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8083294786 COUNTY COUNCIL KONA COUNTY COUNCIL KONA 09:47:51 a.m. 10-02-2012 4/4 <br /> , <br /> Proper Loading for Solar Panels <br /> As the"Green"movement progresses and energy prices go increasingly higher,more and more • <br /> homeowners and commercial developers are looking to utilize photovoltaic panels(solar panels)to help get <br /> them"off the grid." It may seem that designing for solar panels is as easy as finding out how much the panels <br /> weigh,and adding point loads to their roof trusses either in the design phase,or in a repair. Unfortunately,it <br /> is not always this simple. Some applications of solar panels do lay flat on the top chord of supporting trusses <br /> and thus,create a uniform load and not point loads,however this simple case is not the subject of this article. <br /> Typically,a key selling point that a solar panel installer has is that he/she can minimize roof penetrations, <br /> thus reducing the possibility of roof leaks. While this may help reduce the likelihood of leaks,it can often <br /> create large point loads on the supporting trusses. <br /> Before explaining some of the Intricacies of how solar panels interact with roof trusses,you should <br /> be aware that if you are sending a repair or seal to MiTek that is the result of the installation of solar panels, <br /> your engineer at MiTek will ask that an independent engineer or qualified persons specify the loading for the <br /> panels. It is up to the independent engineer or qualified designer to determine if the resultant loads shall be <br /> considered as point loads or uniform loads,as well as the magnitude of those loads. <br /> In residential applications,one typically has a pitched roof in which solar panels are mounted parallel <br /> to the roof pitch. If the roof has a low slope,the gravity loads of the solar panels can be magnified as the <br /> solar panel may hold snow,thus causing point loads from snow rather than a uniform load. The same holds <br /> true for wind loading as the wind uplift is accumulated through the solar array and directed to the posts that <br /> support the solar panel. Also,depending on the roof geometry,the solar panel may act as a sail and catch <br /> wind from under the panel thus creating very high uplift loads. <br /> In many commercial applications,solar panels are put on flat roofs. In order to achieve higher <br /> efficiency,the photovoltaic panels will be posted to the roof such that the panels are at a pitch that will be <br /> angled toward the sun. With this geometry,snow can accumulate on the solar array,but can also slide off of <br /> the panel thus creating a drift on the low side of the panel. Also,wind can create many different loading <br /> scenarios. <br /> Yet another concern that can come into play is that solar panels are often attached to trusses with <br /> lag screws that must land in the center of a L5"wide top chord. Depending on the diameter of the <br /> connector,a repair may be required due to the section loss of the wood In the top chord. MiTek <br /> recommends that all connections of solar panels be made into blocking that is run between trusses. This not <br /> only prevents the drilling of trusses,but also distributes any point loads between two trusses,thus <br /> decreasing the severity of any repairs. <br /> All in all,the design and/or repair of roof trusses while adding solar panels is not something that is to <br /> be taken lightly. There are a lot of loading scenarios that should be examined. As always,if you have any <br /> questions about the topics covered in this article,give your MiTek engineer a call and he/she will be glad to <br /> help you out; <br />