What is Vaporization?
Vaporization is the stage of an element or compound turning to a gaseous state from the liquid state. There are two types of vaporization and they are evaporation and boiling.
Evaporation is the surface process wherein sprinkles of liquid spread on the ground turn to steam when the surface is hot. However, boiling is a bulk phenomenon, meaning, this process occurs when the vessel filled with water is kept on high flame and the liquid turns to steam.
In this article, we will discuss how vaporization occurs, types of vaporization, in detail.
Vaporization
One thing to note is that heat is required to convert solid or liquid into a gaseous (steam) state.
When a system captures hear from its surroundings, there is a temperature rise. So, when there is a temperature rise, the atoms or molecules of a liquid or solid that are held together by cohesive forces, turn to adhesive forces, which in turn, separate the atoms or molecules to form the vapor; therefore, the heat of vaporization is a direct measure of these cohesive forces.
It means more is the cohesive force between molecules, the more is heat required to vaporize the solid or liquified elements.
Now, let’s understand the types of vaporization:
Types of Vaporization
There are three types of vaporization, and these are as follows:
Evaporation
Boiling
Sublimation
Evaporation
It is a phase transition from the liquid to the vapor phase, i.e., a state of substance/material below the critical temperature occurs.
Evaporation occurs at temperatures lower than the boiling temperature at a given pressure, it always occurs on the surface. That means the water suddenly escapes into the atmosphere (no formation of bubbles or something).
Drying your clothes on the roof is an example of evaporation.
Point to Note:
Evaporation occurs only when the partial/incomplete pressure of vapor of a substance/material is lower than the equilibrium vapor pressure.
Another example, due to continuously decreasing pressures, vapor pumped out of a solution eventually leaves behind a cryogenic (cancer-causing) liquid at temperatures below the boiling temperature at a given pressure.
Boiling
Boiling is similar to evaporation. It is also known as the phase transition from the liquid to the gas phase, but boiling is the formation of vapor as bubbles of high-temperature water below the surface of the liquid just like we keep the water jar on a high flame, it turns to bubbles and then the steam escapes into the atmosphere.
Point to Note:
Boiling occurs only when the equilibrium vapor pressure of the substance is greater than or equal to the environmental/atmospheric pressure.
Hence, the temperature at which boiling occurs is the boiling temperature or boiling point. The boiling point varies with the pressure of the environment or the atmospheric pressure.
Sublimation
We all know that firstly ice converts to liquid and then this liquid turns into steam; however, there is a process that directly converts solid into gaseous form without turning to the liquid phase. So, the direct transition of solid into the gaseous state is sublimation.
Uses of Vaporization
The term vaporization was being used in colloquia/hyperbolic manner to allude to the physical destruction of an object/element that is exposed to intense heat or explosive force, where the object of large mass is split into small pieces rather than converting into gaseous form.
The example includes the usage of the "vaporization" in 1952 the Ivy Mike thermonuclear test that was performed in the uninhabited Marshall Island of Elugelab.
Vaporization or Ablation
Vaporization occurs when a laser heats the material above or equivalent to its boiling point. The high-power densities generated by short-pulsed lasers let the vaporization occur with minimum thermal damage to the surrounding material. This, in turn, allows fine features to be formed without the production of any notable heat-affected zone or recast layer.
Point to Note:
In the process of laser drilling, the term ablation is usually used to indicate a vaporization-dominated process. Though, the term is not well-defined; however, this term applies to processes in which there is also significant melting.
Saturated Vapour
When evaporation occurs in a closed container, it proceeds until all the molecules inside the liquid escape. At this juncture, a vapor is said to be saturated. The pressure of the saturated vapor is expressed in mmHg; this pressure is also called the saturated vapor pressure.
Since the molecular pressure and the kinetic energy of each molecule inside the container is high because of the high temperature; therefore, more molecules escape the surface, and the saturated vapor pressure also increases.
The below diagram shows how the saturation occurs:
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Vapor Lock
A Vapor lock is a partial/complete interruption/disruption of the fuel flow in an internal-combustion engine that is caused by the formation of vapor or bubbles of gas in the fuel-feeding system.
Vapor lock disrupts the operation of the fuel pump, leading to the loss of feed pressure to the fuel injection system, resulting in transient loss of power or complete stalling/stoppage.
FAQs on Vaporization
1. What is the process of vaporization in simple terms?
Vaporization is the process where a substance in a liquid state changes into a gaseous (vapour) state. This change of state happens when the liquid's particles gain enough energy to overcome the forces holding them together. The two main types of vaporization are evaporation and boiling.
2. What is the difference between evaporation and boiling?
Although both are types of vaporization, they are different. Evaporation is a slow process that occurs only at the surface of a liquid at any temperature below the boiling point. Boiling is a fast process that happens throughout the entire liquid at a specific, fixed temperature known as the boiling point.
3. What are some everyday examples of vaporization?
You can see vaporization happening all around you. Common examples include:
- Water turning into steam when you boil it in a pot.
- A wet floor drying on its own as the water evaporates into the air.
- The smell of perfume spreading as the liquid turns into a gas.
- Using an alcohol-based hand sanitiser that quickly disappears from your skin.
4. Why does sweating help cool our bodies down?
Sweating cools us down because of the energy required for vaporization. When we sweat, the water on our skin needs energy to evaporate and turn into water vapour. It takes this energy in the form of heat from our skin. This removal of heat makes our body feel cooler. This is a practical example of the cooling effect of evaporation.
5. What is the latent heat of vaporization?
The latent heat of vaporization is the amount of heat energy needed to change a specific amount of a liquid into a gas without any change in its temperature. This energy is used to break the bonds between the liquid molecules, allowing them to escape as a gas, rather than to increase the liquid's temperature.
6. How is vaporization different from sublimation?
The key difference is the starting state of the substance. Vaporization is the change from a liquid to a gas. In contrast, sublimation is the process where a substance changes directly from a solid to a gas, completely skipping the liquid phase. A common example of sublimation is dry ice (solid carbon dioxide) turning directly into gas.
7. Why does the temperature of water stay at 100°C while it is boiling, even if you keep heating it?
When water reaches its boiling point (100°C at standard pressure), any additional heat energy supplied is used as latent heat of vaporization. This means the energy is fully dedicated to changing the state from liquid to steam, not to increasing the temperature. The temperature will only rise above 100°C after all the water has turned into steam.
