Re: [RE-wrenches] Module Load Rating

[Dave Click]

Hi Jamie-

Yes, it would certainly make sense for manufacturers to put forward the 
wind pressures in a consistent manner. Maybe the next SolarPro module 
roundup could include some of this info if someone has 100 hours to 
spend contacting someone knowledgeable at each module manufacturer...

I agree that if Schott specs a UL test for 50 psf (ie a test of 75psf) 
they should call it that. Claiming 75psf under UL 1703 should therefore 
include testing at 112.5psf.

On 2011/10/7 10:26, Jamie Johnson wrote:
Dave, thanks for the clarification on the difference between NRTL and
IEC tests.
Wouldn't it make sense for the manufacturers to put the negative and
positive test and certified (warranted) pressures on the data sheets or
in the installation manual so there is no confusion for the installation
community?
In other words, they could state if they used a safety factor in the
test for determining maximum module loads both uplift and downforce.
Also please clarify. If Schott specifies a UL test for a 50psf working
load and with the 1.5x safety factor the module is tested to 75psf, then
in my mind that module is only rated for 50psf for installation
purposes, the safety factor is not counted.
If Schott wants to state a working load of 75psf then their modules
should be UL tested to 112.5psf? Or am I missing something here?
**
*Jamie Johnson
NABCEP Certified PV Technical Sales Professional
NABCEP Certified Solar PV Installer

General Manager*
*SOLAR POWER ELECTRIC*
**
**

    -------- Original Message --------
    Subject: Re: [RE-wrenches] Module Load Rating
    From: Dave Click <davecl...@fsec.ucf.edu
    <mailto:davecl...@fsec.ucf.edu>>
    Date: Fri, October 07, 2011 9:31 am
    To: RE-wrenches <re-wrenches@lists.re-wrenches.org
    <mailto:re-wrenches@lists.re-wrenches.org>>

    UL 1703 is a 30 psf positive (downward) or negative (upward) load, or a
    design load designated by the manufacturer. I've never seen a module
    advertising a 30psf loading requirement--everything I've seen is at
    least 50psf--which I take to mean that this "designated" design load is
    usually spec'd by manufacturers to be 50 psf. 30 psf is pretty weak.

    The UL tests themselves then actually go to 1.5 times that design load
    as a safety factor. The load tests last 30 minutes. As I understand it
    (based off a coworker's conversation with a Schott rep), this is why
    Schott advertises that their modules withstand 75psf front and back.
    The
    rep questioned why all manufacturers weren't advertising 75psf.

    IEC 61215 also tests both upwards and downwards loading. Since it's
    written by some French people, they specify a 2400 Pascal load,
    which is
    50.1 psf, for both the front and back of the module. They do this in
    three cycles of tests (50psf front, 50 psf back being one cycle).
    However, "if the module is to be qualified to withstand heavy
    accumulations of snow and ice," then during the third cycle they go to
    5400 Pa for the FRONT loading. 5400 Pa is 112.8 psf. Each load test
    lasts 1 hour. If a module manufacturer claims 113psf uplift resistance
    then either they misunderstand the IEC standard or they make the
    Hulk of
    PV (without the smash). Note that the IEC standard does not have the
    1.5
    safety factor.

    Some test labs offer a package deal where they test modules to UL and
    IEC requirements at the same time to qualify a module for worldwide
    sale-- so they go through each test and pick the harder requirements
    (between UL and IEC) so that passing each test means the module is
    certified to meet both standards. IEC's 50 psf loading may have caused
    some manufacturers to designate the 50 psf load for UL. Or, module
    manufacturers just do the 50psf IEC load which corresponds to a
    "designated" 33.3 psf load for UL times that 1.5 factor.



    On 2011/10/6 17:03, Jamie Johnson wrote:
    >  Rich, It is my understanding that modules are tested to 113psf
    downforce
    >  or snow load and 52psf uplift for their NRTL listing (uplift is also a
    >  load rating denoted as negative pressure) (don't have a copy of the
    >  testing procedures in front of me however I have confirmed this with
    >  more than one module manufacturer in the past).
    >  It seems to make sense as many framed single glass modules appear to
    >  have a wider lip under the glass and a narrow lip above the glass,
    there
    >  may also be other reasons.
    >  There are a few manufacturers out there that have had additional
    testing
    >  done and will certify their modules to 75psf or 113psf uplift, usually
    >  they have 2 layers of glass and/or a thicker AL frame and are also
    >  heavier like the Schott 300 watt module.
    >  Since all of our installs are in a High Velocity Windzone Area,
    when we
    >  have a module manufacturer with single glass normal AL frame modules
    >  that claim 113psf loads (uplift) we will always challenge them on
    it and
    >  see if they will actually stand by that claim, in every single case
    >  after researching it, they have backed away from the claim and
    >  acknowledged that their modules will only withstand 52 or 53psf
    uplift.
    >  It is important to understand that the load rating listed on the
    >  marketing material (downforce or snow load) is usually not the same as
    >  the uplift or negative pressure rating.
    >  In our area of FL for a 130MPH windzone, our uplift or negative
    >  pressures on a module can range from -32 to -49PSF although our
    >  downforce is usually lower around +16. In a 140MPH windzone you can
    >  easily exceed a normal module uplift rating of -52PSF, and although
    >  adding a 3rd rail may reduce frame stress, it will do little to
    keep the
    >  glass from blowing out in a hurricane.
    >  As to the honesty question, IMHO the guilty parties are most
    likely the
    >  marketing dept staff who lack technical expertise.
    >  Hope this helps.
    >
    >  *Jamie Johnson
    >  NABCEP Certified PV Technical Sales Professional
    >  NABCEP Certified Solar PV Installer
    >
    >  General Manager*
    >  *SOLAR POWER ELECTRIC*
    >  **
    >  **
    >
    >  -------- Original Message --------
    >  Subject: [RE-wrenches] Module Load Rating
    >  From: "Rich Nicol" <r...@solartechvt.com
    <mailto:r...@solartechvt.com> ><mailto:r...@solartechvt.com>>
    >  Date: Thu, October 06, 2011 1:41 pm
    >  To: <g...@icarussolarservices.com
    <mailto:g...@icarussolarservices.com>
    >  <mailto:g...@icarussolarservices.com>>, "'RE-wrenches'"
    >  <re-wrenches@lists.re-wrenches.org
    <mailto:re-wrenches@lists.re-wrenches.org>
    >  <mailto:re-wrenches@lists.re-wrenches.org>>
    >
    >  Hi Wrenches –
    >  I’ve noticed discrepancies in load rating methods for various
    >  modules and wondered if there was any insight from the installer
    >  community. REC claims 113 PSF, Sharp claims only 50PSF. Solarworld
    >  notes 50PSF load rating, but 113 PSF snow load rating. I’m assuming
    >  the difference is that snow load rating is greater because its
    >  assumed to be widely distributed, but yet its still per square foot
    >  so perhaps not. Is a Sharp module such as the 240NUQ-240F2 as
    >  durable as REC, Evergreen, Solarworld etc and they are just more
    >  honest in their portrayal of load rating.
    >  Thanks for your help,
    >  Rich
    >  **
    >
    >
    >
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