What fire-rated assemblies does Wirsbo hePEX tubi</a> <a title="Radiant Cooling Design Manual page 74" href="http://viewer.zmags.com/publication/789d5266?page=74"> 68Appendix C – Frequently Asked Questions — </a> <a title="Radiant Cooling Design Manual page 75" href="http://viewer.zmags.com/publication/789d5266?page=75"> Appendix D Mean Water Temperature and Mean Surfac</a> <a title="Radiant Cooling Design Manual page 76" href="http://viewer.zmags.com/publication/789d5266?page=76"> 70 15 9" O.C. Mean Water Temperature and Mean S</a> <a title="Radiant Cooling Design Manual page 77" href="http://viewer.zmags.com/publication/789d5266?page=77"> 10 12" O.C. Mean Water Temperature and Mean Surf</a> <a title="Radiant Cooling Design Manual page 78" href="http://viewer.zmags.com/publication/789d5266?page=78"> 72Appendix D – Mean Water Temperature and Mean Su</a> <a title="Radiant Cooling Design Manual page 79" href="http://viewer.zmags.com/publication/789d5266?page=79"> Appendix E R-value Charts Construction Materials</a> <a title="Radiant Cooling Design Manual page 80" href="http://viewer.zmags.com/publication/789d5266?page=80"> 74Appendix E – R-value Charts — www.uponor</a> <a title="Radiant Cooling Design Manual page 81" href="http://viewer.zmags.com/publication/789d5266?page=81"> Appendix F Calculations Commercial Radiant Heatin</a> <a title="Radiant Cooling Design Manual page 82" href="http://viewer.zmags.com/publication/789d5266?page=82"> 76Appendix F – Calculations — www.uponoreng</a> <a title="Radiant Cooling Design Manual page 83" href="http://viewer.zmags.com/publication/789d5266?page=83"> Appendix G Hydronic Friction Loss Tables Note: F</a> <a title="Radiant Cooling Design Manual page 84" href="http://viewer.zmags.com/publication/789d5266?page=84"> 5/16" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 85" href="http://viewer.zmags.com/publication/789d5266?page=85"> 5/16" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 86" href="http://viewer.zmags.com/publication/789d5266?page=86"> 5/16" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 87" href="http://viewer.zmags.com/publication/789d5266?page=87"> 3/8" Uponor PEX-a — 100% Water — Feet of Head per</a> <a title="Radiant Cooling Design Manual page 88" href="http://viewer.zmags.com/publication/789d5266?page=88"> 3/8" Uponor PEX-a — 30% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 89" href="http://viewer.zmags.com/publication/789d5266?page=89"> 3/8" Uponor PEX-a — 40% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 90" href="http://viewer.zmags.com/publication/789d5266?page=90"> 3/8" Uponor PEX-a — 50% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 91" href="http://viewer.zmags.com/publication/789d5266?page=91"> 1/2" Uponor PEX-a — 100% Water — Feet of Head per</a> <a title="Radiant Cooling Design Manual page 92" href="http://viewer.zmags.com/publication/789d5266?page=92"> 1/2" Uponor PEX-a — 100% Water — Feet of Head per</a> <a title="Radiant Cooling Design Manual page 93" href="http://viewer.zmags.com/publication/789d5266?page=93"> 1/2" Uponor PEX-a — 30% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 94" href="http://viewer.zmags.com/publication/789d5266?page=94"> 1/2" Uponor PEX-a — 40% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 95" href="http://viewer.zmags.com/publication/789d5266?page=95"> 1/2" Uponor PEX-a — 50% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 96" href="http://viewer.zmags.com/publication/789d5266?page=96"> 5/8" Uponor PEX-a — 100% Water — Feet of Head per</a> <a title="Radiant Cooling Design Manual page 97" href="http://viewer.zmags.com/publication/789d5266?page=97"> 5/8" Uponor PEX-a — 100% Water — Feet of Head per</a> <a title="Radiant Cooling Design Manual page 98" href="http://viewer.zmags.com/publication/789d5266?page=98"> 5/8" Uponor PEX-a — 30% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 