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Tower Wind Loads

To: <towertalk@contesting.com>
Subject: Tower Wind Loads
From: bhorn@netcom.com (Bruce Horn)
Date: Thu, 15 Aug 1996 23:32:42 -0700
There's been recent speculation on the reflector about allowable tower wind
loads under various conditions. As an excercise in self-education, I used
the structural engineering calculations furnished by U.S. Tower to
investigate the effect of wind speed and mast height on the maximum
allowable antenna load for my crankup tower.

Before I go further, I should emphasize the following:

1) I'm not a professional mechanical engineer or a structural engineer.

2) Don't build anything based on this information. Use the data in a
relative fashion, rather than as absolute results, to get a feel for how
the maximum allowable antenna load varies. Use a professional engineer if
you really want to know the maximum allowable load for your specific
situation.

3) I didn't do anything original. I just took the rather complete tabular
data included in the engineer's 14 pages of calculations, a copy of the
wind design portions of the Uniform Building Code, and varied the mast
height and wind speed.

Engineer's Assumptions:
  Design based on 1991 Uniform Building Code with no ice
  70 mph basic wind speed
  American Institute of Steel Construction tables
  Wind exposure C (terrain which is generally open having scattered
                   obstructions extending 0.5 mile or more from the site
                   in any full quadrant, i.e. flat or gently rolling open
                   country and grasslands)
  Antenna weighs 150 lbs

Tower:
  U.S. Tower HDX-589 89-foot crankup (21-foot sections with 4-foot overlap)
  Manufacturer rates tower for 30 sq.ft at 50 mph wind

My Assumptions:
  2 inch O.D. mast from top of tower to height of antenna
  Mast weighs 10 lbs/linear foot


Max Allowable Wind Load vs. Wind Speed: (antenna at 90 ft)
     Wind Speed      Max Antenna Wind Force       Max Antenna Area
     ----------      ----------------------       ----------------
         50 mph            450 lbs                    44.8 sq.ft
         60                354                        24.5
         70                209                        10.6
         80                 48                         1.9
         82                  0                         0
            Tower fails at 83 mph with no antennas

     Note: Max antenna area calculated from max antenna wind force
           based on UBC formula:

              Area = [Max wind force] / [Cq * Ce * qsI * (2/3))
                  where Cq = 1
                        Ce = 1.57 to 1.63 depending on height
                        qsI = 0.00256 * [wind mph]^2


Max Allowable Wind Load vs. Antenna Height:  (70 mph wind)
  Mast Length   Antenna Height  Max Antenna Wind Force  Max Antenna Area
  -----------   --------------  ----------------------  ----------------
      1 ft           90 ft              209 lbs             10.6 sq.ft
      6              95                 183                  9.1
     11             100                 160                  7.9
     16             105                 138                  6.7
      1          72 and 90        120 lbs to each ant.    6.2 sq.ft/ant



Conclusions:

1) The maximum allowable antenna load drops rapidly with increasing wind
speed, particularly as the wind speed nears the failure speed of the tower.

2) While most tower manufacturers specify max antenna load a short distance
above the top of their towers (1 foot), most hams place their antennas on
tall masts mounted on the top of their towers. As can be seen from the
results in the second table, the max load significantly decreases as the
mast is lengthened.

Current engineering practice is to use the EIA standard to calculate wind
load. This standard uses different assumptions and calculations than the
UBC. However, I used the UBC method because that was the method used by the
professional engineer per California building code.

73 de Bruce, WA7BNM   (bhorn@netcom.com)



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