FAQS

  • Solar energy is renewable, reduces electricity bills, lowers carbon footprint, requires minimal maintenance, and can increase property value. It also provides energy independence and can qualify for government incentives.

  • The short answer to this question is no one knows for sure until they consult a professional

    So the easiest way is to fill out our contact form and one of our consultants will be in touch soon.

  • Solar panels can still generate some electricity on cloudy days, but their efficiency is reduced. They work best in direct sunlight, so their performance may be lower in overcast conditions.

  • Solar panels can have a lifespan of 25 years or more. While their efficiency may decrease slightly over time, regular maintenance can help prolong their lifespan.

  • Here at Energy trend, Finance/green loans can be arranged and tailored to suit the customer’s situation This is usually done by a broker in house or recommended.

    This gives some customers the chance to benefit from the free power sooner rather than later

  • Cleaning your solar panels is essential to maintain their efficiency and maximize energy production. Here's a step-by-step guide on how to clean your solar panels:

    Safety First:

    Before cleaning, ensure your solar panels are turned off to prevent electrical hazards.

    Wait for a cool morning or evening to avoid thermal shock to the panels.

    Check Manufacturer Guidelines:

    Refer to the manufacturer's guidelines for cleaning to ensure you are not using any materials or methods that may void the warranty.

    Remove Loose Debris:

    Gently sweep away loose dirt, leaves, or debris using a soft brush or a leaf blower. Be careful not to scratch the surface of the panels.

    Use a Hose:

    Start by spraying the panels with a garden hose to loosen dirt. A gentle stream of water is usually sufficient.

    Prepare a Cleaning Solution:

    If water alone is not enough, mix a mild detergent (like dish soap) with water in a bucket. Avoid using abrasive or harsh chemicals.

    Apply the Cleaning Solution:

    Use a soft sponge or cloth to apply the soapy water to the surface of the solar panels. Gently scrub any areas with accumulated grime.

    Rinse Thoroughly:

    Rinse the panels thoroughly with clean water to remove any soap residue. Ensure all soap is washed away as it can leave a film that reduces efficiency.

    Air Dry or Wipe:

    Allow the panels to air dry or use a soft, lint-free cloth to gently dry them. Ensure there are no water spots left on the surface.

    Regular Maintenance:

    Establish a routine for cleaning your solar panels. Depending on your location and local weather conditions, cleaning two to four times a year may be sufficient.

    Consider Professional Cleaning:

    If your solar panels are installed in a hard-to-reach location or if you prefer not to clean them yourself, consider hiring a professional solar panel cleaning service.

    Remember to exercise caution and follow safety guidelines during the cleaning process. If you're unsure about any aspect of cleaning your solar panels, consult with the manufacturer or a professional solar panel maintenance service for advice.

 

what is a solar inverter?

A solar inverter is a crucial component in a solar power system that plays a key role in converting the direct current (DC) electricity generated by solar panels into alternating current (AC), which is the type of electricity used in most homes and businesses. Here's a breakdown of what a solar inverter is and how it works:

What is a Solar Inverter?

Solar panels produce direct current (DC) electricity when exposed to sunlight. However, the electricity used in homes and the electrical grid is alternating current (AC). A solar inverter is the device that facilitates this conversion from DC to AC, making the solar-generated electricity compatible with household appliances and the power grid.

How Does a Solar Inverter Work?

  1. DC Electricity Generation:

    • Solar panels generate DC electricity when photons from sunlight strike the semiconductor material within the panels, freeing electrons and creating an electric current.

  2. Inverter Input:

    • The DC electricity produced by the solar panels is sent to the solar inverter.

  3. Inverter Conversion:

    • The solar inverter converts the DC electricity into AC electricity through a process known as inversion. This involves changing the direction of the electric current to match the characteristics of the grid-supplied AC power.

  4. Synchronization with the Grid:

    • The solar inverter synchronizes the AC electricity it produces with the existing AC power from the grid. This synchronization is crucial for ensuring a smooth flow of electricity and allows any excess power to be fed back into the grid.

  5. Power Distribution:

    • The AC electricity produced by the solar inverter is then distributed to power the electrical appliances and devices in your home or business.

Understanding the role of a solar inverter is crucial for designing an efficient and effective solar power system. The choice of inverter type depends on factors such as the size of the installation, shading conditions, and budget considerations.