99" href="http://viewer.zmags.com/publication/789d5266?page=99"> 5/8" Uponor PEX-a — 30% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 100" href="http://viewer.zmags.com/publication/789d5266?page=100"> 5/8" Uponor PEX-a — 40% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 101" href="http://viewer.zmags.com/publication/789d5266?page=101"> 5/8" Uponor PEX-a — 40% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 102" href="http://viewer.zmags.com/publication/789d5266?page=102"> 5/8" Uponor PEX-a — 50% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 103" href="http://viewer.zmags.com/publication/789d5266?page=103"> 5/8" Uponor PEX-a — 50% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 104" href="http://viewer.zmags.com/publication/789d5266?page=104"> 3/4" Uponor PEX-a — 100% Water — Feet of Head per</a> <a title="Radiant Cooling Design Manual page 105" href="http://viewer.zmags.com/publication/789d5266?page=105"> 3/4" Uponor PEX-a — 100% Water — Feet of Head per</a> <a title="Radiant Cooling Design Manual page 106" href="http://viewer.zmags.com/publication/789d5266?page=106"> 3/4" Uponor PEX-a — 30% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 107" href="http://viewer.zmags.com/publication/789d5266?page=107"> 3/4" Uponor PEX-a — 30% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 108" href="http://viewer.zmags.com/publication/789d5266?page=108"> 3/4" Uponor PEX-a — 40% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 109" href="http://viewer.zmags.com/publication/789d5266?page=109"> 3/4" Uponor PEX-a — 40% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 110" href="http://viewer.zmags.com/publication/789d5266?page=110"> 3/4" Uponor PEX-a — 50% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 111" href="http://viewer.zmags.com/publication/789d5266?page=111"> 3/4" Uponor PEX-a — 50% Propylene Glycol — Feet o</a> <a title="Radiant Cooling Design Manual page 112" href="http://viewer.zmags.com/publication/789d5266?page=112"> 1" Uponor PEX-a — 100% Water — Feet of Head per 1</a> <a title="Radiant Cooling Design Manual page 113" href="http://viewer.zmags.com/publication/789d5266?page=113"> 1" Uponor PEX-a — 100% Water — Feet of Head per 1</a> <a title="Radiant Cooling Design Manual page 114" href="http://viewer.zmags.com/publication/789d5266?page=114"> 1" Uponor PEX-a — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 115" href="http://viewer.zmags.com/publication/789d5266?page=115"> 1" Uponor PEX-a — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 116" href="http://viewer.zmags.com/publication/789d5266?page=116"> 1" Uponor PEX-a —40% Propylene Glycol — Feet of H</a> <a title="Radiant Cooling Design Manual page 117" href="http://viewer.zmags.com/publication/789d5266?page=117"> 1" Uponor PEX-a —40% Propylene Glycol — Feet of H</a> <a title="Radiant Cooling Design Manual page 118" href="http://viewer.zmags.com/publication/789d5266?page=118"> 1" Uponor PEX-a — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 119" href="http://viewer.zmags.com/publication/789d5266?page=119"> 1" Uponor PEX-a — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 120" href="http://viewer.zmags.com/publication/789d5266?page=120"> 11/4" Uponor PEX-a — 100% Water — Feet of Head pe</a> <a title="Radiant Cooling Design Manual page 121" href="http://viewer.zmags.com/publication/789d5266?page=121"> 11/4" Uponor PEX-a — 100% Water — Feet of Head pe</a> <a title="Radiant Cooling Design Manual page 122" href="http://viewer.zmags.com/publication/789d5266?page=122"> 11/4" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 123" href="http://viewer.zmags.com/publication/789d5266?page=123"> 11/4" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 124" href="http://viewer.zmags.com/publication/789d5266?page=124"> 11/4" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 125" href="http://viewer.zmags.com/publication/789d5266?page=125"> 