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What is Difference Between Liquid, Vapor, and Gas? | THINKTANK

In general, a vapour phase consists of a phase with two different substances at room temperature, whereas a gas phase consists of a single substance at a defined thermodynamic range, at room temperature.

In process engineering and fluid control systems, it’s important to understand the differences between liquid, vapor, and gas — especially when selecting valves or designing systems for steam, air, or refrigerants.

This article explains each state of matter and highlights how vapor and gas differ, even though both appear in gaseous form.

What Is a Liquid?

A liquid is a state of matter with a definite volume but no fixed shape. It flows and conforms to the shape of its container. Molecules in a liquid are closely packed but can move past each other, which gives liquids the ability to flow. Examples include water, oil, and ethanol.

What Is a Gas?

A gas is a substance in its natural gaseous state under standard conditions (room temperature and atmospheric pressure). Its molecules are widely spaced and move freely. Gases expand to fill their containers and can be compressed easily. Common gases include oxygen (O₂), nitrogen (N₂), and methane (CH₄).

What Is a Vapor?

Vapor refers to the gaseous state of a substance that is normally a liquid or solid at room temperature. For example, steam is the vapor form of water, and butane vaporizes at low temperatures.

Vapor may coexist with its liquid phase when it is saturated (such as in boiling water). But when heated further, it becomes superheated vapor, which behaves like a gas and no longer coexists with liquid.

Vapor vs Gas

For liquid, it have a definite volume, but take the shape of the container. The gases have no definite shape or volume.

Common Misunderstandings

Vapor is not always a liquid-gas mixture. When superheated, it behaves like a gas and does not coexist with a liquid.

Both gas and vapor have no shape under a microscope. The idea that vapor has “defined particles” while gas doesn’t is incorrect.

The difference is about origin and conditions, not microscopic structure. Vapor comes from phase change; gas is already a gas under normal conditions.

Conclusion

Understanding these distinctions is critical when designing valves, pipelines, and control systems. At THINKTANK, we provide solutions for both gas and vapor applications, including steam control valves, pressure regulators, and safety systems for volatile fluids.

If you’re unsure whether your application involves vapor or gas, or how it may affect valve sizing and material selection, feel free to contact our engineering team for support.