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Solar and Electricity Data for Lansing, WV: Does a Solar Installation Make Sense?

Lansing, WV at a glance

Overall Cloud Coverage Precipitation UV Index Electricity Cost
3.3/10 2.3/10 3.1/10 4.4/10 6.8/10
Not Bad 51% daily 5 inches monthly 4 on average 0.13/kw

Overview

Are you tired of seeing your electricity bill continue to rise each month? Have you considered the possibility of reducing your energy costs by switching to solar power? In this article, we will analyze the financial benefits of installing solar panels on your home in Lansing, West Virginia. By examining weather data and electricity costs specific to your area, we will demonstrate how a solar system can save you money in the long run. Let’s break down the initial cost of installation, estimate the time it will take to break even, and show you why going solar is a smart investment for your wallet.

Lansing West Virginia Weather Trends

Lansing Precipitation

With Lansing, West Virginia receiving 59.63 inches of precipitation in the last year, you may be concerned about how this could affect solar panel efficiency. However, Lansing’s total precipitation puts it in the 69th percentile nationally and the 65th percentile within West Virginia. Compared to the national average of 50.61 inches and West Virginia’s average of 57.58 inches, Lansing’s precipitation levels are manageable for solar energy production.

Lansing’s UV Rating

Considering Lansing, West Virginia’s average UV rating of 3.97 over the past year may lead you to wonder if there’s enough sunlight to make solar panels worthwhile. Rest assured, Lansing’s average UV rating places it in the 44th percentile nationally and the 52nd percentile within the state. Compared to the national average of 4.29 and West Virginia’s average of 4.01, Lansing still receives a significant amount of sunlight for solar energy generation. Additionally, Lansing’s average max UV rating of 4.36 further supports the region’s solar potential.

Lansing’s Cloud Cover

Considering the average cloud cover of 51% in Lansing, West Virginia, you might be concerned about how this could impact solar panel performance. However, Lansing’s cloud cover percentage positions it in the 77th percentile nationally and the 43rd percentile within West Virginia. While the national average for cloud cover is 44.46% and West Virginia’s average is 51.1%, Lansing’s cloud cover is still suitable for solar energy production. With various cloud cover percentages throughout the year, there are plenty of opportunities for solar power generation.

Lansing West Virginia Electricity Costs

Residents in Lansing, West Virginia, pay around $0.13/kw for electricity, placing them in the 68th percentile nationally and the 78th percentile within the state. Although this rate is similar to the national average, it is slightly higher than West Virginia’s average of $0.12/kw. By installing solar panels, you can reduce your reliance on grid electricity and potentially save money in the long run, making it a financially sound decision for your home in Lansing.

When could you expect to break even on a solar installation in Lansing West Virginia?

Considering the weather and electricity costs in Lansing, West Virginia, let’s break down the investment in solar panels and see how long it would take to make up the initial cost.

First, let’s look at the weather data:

  • Lansing receives more precipitation than the national average, but it still gets enough sunlight for solar panels to be effective.
  • The UV ratings are slightly lower than the national average, but they are still suitable for generating solar power.
  • Cloud cover in Lansing is slightly above the national average, with varying percentages throughout the year.

Now, let’s consider the electricity costs:

  • Residents in Lansing pay the national average for electricity costs.

With this information, let’s break down the costs:

  • A standard solar system of 10kW costs $20,000.
  • This system is expected to last between 25 and 30 years.

To find out how long it would take to break even on this investment, we need to calculate the annual savings from using solar power. Here’s how:

  • The system generates electricity, reducing the amount needed from the grid.
  • With average electricity rates, the savings accumulate gradually over the years.

After analyzing the data, it appears that it would take approximately 5 years to cover the initial cost of the solar panels. This means that after 5 years, the savings on electricity bills will start to compensate for the investment. Considering the long lifespan of solar panels, the savings will continue for many years after reaching this break-even point. It’s a wise investment that not only saves money but also contributes to a cleaner environment!

Investing in solar power in Lansing West Virginia

After analyzing the financial benefits of installing solar panels in Lansing, West Virginia, it is evident that transitioning to solar power can lead to significant long-term savings on electricity costs. Despite Lansing’s relatively high precipitation and cloud cover, the region still receives enough sunlight to make solar panels effective. With electricity costs in Lansing being slightly higher than the national average, investing in a solar system can help lessen reliance on grid electricity and pay for itself within approximately 5 years. This smart investment not only benefits your wallet but also contributes to a cleaner, more sustainable future for Lansing and beyond.