11/4" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 126" href="http://viewer.zmags.com/publication/789d5266?page=126"> 11/4" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 127" href="http://viewer.zmags.com/publication/789d5266?page=127"> 11/4" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 128" href="http://viewer.zmags.com/publication/789d5266?page=128"> 11/2" Uponor PEX-a — 100% Water — Feet of Head pe</a> <a title="Radiant Cooling Design Manual page 129" href="http://viewer.zmags.com/publication/789d5266?page=129"> 11/2" Uponor PEX-a — 100% Water — Feet of Head pe</a> <a title="Radiant Cooling Design Manual page 130" href="http://viewer.zmags.com/publication/789d5266?page=130"> 11/2" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 131" href="http://viewer.zmags.com/publication/789d5266?page=131"> 11/2" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 132" href="http://viewer.zmags.com/publication/789d5266?page=132"> 11/2" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 133" href="http://viewer.zmags.com/publication/789d5266?page=133"> 11/2" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 134" href="http://viewer.zmags.com/publication/789d5266?page=134"> 11/2" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 135" href="http://viewer.zmags.com/publication/789d5266?page=135"> 11/2" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 136" href="http://viewer.zmags.com/publication/789d5266?page=136"> 2" Uponor PEX-a — 100% Water — Feet of Head per 1</a> <a title="Radiant Cooling Design Manual page 137" href="http://viewer.zmags.com/publication/789d5266?page=137"> 2" Uponor PEX-a — 100% Water — Feet of Head per 1</a> <a title="Radiant Cooling Design Manual page 138" href="http://viewer.zmags.com/publication/789d5266?page=138"> 2" Uponor PEX-a — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 139" href="http://viewer.zmags.com/publication/789d5266?page=139"> 2" Uponor PEX-a — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 140" href="http://viewer.zmags.com/publication/789d5266?page=140"> 2" Uponor PEX-a — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 141" href="http://viewer.zmags.com/publication/789d5266?page=141"> 2" Uponor PEX-a — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 142" href="http://viewer.zmags.com/publication/789d5266?page=142"> 2" Uponor PEX-a — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 143" href="http://viewer.zmags.com/publication/789d5266?page=143"> 2" Uponor PEX-a — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 144" href="http://viewer.zmags.com/publication/789d5266?page=144"> 21/2" Uponor PEX-a — 100% Water — Feet of Head pe</a> <a title="Radiant Cooling Design Manual page 145" href="http://viewer.zmags.com/publication/789d5266?page=145"> 21/2" Uponor PEX-a — 100% Water — Feet of Head pe</a> <a title="Radiant Cooling Design Manual page 146" href="http://viewer.zmags.com/publication/789d5266?page=146"> 21/2" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 147" href="http://viewer.zmags.com/publication/789d5266?page=147"> 21/2" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 148" href="http://viewer.zmags.com/publication/789d5266?page=148"> 21/2" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 149" href="http://viewer.zmags.com/publication/789d5266?page=149"> 21/2" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 150" href="http://viewer.zmags.com/publication/789d5266?page=150"> 21/2" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 151" href="http://viewer.zmags.com/publication/789d5266?page=151"> 21/2" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 152" href="http://viewer.zmags.com/publication/789d5266?page=152"> 3" Uponor PEX-a — 100% Water — Feet of Head per 1</a> <a title="Radiant Cooling Design Manual page 153" href="http://viewer.zmags.com/publication/789d5266?page=153"> 3" Uponor PEX-a — 100% Water — Feet of