LFL represents which of the following?

• A. The highest concentration in air that will sustain combustion
• B. The lowest concentration of a substance in air that will sustain combustion
• C. The minimum energy required to ignite a vapor cloud
• D. The temperature required for ignition

Answer: (B)

LFL is the minimum amount of fuel in air that can support a flame once ignition occurs. If the mixture is leaner than this, there isn’t enough fuel to keep combustion going, so it won’t ignite or sustain a flame. That’s why the best description is the lowest concentration of a substance in air that will sustain combustion.

Think of it in terms of safe ranges: between the lower limit (LFL) and the upper limit (UFL), a flame can propagate. Below the lower limit, the mixture is too lean; above the upper limit, it’s too rich to burn. The other options describe different concepts—ignition energy is about how much energy is needed to start a flame, and the ignition temperature or autoignition temperature is about the heat required to ignite without a spark. For LFL specifically, you’re looking at the concentration in air, not energy or temperature. For example, methane has an LFL around 5% by volume in air, and a UFL around 15%; flames occur somewhere between those values.