Disadvantages of Solar Energy

While the considerable advantages offered by solar energy move some proponents to ignore the budding technology’s comparatively minor flaws, these imperfections must be acknowledged, lest their resolutions be stalled. We should take an honest look at the system’s disadvantages and seek to refine solar energy systems into a truly environmentally friendly alternative.

The most significant complaints with solar energy are:

  • lack of consistency and reliability. Solar systems rely on the steady absorption of sunlight -- particularly, subatomic particles called photons -- which can be easily deterred. The following factors limit the availability of sunlight:
    • latitude. Although solar power is an option almost anywhere on the planet in at least some capacity, efficacy falls sharply as distance from the equator increases. Residents of Vancouver, Canada, and St. Petersburg, Russia, for instance, are at a significant solar disadvantage.
    • clouds. Clouds diminish the power of solar panels, especially in habitually foggy or overcast regions. According to the National Renewable Energy Laboratory, "[T]he solar resource during foggy or low-cloud conditions is approximately 10% of the value under clear-sky conditions." Solar arrays in Denver, Colorado, would rarely be obscured by clouds, as that city experiences only 30 to 40 overcast days per year. Hilo, Hawaii, despite its proximity to the equator, receives rain an average of 277 days per year, which might make it a poor choice for solar-power generation.
    • night. The Earth itself is a rather large obstruction, and it acts nightly to disturb the flow of photons to helplessly immobile solar arrays.
Solar energy is reduced by overcast skies
  • environmental pollutants. A few of the more notorious substances contained in panels and associated equipment include:
    • cadmium. When sealed inside solar panels, cadmium is harmless. If leaked from the panel, cadmium can inflict serious environmental damage. Panels must be disposed of with extreme care in order to keep this carcinogenic substance from leeching into soil and water.
    • lead. Batteries, specifically deep-cycle, lead-acid batteries, are required by solar arrays to ensure a constant supply of electricity. They contain lead and sulfuric acid, which are both highly toxic, especially to marine creatures. Lead has been found to cause a number of impairments in children, including developmental disabilities. However, most of the material in dead batteries is recoverable if the batteries are recycled, as long as consumers make the effort.
  • roof considerations. Solar arrays are often installed on building roofs to make use of the large, empty, sunny space. As a consequence, repairs to the underlying roof become quite tricky and often require disassembly of the solar installation before even routine roof maintenance can be performed. It’s good practice to perform needed roof work before the initial installation of a solar system to prevent future headaches.
  • appearance. Like it or not, solar arrays speak loudly, and neighbors and passersby will take notice of the systems. Many homeowners are understandably reluctant to install a large solar array on an otherwise attractive tile roof. This issue is being addressed through the development of photovoltaic shingles, windows, and other technologies that blend more seamlessly with existing roof surfaces.

In summary, residential solar power has some aesthetic, economic and technical drawbacks, but many of them can be overcome by planning and responsible maintenance.