Head per 1</a> <a title="Radiant Cooling Design Manual page 154" href="http://viewer.zmags.com/publication/789d5266?page=154"> 3" Uponor PEX-a — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 155" href="http://viewer.zmags.com/publication/789d5266?page=155"> 3" Uponor PEX-a — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 156" href="http://viewer.zmags.com/publication/789d5266?page=156"> 3" Uponor PEX-a — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 157" href="http://viewer.zmags.com/publication/789d5266?page=157"> 3" Uponor PEX-a — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 158" href="http://viewer.zmags.com/publication/789d5266?page=158"> 3" Uponor PEX-a — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 159" href="http://viewer.zmags.com/publication/789d5266?page=159"> 3" Uponor PEX-a — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 160" href="http://viewer.zmags.com/publication/789d5266?page=160"> 31/2" Uponor PEX-a — 100% Water — Feet of Head pe</a> <a title="Radiant Cooling Design Manual page 161" href="http://viewer.zmags.com/publication/789d5266?page=161"> 31/2" Uponor PEX-a — 100% Water — Feet of Head pe</a> <a title="Radiant Cooling Design Manual page 162" href="http://viewer.zmags.com/publication/789d5266?page=162"> 31/2" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 163" href="http://viewer.zmags.com/publication/789d5266?page=163"> 31/2" Uponor PEX-a — 30% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 164" href="http://viewer.zmags.com/publication/789d5266?page=164"> 31/2" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 165" href="http://viewer.zmags.com/publication/789d5266?page=165"> 31/2" Uponor PEX-a — 40% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 166" href="http://viewer.zmags.com/publication/789d5266?page=166"> 31/2" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 167" href="http://viewer.zmags.com/publication/789d5266?page=167"> 31/2" Uponor PEX-a — 50% Propylene Glycol — Feet </a> <a title="Radiant Cooling Design Manual page 168" href="http://viewer.zmags.com/publication/789d5266?page=168"> 4" Uponor PEX-a — 100% Water — Feet of Head per 1</a> <a title="Radiant Cooling Design Manual page 169" href="http://viewer.zmags.com/publication/789d5266?page=169"> 4" Uponor PEX-a — 100% Water — Feet of Head per 1</a> <a title="Radiant Cooling Design Manual page 170" href="http://viewer.zmags.com/publication/789d5266?page=170"> 4" Uponor PEX-a — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 171" href="http://viewer.zmags.com/publication/789d5266?page=171"> 4" Uponor PEX-a — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 172" href="http://viewer.zmags.com/publication/789d5266?page=172"> 4" Uponor PEX-a — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 173" href="http://viewer.zmags.com/publication/789d5266?page=173"> 4" Uponor PEX-a — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 174" href="http://viewer.zmags.com/publication/789d5266?page=174"> 4" Uponor PEX-a — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 175" href="http://viewer.zmags.com/publication/789d5266?page=175"> 4" Uponor PEX-a — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 176" href="http://viewer.zmags.com/publication/789d5266?page=176"> 1/2" Uponor MLC — 100% Water — Feet of Head per F</a> <a title="Radiant Cooling Design Manual page 177" href="http://viewer.zmags.com/publication/789d5266?page=177"> 1/2" Uponor MLC — 100% Water — Feet of Head per F</a> <a title="Radiant Cooling Design Manual page 178" href="http://viewer.zmags.com/publication/789d5266?page=178"> 1/2" Uponor MLC — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 179" href="http://viewer.zmags.com/publication/789d5266?page=179"> 1/2" Uponor MLC — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 180" href="http://viewer.zmags.com/publication/789d5266?page=180"> 1/2" Uponor MLC — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 181" href="http://viewer.zmags.com/publication/789d5266?page=181"> 1/2" Uponor MLC — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 182" href="http://viewer.zmags.com/publication/789d5266?page=182"> 5/8" Uponor MLC — 100% Water — Feet of Head per F</a> <a title="Radiant Cooling Design Manual page 183" href="http://viewer.zmags.com/publication/789d5266?page=183"> 5/8" Uponor MLC — 100% Water — Feet of Head per F</a> <a title="Radiant Cooling Design Manual page 184" href="http://viewer.zmags.com/publication/789d5266?page=184"> 5/8" Uponor MLC — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 185" href="http://viewer.zmags.com/publication/789d5266?page=185"> 5/8" Uponor MLC — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 186" href="http://viewer.zmags.com/publication/789d5266?page=186"> 5/8" Uponor MLC — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 187" href="http://viewer.zmags.com/publication/789d5266?page=187"> 5/8" Uponor MLC — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 188" href="http://viewer.zmags.com/publication/789d5266?page=188"> 5/8" Uponor MLC — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 189" href="http://viewer.zmags.com/publication/789d5266?page=189"> 5/8" Uponor MLC — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 190" href="http://viewer.zmags.com/publication/789d5266?page=190"> 3/4" Uponor MLC — 100% Water — Feet of Head per F</a> <a title="Radiant Cooling Design Manual page 191" href="http://viewer.zmags.com/publication/789d5266?page=191"> 3/4" Uponor MLC — 100% Water — Feet of Head per F</a> <a title="Radiant Cooling Design Manual page 192" href="http://viewer.zmags.com/publication/789d5266?page=192"> 3/4" Uponor MLC — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 193" href="http://viewer.zmags.com/publication/789d5266?page=193"> 3/4" Uponor MLC — 30% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 194" href="http://viewer.zmags.com/publication/789d5266?page=194"> 3/4" Uponor MLC — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 195" href="http://viewer.zmags.com/publication/789d5266?page=195"> 3/4" Uponor MLC — 40% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 196" href="http://viewer.zmags.com/publication/789d5266?page=196"> 3/4" Uponor MLC — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 197" href="http://viewer.zmags.com/publication/789d5266?page=197"> 3/4" Uponor MLC — 50% Propylene Glycol — Feet of </a> <a title="Radiant Cooling Design Manual page 198" href="http://viewer.zmags.com/publication/789d5266?page=198"> 1" Uponor MLC — 100% Water — Feet of Head per 100</a> <a title="Radiant Cooling Design Manual page 199" href="http://viewer.zmags.com/publication/789d5266?page=199"> 1" Uponor MLC — 100% Water — Feet of Head per 100</a> <a title="Radiant Cooling Design Manual page 200" href="http://viewer.zmags.com/publication/789d5266?page=200"> 1" Uponor MLC — 30% Propylene Glycol — Feet of He</a> <a title="Radiant Cooling Design Manual page 201" href="http://viewer.zmags.com/publication/789d5266?page=201"> 1" Uponor MLC — 30% Propylene Glycol — Feet of He</a> <a title="Radiant Cooling Design Manual page 202" href="http://viewer.zmags.com/publication/789d5266?page=202"> 1" Uponor MLC — 40% Propylene Glycol — Feet of He</a> <a title="Radiant Cooling Design Manual page 203" href="http://viewer.zmags.com/publication/789d5266?page=203"> 1" Uponor MLC — 40% Propylene Glycol — Feet of He</a> <a title="Radiant Cooling Design Manual page 204" href="http://viewer.zmags.com/publication/789d5266?page=204"> 1" Uponor MLC — 50% Propylene Glycol — Feet of He</a> <a title="Radiant Cooling Design Manual page 205" href="http://viewer.zmags.com/publication/789d5266?page=205"> 1" Uponor MLC — 50% Propylene Glycol — Feet of He</a> <a title="Radiant Cooling Design Manual page 206" href="http://viewer.zmags.com/publication/789d5266?page=206"> 