diff --git a/Why-The-Energy-Efficient-Windows-Is-Beneficial-In-COVID-19.md b/Why-The-Energy-Efficient-Windows-Is-Beneficial-In-COVID-19.md
new file mode 100644
index 0000000..6422410
--- /dev/null
+++ b/Why-The-Energy-Efficient-Windows-Is-Beneficial-In-COVID-19.md
@@ -0,0 +1 @@
+Energy-Efficient Windows: An Overview<br>In the last few years, the demand for energy-efficient windows has actually surged, driven by increasing energy costs, increased ecological awareness, and the desire for improved convenience in homes and business structures. Energy-efficient windows are developed to lower energy usage, boost thermal comfort, and lower greenhouse gas emissions. This detailed guide will explore the features, advantages, and numerous types of energy-efficient windows available in the market. <br>Comprehending Energy-Efficient Windows<br>Energy-efficient windows are specially engineered to decrease energy loss while optimizing natural light and aesthetic appeals. They accomplish these goals through a mix of technologies that enhance insulation, decrease air seepage, and show or absorb solar heat. <br>Key Components of Energy-Efficient Windows:<br>Frame Materials: The material of the window frame significantly affects its energy performance. Typical materials include:<br>Vinyl: Excellent thermal efficiency and low maintenance.Wood: Natural insulator but requires routine upkeep.Aluminum: Durable however less effective unless thermally broken.Fiberglass: High durability and energy effectiveness, typically utilized in high-end applications.<br>Glazing: The type of glazing (or glass) utilized is a vital element:<br>Single Glazing: Least effective
\ No newline at end of file