200Appendix G - Hydronic Friction Loss Tables </a> <a title="Radiant Cooling Design Manual page 207" href="http://viewer.zmags.com/publication/789d5266?page=207"> Appendix H Typical Detail Drawings for Embedded R</a> <a title="Radiant Cooling Design Manual page 208" href="http://viewer.zmags.com/publication/789d5266?page=208"> 202 Radiant Topping Slab with Plastic Staples </a> <a title="Radiant Cooling Design Manual page 209" href="http://viewer.zmags.com/publication/789d5266?page=209"> Radiant Topping Slab with PEX Rails Minimum 3" </a> <a title="Radiant Cooling Design Manual page 210" href="http://viewer.zmags.com/publication/789d5266?page=210"> Radiant Slab on Grade with Insulation Uponor Fix</a> <a title="Radiant Cooling Design Manual page 211" href="http://viewer.zmags.com/publication/789d5266?page=211"> Radiant Slab on Grade without Insulation Uponor </a> <a title="Radiant Cooling Design Manual page 212" href="http://viewer.zmags.com/publication/789d5266?page=212"> Radiant Slab on Suspended Deck Detail Uponor Fix</a> <a title="Radiant Cooling Design Manual page 213" href="http://viewer.zmags.com/publication/789d5266?page=213"> Appendix I Case Studies </a> <a title="Radiant Cooling Design Manual page 214" href="http://viewer.zmags.com/publication/789d5266?page=214"> to be 57 percent more efficient than the ASHRAE 9</a> <a title="Radiant Cooling Design Manual page 215" href="http://viewer.zmags.com/publication/789d5266?page=215"> David Brower Center Berkeley, Calif. LEED Platinu</a> <a title="Radiant Cooling Design Manual page 216" href="http://viewer.zmags.com/publication/789d5266?page=216"> Normand Maurice Building Montreal, QC. LEED Gold </a> <a title="Radiant Cooling Design Manual page 217" href="http://viewer.zmags.com/publication/789d5266?page=217"> Maurice J. Gallagher Jr. Hall Davis, Calif. LEED </a> <a title="Radiant Cooling Design Manual page 218" href="http://viewer.zmags.com/publication/789d5266?page=218"> Project Highlights · LEED® Silver · Uponor </a> <a title="Radiant Cooling Design Manual page 219" href="http://viewer.zmags.com/publication/789d5266?page=219"> Hall Winery St. Helena, Calif. LEED® Gold When hy</a> <a title="Radiant Cooling Design Manual page 220" href="http://viewer.zmags.com/publication/789d5266?page=220"> Attractiveness of Radiant Cooling Radiant heating</a> <a title="Radiant Cooling Design Manual page 221" href="http://viewer.zmags.com/publication/789d5266?page=221"> Bandimere Speedway Arvada, Colo. To mark the 50t</a> <a title="Radiant Cooling Design Manual page 222" href="http://viewer.zmags.com/publication/789d5266?page=222"> National Renewable Energy Lab (NREL) Golden, Colo</a> <a title="Radiant Cooling Design Manual page 223" href="http://viewer.zmags.com/publication/789d5266?page=223"> team through critical design decisions based on i</a> <a title="Radiant Cooling Design Manual page 224" href="http://viewer.zmags.com/publication/789d5266?page=224"> CityCenter™ Crystals Las Vegas, Nev. LEED Gold Sp</a> <a title="Radiant Cooling Design Manual page 225" href="http://viewer.zmags.com/publication/789d5266?page=225"> Manitoba Hydro Place Winnipeg, Manitoba LEED Plat</a> <a title="Radiant Cooling Design Manual page 226" href="http://viewer.zmags.com/publication/789d5266?page=226"> Hunter Museum of American Art Chattanooga, Tenn. </a> <a title="Radiant Cooling Design Manual page 227" href="http://viewer.zmags.com/publication/789d5266?page=227"> Retail Supercentre, Burlington, Ontario Installat</a> <a title="Radiant Cooling Design Manual page 228" href="http://viewer.zmags.com/publication/789d5266?page=228"> 222Appendix I – Case Studies — www.uponore</a> <a title="Radiant Cooling Design Manual page 229" href="http://viewer.zmags.com/publication/789d5266?page=229"> Notes </a> <a title="Radiant Cooling Design Manual page 230" href="http://viewer.zmags.com/publication/789d5266?page=230"> 224 Notes </a>